TY - JOUR AB - Blood platelets are critical for hemostasis and thrombosis, but also play diverse roles during immune responses. We have recently reported that platelets migrate at sites of infection in vitro and in vivo. Importantly, platelets use their ability to migrate to collect and bundle fibrin (ogen)-bound bacteria accomplishing efficient intravascular bacterial trapping. Here, we describe a method that allows analyzing platelet migration in vitro, focusing on their ability to collect bacteria and trap bacteria under flow. AU - Fan, Shuxia AU - Lorenz, Michael AU - Massberg, Steffen AU - Gärtner, Florian R ID - 6354 IS - 18 JF - Bio-Protocol KW - Platelets KW - Cell migration KW - Bacteria KW - Shear flow KW - Fibrinogen KW - E. coli SN - 2331-8325 TI - Platelet migration and bacterial trapping assay under flow VL - 8 ER - TY - JOUR AB - The insect’s fat body combines metabolic and immunological functions. In this issue of Developmental Cell, Franz et al. (2018) show that in Drosophila, cells of the fat body are not static, but can actively “swim” toward sites of epithelial injury, where they physically clog the wound and locally secrete antimicrobial peptides. AU - Casano, Alessandra M AU - Sixt, Michael K ID - 318 IS - 4 JF - Developmental Cell TI - A fat lot of good for wound healing VL - 44 ER - TY - JOUR AB - Migrating cells penetrate tissue barriers during development, inflammatory responses, and tumor metastasis. We study if migration in vivo in such three-dimensionally confined environments requires changes in the mechanical properties of the surrounding cells using embryonic Drosophila melanogaster hemocytes, also called macrophages, as a model. We find that macrophage invasion into the germband through transient separation of the apposing ectoderm and mesoderm requires cell deformations and reductions in apical tension in the ectoderm. Interestingly, the genetic pathway governing these mechanical shifts acts downstream of the only known tumor necrosis factor superfamily member in Drosophila, Eiger, and its receptor, Grindelwald. Eiger-Grindelwald signaling reduces levels of active Myosin in the germband ectodermal cortex through the localization of a Crumbs complex component, Patj (Pals-1-associated tight junction protein). We therefore elucidate a distinct molecular pathway that controls tissue tension and demonstrate the importance of such regulation for invasive migration in vivo. AU - Ratheesh, Aparna AU - Biebl, Julia AU - Smutny, Michael AU - Veselá, Jana AU - Papusheva, Ekaterina AU - Krens, Gabriel AU - Kaufmann, Walter AU - György, Attila AU - Casano, Alessandra M AU - Siekhaus, Daria E ID - 308 IS - 3 JF - Developmental Cell TI - Drosophila TNF modulates tissue tension in the embryo to facilitate macrophage invasive migration VL - 45 ER - TY - JOUR AB - Dendritic cells (DCs) are sentinels of the adaptive immune system that reside in peripheral organs of mammals. Upon pathogen encounter, they undergo maturation and up-regulate the chemokine receptor CCR7 that guides them along gradients of its chemokine ligands CCL19 and 21 to the next draining lymph node. There, DCs present peripherally acquired antigen to naïve T cells, thereby triggering adaptive immunity. AU - Leithner, Alexander F AU - Renkawitz, Jörg AU - De Vries, Ingrid AU - Hauschild, Robert AU - Haecker, Hans AU - Sixt, Michael K ID - 437 IS - 6 JF - European Journal of Immunology TI - Fast and efficient genetic engineering of hematopoietic precursor cells for the study of dendritic cell migration VL - 48 ER - TY - JOUR AB - The release of IgM is the first line of an antibody response and precedes the generation of high affinity IgG in germinal centers. Once secreted by freshly activated plasmablasts, IgM is released into the efferent lymph of reactive lymph nodes as early as 3 d after immunization. As pentameric IgM has an enormous size of 1,000 kD, its diffusibility is low, and one might wonder how it can pass through the densely lymphocyte-packed environment of a lymph node parenchyma in order to reach its exit. In this issue of JEM, Thierry et al. show that, in order to reach the blood stream, IgM molecules take a specific micro-anatomical route via lymph node conduits. AU - Reversat, Anne AU - Sixt, Michael K ID - 5672 IS - 12 JF - Journal of Experimental Medicine SN - 00221007 TI - IgM's exit route VL - 215 ER - TY - JOUR AB - Lymphatic endothelial cells (LECs) release extracellular chemokines to guide the migration of dendritic cells. In this study, we report that LECs also release basolateral exosome-rich endothelial vesicles (EEVs) that are secreted in greater numbers in the presence of inflammatory cytokines and accumulate in the perivascular stroma of small lymphatic vessels in human chronic inflammatory diseases. Proteomic analyses of EEV fractions identified > 1,700 cargo proteins and revealed a dominant motility-promoting protein signature. In vitro and ex vivo EEV fractions augmented cellular protrusion formation in a CX3CL1/fractalkine-dependent fashion and enhanced the directional migratory response of human dendritic cells along guidance cues. We conclude that perilymphatic LEC exosomes enhance exploratory behavior and thus promote directional migration of CX3CR1-expressing cells in complex tissue environments. AU - Brown, Markus AU - Johnson, Louise AU - Leone, Dario AU - Májek, Peter AU - Vaahtomeri, Kari AU - Senfter, Daniel AU - Bukosza, Nora AU - Schachner, Helga AU - Asfour, Gabriele AU - Langer, Brigitte AU - Hauschild, Robert AU - Parapatics, Katja AU - Hong, Young AU - Bennett, Keiryn AU - Kain, Renate AU - Detmar, Michael AU - Sixt, Michael K AU - Jackson, David AU - Kerjaschki, Dontscho ID - 275 IS - 6 JF - Journal of Cell Biology TI - Lymphatic exosomes promote dendritic cell migration along guidance cues VL - 217 ER - TY - JOUR AB - Spatial patterns are ubiquitous on the subcellular, cellular and tissue level, and can be studied using imaging techniques such as light and fluorescence microscopy. Imaging data provide quantitative information about biological systems; however, mechanisms causing spatial patterning often remain elusive. In recent years, spatio-temporal mathematical modelling has helped to overcome this problem. Yet, outliers and structured noise limit modelling of whole imaging data, and models often consider spatial summary statistics. Here, we introduce an integrated data-driven modelling approach that can cope with measurement artefacts and whole imaging data. Our approach combines mechanistic models of the biological processes with robust statistical models of the measurement process. The parameters of the integrated model are calibrated using a maximum-likelihood approach. We used this integrated modelling approach to study in vivo gradients of the chemokine (C-C motif) ligand 21 (CCL21). CCL21 gradients guide dendritic cells and are important in the adaptive immune response. Using artificial data, we verified that the integrated modelling approach provides reliable parameter estimates in the presence of measurement noise and that bias and variance of these estimates are reduced compared to conventional approaches. The application to experimental data allowed the parametrization and subsequent refinement of the model using additional mechanisms. Among other results, model-based hypothesis testing predicted lymphatic vessel-dependent concentration of heparan sulfate, the binding partner of CCL21. The selected model provided an accurate description of the experimental data and was partially validated using published data. Our findings demonstrate that integrated statistical modelling of whole imaging data is computationally feasible and can provide novel biological insights. AU - Hross, Sabrina AU - Theis, Fabian J. AU - Sixt, Michael K AU - Hasenauer, Jan ID - 5858 IS - 149 JF - Journal of the Royal Society Interface SN - 17425689 TI - Mechanistic description of spatial processes using integrative modelling of noise-corrupted imaging data VL - 15 ER - TY - CHAP AB - Cells migrating in multicellular organisms steadily traverse complex three-dimensional (3D) environments. To decipher the underlying cell biology, current experimental setups either use simplified 2D, tissue-mimetic 3D (e.g., collagen matrices) or in vivo environments. While only in vivo experiments are truly physiological, they do not allow for precise manipulation of environmental parameters. 2D in vitro experiments do allow mechanical and chemical manipulations, but increasing evidence demonstrates substantial differences of migratory mechanisms in 2D and 3D. Here, we describe simple, robust, and versatile “pillar forests” to investigate cell migration in complex but fully controllable 3D environments. Pillar forests are polydimethylsiloxane-based setups, in which two closely adjacent surfaces are interconnected by arrays of micrometer-sized pillars. Changing the pillar shape, size, height and the inter-pillar distance precisely manipulates microenvironmental parameters (e.g., pore sizes, micro-geometry, micro-topology), while being easily combined with chemotactic cues, surface coatings, diverse cell types and advanced imaging techniques. Thus, pillar forests combine the advantages of 2D cell migration assays with the precise definition of 3D environmental parameters. AU - Renkawitz, Jörg AU - Reversat, Anne AU - Leithner, Alexander F AU - Merrin, Jack AU - Sixt, Michael K ID - 153 SN - 0091679X T2 - Methods in Cell Biology TI - Micro-engineered “pillar forests” to study cell migration in complex but controlled 3D environments VL - 147 ER - TY - JOUR AB - Directed migration of cells relies on their ability to sense directional guidance cues and to interact with pericellular structures in order to transduce contractile cytoskeletal- into mechanical forces. These biomechanical processes depend highly on microenvironmental factors such as exposure to 2D surfaces or 3D matrices. In vivo, the majority of cells are exposed to 3D environments. Data on 3D cell migration are mostly derived from intravital microscopy or collagen-based in vitro assays. Both approaches offer only limited controlla-bility of experimental conditions. Here, we developed an automated microfluidic system that allows positioning of cells in 3D microenvironments containing highly controlled diffusion-based chemokine gradients. Tracking migration in such gradients was feasible in real time at the single cell level. Moreover, the setup allowed on-chip immunocytochemistry and thus linking of functional with phenotypical properties in individual cells. Spatially defined retrieval of cells from the device allows down-stream off-chip analysis. Using dendritic cells as a model, our setup specifically allowed us for the first time to quantitate key migration characteristics of cells exposed to identical gradients of the chemokine CCL19 yet placed on 2D vs in 3D environments. Migration properties between 2D and 3D migration were distinct. Morphological features of cells migrating in an in vitro 3D environment were similar to those of cells migrating in animal tissues, but different from cells migrating on a surface. Our system thus offers a highly controllable in vitro-mimic of a 3D environment that cells traffic in vivo. AU - Frick, Corina AU - Dettinger, Philip AU - Renkawitz, Jörg AU - Jauch, Annaïse AU - Berger, Christoph AU - Recher, Mike AU - Schroeder, Timm AU - Mehling, Matthias ID - 276 IS - 6 JF - PLoS One TI - Nano-scale microfluidics to study 3D chemotaxis at the single cell level VL - 13 ER - TY - JOUR AB - In zebrafish larvae, it is the cell type that determines how the cell responds to a chemokine signal. AU - Alanko, Jonna H AU - Sixt, Michael K ID - 5861 JF - eLife SN - 2050084X TI - The cell sets the tone VL - 7 ER - TY - JOUR AB - G-protein-coupled receptors (GPCRs) form the largest receptor family, relay environmental stimuli to changes in cell behavior and represent prime drug targets. Many GPCRs are classified as orphan receptors because of the limited knowledge on their ligands and coupling to cellular signaling machineries. Here, we engineer a library of 63 chimeric receptors that contain the signaling domains of human orphan and understudied GPCRs functionally linked to the light-sensing domain of rhodopsin. Upon stimulation with visible light, we identify activation of canonical cell signaling pathways, including cAMP-, Ca2+-, MAPK/ERK-, and Rho-dependent pathways, downstream of the engineered receptors. For the human pseudogene GPR33, we resurrect a signaling function that supports its hypothesized role as a pathogen entry site. These results demonstrate that substituting unknown chemical activators with a light switch can reveal information about protein function and provide an optically controlled protein library for exploring the physiology and therapeutic potential of understudied GPCRs. AU - Morri, Maurizio AU - Sanchez-Romero, Inmaculada AU - Tichy, Alexandra-Madelaine AU - Kainrath, Stephanie AU - Gerrard, Elliot J. AU - Hirschfeld, Priscila AU - Schwarz, Jan AU - Janovjak, Harald L ID - 5984 IS - 1 JF - Nature Communications SN - 2041-1723 TI - Optical functionalization of human class A orphan G-protein-coupled receptors VL - 9 ER - TY - JOUR AB - Lamellipodia are flat membrane protrusions formed during mesenchymal motion. Polymerization at the leading edge assembles the actin filament network and generates protrusion force. How this force is supported by the network and how the assembly rate is shared between protrusion and network retrograde flow determines the protrusion rate. We use mathematical modeling to understand experiments changing the F-actin density in lamellipodia of B16-F1 melanoma cells by modulation of Arp2/3 complex activity or knockout of the formins FMNL2 and FMNL3. Cells respond to a reduction of density with a decrease of protrusion velocity, an increase in the ratio of force to filament number, but constant network assembly rate. The relation between protrusion force and tension gradient in the F-actin network and the density dependency of friction, elasticity, and viscosity of the network explain the experimental observations. The formins act as filament nucleators and elongators with differential rates. Modulation of their activity suggests an effect on network assembly rate. Contrary to these expectations, the effect of changes in elongator composition is much weaker than the consequences of the density change. We conclude that the force acting on the leading edge membrane is the force required to drive F-actin network retrograde flow. AU - Dolati, Setareh AU - Kage, Frieda AU - Mueller, Jan AU - Müsken, Mathias AU - Kirchner, Marieluise AU - Dittmar, Gunnar AU - Sixt, Michael K AU - Rottner, Klemens AU - Falcke, Martin ID - 5992 IS - 22 JF - Molecular Biology of the Cell TI - On the relation between filament density, force generation, and protrusion rate in mesenchymal cell motility VL - 29 ER - TY - JOUR AB - T cells are actively scanning pMHC-presenting cells in lymphoid organs and nonlymphoid tissues (NLTs) with divergent topologies and confinement. How the T cell actomyosin cytoskeleton facilitates this task in distinct environments is incompletely understood. Here, we show that lack of Myosin IXb (Myo9b), a negative regulator of the small GTPase Rho, led to increased Rho-GTP levels and cell surface stiffness in primary T cells. Nonetheless, intravital imaging revealed robust motility of Myo9b−/− CD8+ T cells in lymphoid tissue and similar expansion and differentiation during immune responses. In contrast, accumulation of Myo9b−/− CD8+ T cells in NLTs was strongly impaired. Specifically, Myo9b was required for T cell crossing of basement membranes, such as those which are present between dermis and epidermis. As consequence, Myo9b−/− CD8+ T cells showed impaired control of skin infections. In sum, we show that Myo9b is critical for the CD8+ T cell adaptation from lymphoid to NLT surveillance and the establishment of protective tissue–resident T cell populations. AU - Moalli, Federica AU - Ficht, Xenia AU - Germann, Philipp AU - Vladymyrov, Mykhailo AU - Stolp, Bettina AU - de Vries, Ingrid AU - Lyck, Ruth AU - Balmer, Jasmin AU - Fiocchi, Amleto AU - Kreutzfeldt, Mario AU - Merkler, Doron AU - Iannacone, Matteo AU - Ariga, Akitaka AU - Stoffel, Michael H. AU - Sharpe, James AU - Bähler, Martin AU - Sixt, Michael K AU - Diz-Muñoz, Alba AU - Stein, Jens V. ID - 6497 IS - 7 JF - The Journal of Experimental Medicine SN - 0022-1007 TI - The Rho regulator Myosin IXb enables nonlymphoid tissue seeding of protective CD8+T cells VL - 2015 ER - TY - JOUR AB - During metastasis, malignant cells escape the primary tumor, intravasate lymphatic vessels, and reach draining sentinel lymph nodes before they colonize distant organs via the blood circulation. Although lymph node metastasis in cancer patients correlates with poor prognosis, evidence is lacking as to whether and how tumor cells enter the bloodstream via lymph nodes. To investigate this question, we delivered carcinoma cells into the lymph nodes of mice by microinfusing the cells into afferent lymphatic vessels. We found that tumor cells rapidly infiltrated the lymph node parenchyma, invaded blood vessels, and seeded lung metastases without involvement of the thoracic duct. These results suggest that the lymph node blood vessels can serve as an exit route for systemic dissemination of cancer cells in experimental mouse models. Whether this form of tumor cell spreading occurs in cancer patients remains to be determined. AU - Brown, Markus AU - Assen, Frank P AU - Leithner, Alexander F AU - Abe, Jun AU - Schachner, Helga AU - Asfour, Gabriele AU - Bagó Horváth, Zsuzsanna AU - Stein, Jens AU - Uhrin, Pavel AU - Sixt, Michael K AU - Kerjaschki, Dontscho ID - 402 IS - 6382 JF - Science TI - Lymph node blood vessels provide exit routes for metastatic tumor cell dissemination in mice VL - 359 ER - TY - THES AB - In the here presented thesis, we explore the role of branched actin networks in cell migration and antigen presentation, the two most relevant processes in dendritic cell biology. Branched actin networks construct lamellipodial protrusions at the leading edge of migrating cells. These are typically seen as adhesive structures, which mediate force transduction to the extracellular matrix that leads to forward locomotion. We ablated Arp2/3 nucleation promoting factor WAVE in DCs and found that the resulting cells lack lamellipodial protrusions. Instead, depending on the maturation state, one or multiple filopodia were formed. By challenging these cells in a variety of migration assays we found that lamellipodial protrusions are dispensable for the locomotion of leukocytes and actually dampen the speed of migration. However, lamellipodia are critically required to negotiate complex environments that DCs experience while they travel to the next draining lymph node. Taken together our results suggest that leukocyte lamellipodia have rather a sensory- than a force transducing function. Furthermore, we show for the first time structure and dynamics of dendritic cell F-actin at the immunological synapse with naïve T cells. Dendritic cell F-actin appears as dynamic foci that are nucleated by the Arp2/3 complex. WAVE ablated dendritic cells show increased membrane tension, leading to an altered ultrastructure of the immunological synapse and severe T cell priming defects. These results point towards a previously unappreciated role of the cellular mechanics of dendritic cells in T cell activation. Additionally, we present a novel cell culture based system for the differentiation of dendritic cells from conditionally immortalized hematopoietic precursors. These precursor cells are genetically tractable via the CRISPR/Cas9 system while they retain their ability to differentiate into highly migratory dendritic cells and other immune cells. This will foster the study of all aspects of dendritic cell biology and beyond. AU - Leithner, Alexander F ID - 323 SN - 2663-337X TI - Branched actin networks in dendritic cell biology ER - TY - JOUR AB - Although much is known about the physiological framework of T cell motility, and numerous rate-limiting molecules have been identified through loss-of-function approaches, an integrated functional concept of T cell motility is lacking. Here, we used in vivo precision morphometry together with analysis of cytoskeletal dynamics in vitro to deconstruct the basic mechanisms of T cell migration within lymphatic organs. We show that the contributions of the integrin LFA-1 and the chemokine receptor CCR7 are complementary rather than positioned in a linear pathway, as they are during leukocyte extravasation from the blood vasculature. Our data demonstrate that CCR7 controls cortical actin flows, whereas integrins mediate substrate friction that is sufficient to drive locomotion in the absence of considerable surface adhesions and plasma membrane flux. AU - Hons, Miroslav AU - Kopf, Aglaja AU - Hauschild, Robert AU - Leithner, Alexander F AU - Gärtner, Florian R AU - Abe, Jun AU - Renkawitz, Jörg AU - Stein, Jens AU - Sixt, Michael K ID - 15 IS - 6 JF - Nature Immunology TI - Chemokines and integrins independently tune actin flow and substrate friction during intranodal migration of T cells VL - 19 ER - TY - JOUR AB - The actomyosin ring generates force to ingress the cytokinetic cleavage furrow in animal cells, yet its filament organization and the mechanism of contractility is not well understood. We quantified actin filament order in human cells using fluorescence polarization microscopy and found that cleavage furrow ingression initiates by contraction of an equatorial actin network with randomly oriented filaments. The network subsequently gradually reoriented actin filaments along the cell equator. This strictly depended on myosin II activity, suggesting local network reorganization by mechanical forces. Cortical laser microsurgery revealed that during cytokinesis progression, mechanical tension increased substantially along the direction of the cell equator, while the network contracted laterally along the pole-to-pole axis without a detectable increase in tension. Our data suggest that an asymmetric increase in cortical tension promotes filament reorientation along the cytokinetic cleavage furrow, which might have implications for diverse other biological processes involving actomyosin rings. AU - Spira, Felix AU - Cuylen Haering, Sara AU - Mehta, Shalin AU - Samwer, Matthias AU - Reversat, Anne AU - Verma, Amitabh AU - Oldenbourg, Rudolf AU - Sixt, Michael K AU - Gerlich, Daniel ID - 569 JF - eLife SN - 2050084X TI - Cytokinesis in vertebrate cells initiates by contraction of an equatorial actomyosin network composed of randomly oriented filaments VL - 6 ER - TY - JOUR AB - Blood platelets are critical for hemostasis and thrombosis and play diverse roles during immune responses. Despite these versatile tasks in mammalian biology, their skills on a cellular level are deemed limited, mainly consisting in rolling, adhesion, and aggregate formation. Here, we identify an unappreciated asset of platelets and show that adherent platelets use adhesion receptors to mechanically probe the adhesive substrate in their local microenvironment. When actomyosin-dependent traction forces overcome substrate resistance, platelets migrate and pile up the adhesive substrate together with any bound particulate material. They use this ability to act as cellular scavengers, scanning the vascular surface for potential invaders and collecting deposited bacteria. Microbe collection by migrating platelets boosts the activity of professional phagocytes, exacerbating inflammatory tissue injury in sepsis. This assigns platelets a central role in innate immune responses and identifies them as potential targets to dampen inflammatory tissue damage in clinical scenarios of severe systemic infection. In addition to their role in thrombosis and hemostasis, platelets can also migrate to sites of infection to help trap bacteria and clear the vascular surface. AU - Gärtner, Florian R AU - Ahmad, Zerkah AU - Rosenberger, Gerhild AU - Fan, Shuxia AU - Nicolai, Leo AU - Busch, Benjamin AU - Yavuz, Gökce AU - Luckner, Manja AU - Ishikawa Ankerhold, Hellen AU - Hennel, Roman AU - Benechet, Alexandre AU - Lorenz, Michael AU - Chandraratne, Sue AU - Schubert, Irene AU - Helmer, Sebastian AU - Striednig, Bianca AU - Stark, Konstantin AU - Janko, Marek AU - Böttcher, Ralph AU - Verschoor, Admar AU - Leon, Catherine AU - Gachet, Christian AU - Gudermann, Thomas AU - Mederos Y Schnitzler, Michael AU - Pincus, Zachary AU - Iannacone, Matteo AU - Haas, Rainer AU - Wanner, Gerhard AU - Lauber, Kirsten AU - Sixt, Michael K AU - Massberg, Steffen ID - 571 IS - 6 JF - Cell Press SN - 00928674 TI - Migrating platelets are mechano scavengers that collect and bundle bacteria VL - 171 ER - TY - JOUR AB - Migration frequently involves Rac-mediated protrusion of lamellipodia, formed by Arp2/3 complex-dependent branching thought to be crucial for force generation and stability of these networks. The formins FMNL2 and FMNL3 are Cdc42 effectors targeting to the lamellipodium tip and shown here to nucleate and elongate actin filaments with complementary activities in vitro. In migrating B16-F1 melanoma cells, both formins contribute to the velocity of lamellipodium protrusion. Loss of FMNL2/3 function in melanoma cells and fibroblasts reduces lamellipodial width, actin filament density and -bundling, without changing patterns of Arp2/3 complex incorporation. Strikingly, in melanoma cells, FMNL2/3 gene inactivation almost completely abolishes protrusion forces exerted by lamellipodia and modifies their ultrastructural organization. Consistently, CRISPR/Cas-mediated depletion of FMNL2/3 in fibroblasts reduces both migration and capability of cells to move against viscous media. Together, we conclude that force generation in lamellipodia strongly depends on FMNL formin activity, operating in addition to Arp2/3 complex-dependent filament branching. AU - Kage, Frieda AU - Winterhoff, Moritz AU - Dimchev, Vanessa AU - Müller, Jan AU - Thalheim, Tobias AU - Freise, Anika AU - Brühmann, Stefan AU - Kollasser, Jana AU - Block, Jennifer AU - Dimchev, Georgi A AU - Geyer, Matthias AU - Schnittler, Hams AU - Brakebusch, Cord AU - Stradal, Theresia AU - Carlier, Marie AU - Sixt, Michael K AU - Käs, Josef AU - Faix, Jan AU - Rottner, Klemens ID - 659 JF - Nature Communications SN - 20411723 TI - FMNL formins boost lamellipodial force generation VL - 8 ER - TY - JOUR AB - Macrophage filopodia, finger-like membrane protrusions, were first implicated in phagocytosis more than 100 years ago, but little is still known about the involvement of these actin-dependent structures in particle clearance. Using spinning disk confocal microscopy to image filopodial dynamics in mouse resident Lifeact-EGFP macrophages, we show that filopodia, or filopodia-like structures, support pathogen clearance by multiple means. Filopodia supported the phagocytic uptake of bacterial (Escherichia coli) particles by (i) capturing along the filopodial shaft and surfing toward the cell body, the most common mode of capture; (ii) capturing via the tip followed by retraction; (iii) combinations of surfing and retraction; or (iv) sweeping actions. In addition, filopodia supported the uptake of zymosan (Saccharomyces cerevisiae) particles by (i) providing fixation, (ii) capturing at the tip and filopodia-guided actin anterograde flow with phagocytic cup formation, and (iii) the rapid growth of new protrusions. To explore the role of filopodia-inducing Cdc42, we generated myeloid-restricted Cdc42 knock-out mice. Cdc42-deficient macrophages exhibited rapid phagocytic cup kinetics, but reduced particle clearance, which could be explained by the marked rounded-up morphology of these cells. Macrophages lacking Myo10, thought to act downstream of Cdc42, had normal morphology, motility, and phagocytic cup formation, but displayed markedly reduced filopodia formation. In conclusion, live-cell imaging revealed multiple mechanisms involving macrophage filopodia in particle capture and engulfment. Cdc42 is not critical for filopodia or phagocytic cup formation, but plays a key role in driving macrophage lamellipodial spreading. AU - Horsthemke, Markus AU - Bachg, Anne AU - Groll, Katharina AU - Moyzio, Sven AU - Müther, Barbara AU - Hemkemeyer, Sandra AU - Wedlich Söldner, Roland AU - Sixt, Michael K AU - Tacke, Sebastian AU - Bähler, Martin AU - Hanley, Peter ID - 668 IS - 17 JF - Journal of Biological Chemistry SN - 00219258 TI - Multiple roles of filopodial dynamics in particle capture and phagocytosis and phenotypes of Cdc42 and Myo10 deletion VL - 292 ER - TY - JOUR AB - Trafficking cells frequently transmigrate through epithelial and endothelial monolayers. How monolayers cooperate with the penetrating cells to support their transit is poorly understood. We studied dendritic cell (DC) entry into lymphatic capillaries as a model system for transendothelial migration. We find that the chemokine CCL21, which is the decisive guidance cue for intravasation, mainly localizes in the trans-Golgi network and intracellular vesicles of lymphatic endothelial cells. Upon DC transmigration, these Golgi deposits disperse and CCL21 becomes extracellularly enriched at the sites of endothelial cell-cell junctions. When we reconstitute the transmigration process in vitro, we find that secretion of CCL21-positive vesicles is triggered by a DC contact-induced calcium signal, and selective calcium chelation in lymphatic endothelium attenuates transmigration. Altogether, our data demonstrate a chemokine-mediated feedback between DCs and lymphatic endothelium, which facilitates transendothelial migration. AU - Vaahtomeri, Kari AU - Brown, Markus AU - Hauschild, Robert AU - De Vries, Ingrid AU - Leithner, Alexander F AU - Mehling, Matthias AU - Kaufmann, Walter AU - Sixt, Michael K ID - 672 IS - 5 JF - Cell Reports SN - 22111247 TI - Locally triggered release of the chemokine CCL21 promotes dendritic cell transmigration across lymphatic endothelia VL - 19 ER - TY - JOUR AB - Navigation of cells along gradients of guidance cues is a determining step in many developmental and immunological processes. Gradients can either be soluble or immobilized to tissues as demonstrated for the haptotactic migration of dendritic cells (DCs) toward higher concentrations of immobilized chemokine CCL21. To elucidate how gradient characteristics govern cellular response patterns, we here introduce an in vitro system allowing to track migratory responses of DCs to precisely controlled immobilized gradients of CCL21. We find that haptotactic sensing depends on the absolute CCL21 concentration and local steepness of the gradient, consistent with a scenario where DC directionality is governed by the signal-to-noise ratio of CCL21 binding to the receptor CCR7. We find that the conditions for optimal DC guidance are perfectly provided by the CCL21 gradients we measure in vivo. Furthermore, we find that CCR7 signal termination by the G-protein-coupled receptor kinase 6 (GRK6) is crucial for haptotactic but dispensable for chemotactic CCL21 gradient sensing in vitro and confirm those observations in vivo. These findings suggest that stable, tissue-bound CCL21 gradients as sustainable “roads” ensure optimal guidance in vivo. AU - Schwarz, Jan AU - Bierbaum, Veronika AU - Vaahtomeri, Kari AU - Hauschild, Robert AU - Brown, Markus AU - De Vries, Ingrid AU - Leithner, Alexander F AU - Reversat, Anne AU - Merrin, Jack AU - Tarrant, Teresa AU - Bollenbach, Tobias AU - Sixt, Michael K ID - 674 IS - 9 JF - Current Biology SN - 09609822 TI - Dendritic cells interpret haptotactic chemokine gradients in a manner governed by signal to noise ratio and dependent on GRK6 VL - 27 ER - TY - JOUR AB - The INO80 complex (INO80-C) is an evolutionarily conserved nucleosome remodeler that acts in transcription, replication, and genome stability. It is required for resistance against genotoxic agents and is involved in the repair of DNA double-strand breaks (DSBs) by homologous recombination (HR). However, the causes of the HR defect in INO80-C mutant cells are controversial. Here, we unite previous findings using a system to study HR with high spatial resolution in budding yeast. We find that INO80-C has at least two distinct functions during HR—DNA end resection and presynaptic filament formation. Importantly, the second function is linked to the histone variant H2A.Z. In the absence of H2A.Z, presynaptic filament formation and HR are restored in INO80-C-deficient mutants, suggesting that presynaptic filament formation is the crucial INO80-C function during HR. AU - Lademann, Claudio AU - Renkawitz, Jörg AU - Pfander, Boris AU - Jentsch, Stefan ID - 677 IS - 7 JF - Cell Reports SN - 22111247 TI - The INO80 complex removes H2A.Z to promote presynaptic filament formation during homologous recombination VL - 19 ER - TY - JOUR AB - A change regarding the extent of adhesion - hereafter referred to as adhesion plasticity - between adhesive and less-adhesive states of mammalian cells is important for their behavior. To investigate adhesion plasticity, we have selected a stable isogenic subpopulation of human MDA-MB-468 breast carcinoma cells growing in suspension. These suspension cells are unable to re-adhere to various matrices or to contract three-dimensional collagen lattices. By using transcriptome analysis, we identified the focal adhesion protein tensin3 (Tns3) as a determinant of adhesion plasticity. Tns3 is strongly reduced at mRNA and protein levels in suspension cells. Furthermore, by transiently challenging breast cancer cells to grow under non-adherent conditions markedly reduces Tns3 protein expression, which is regained upon re-adhesion. Stable knockdown of Tns3 in parental MDA-MB-468 cells results in defective adhesion, spreading and migration. Tns3-knockdown cells display impaired structure and dynamics of focal adhesion complexes as determined by immunostaining. Restoration of Tns3 protein expression in suspension cells partially rescues adhesion and focal contact composition. Our work identifies Tns3 as a crucial focal adhesion component regulated by, and functionally contributing to, the switch between adhesive and non-adhesive states in MDA-MB-468 cancer cells. AU - Veß, Astrid AU - Blache, Ulrich AU - Leitner, Laura AU - Kurz, Angela AU - Ehrenpfordt, Anja AU - Sixt, Michael K AU - Posern, Guido ID - 694 IS - 13 JF - Journal of Cell Science SN - 00219533 TI - A dual phenotype of MDA MB 468 cancer cells reveals mutual regulation of tensin3 and adhesion plasticity VL - 130 ER - TY - JOUR AB - Coordinated changes of cell shape are often the result of the excitable, wave-like dynamics of the actin cytoskeleton. New work shows that, in migrating cells, protrusion waves arise from mechanochemical crosstalk between adhesion sites, membrane tension and the actin protrusive machinery. AU - Müller, Jan AU - Sixt, Michael K ID - 1161 IS - 1 JF - Current Biology SN - 09609822 TI - Cell migration: Making the waves VL - 27 ER - TY - JOUR AB - Actin filaments polymerizing against membranes power endocytosis, vesicular traffic, and cell motility. In vitro reconstitution studies suggest that the structure and the dynamics of actin networks respond to mechanical forces. We demonstrate that lamellipodial actin of migrating cells responds to mechanical load when membrane tension is modulated. In a steady state, migrating cell filaments assume the canonical dendritic geometry, defined by Arp2/3-generated 70° branch points. Increased tension triggers a dense network with a broadened range of angles, whereas decreased tension causes a shift to a sparse configuration dominated by filaments growing perpendicularly to the plasma membrane. We show that these responses emerge from the geometry of branched actin: when load per filament decreases, elongation speed increases and perpendicular filaments gradually outcompete others because they polymerize the shortest distance to the membrane, where they are protected from capping. This network-intrinsic geometrical adaptation mechanism tunes protrusive force in response to mechanical load. AU - Mueller, Jan AU - Szep, Gregory AU - Nemethova, Maria AU - De Vries, Ingrid AU - Lieber, Arnon AU - Winkler, Christoph AU - Kruse, Karsten AU - Small, John AU - Schmeiser, Christian AU - Keren, Kinneret AU - Hauschild, Robert AU - Sixt, Michael K ID - 727 IS - 1 JF - Cell SN - 00928674 TI - Load adaptation of lamellipodial actin networks VL - 171 ER - TY - DATA AB - Immunological synapse DC-Tcells AU - Leithner, Alexander F ID - 5567 KW - Immunological synapse TI - Immunological synapse DC-Tcells ER - TY - JOUR AB - Immune cells communicate using cytokine signals, but the quantitative rules of this communication aren't clear. In this issue of Immunity, Oyler-Yaniv et al. (2017) suggest that the distribution of a cytokine within a lymphatic organ is primarily governed by the local density of cells consuming it. AU - Assen, Frank P AU - Sixt, Michael K ID - 664 IS - 4 JF - Immunity SN - 10747613 TI - The dynamic cytokine niche VL - 46 ER - TY - JOUR AB - Protective responses against pathogens require a rapid mobilization of resting neutrophils and the timely removal of activated ones. Neutrophils are exceptionally short-lived leukocytes, yet it remains unclear whether the lifespan of pathogen-engaged neutrophils is regulated differently from that in the circulating steady-state pool. Here, we have found that under homeostatic conditions, the mRNA-destabilizing protein tristetraprolin (TTP) regulates apoptosis and the numbers of activated infiltrating murine neutrophils but not neutrophil cellularity. Activated TTP-deficient neutrophils exhibited decreased apoptosis and enhanced accumulation at the infection site. In the context of myeloid-specific deletion of Ttp, the potentiation of neutrophil deployment protected mice against lethal soft tissue infection with Streptococcus pyogenes and prevented bacterial dissemination. Neutrophil transcriptome analysis revealed that decreased apoptosis of TTP-deficient neutrophils was specifically associated with elevated expression of myeloid cell leukemia 1 (Mcl1) but not other antiapoptotic B cell leukemia/ lymphoma 2 (Bcl2) family members. Higher Mcl1 expression resulted from stabilization of Mcl1 mRNA in the absence of TTP. The low apoptosis rate of infiltrating TTP-deficient neutrophils was comparable to that of transgenic Mcl1-overexpressing neutrophils. Our study demonstrates that posttranscriptional gene regulation by TTP schedules the termination of the antimicrobial engagement of neutrophils. The balancing role of TTP comes at the cost of an increased risk of bacterial infections. AU - Ebner, Florian AU - Sedlyarov, Vitaly AU - Tasciyan, Saren AU - Ivin, Masa AU - Kratochvill, Franz AU - Gratz, Nina AU - Kenner, Lukas AU - Villunger, Andreas AU - Sixt, Michael K AU - Kovarik, Pavel ID - 679 IS - 6 JF - The Journal of Clinical Investigation SN - 00219738 TI - The RNA-binding protein tristetraprolin schedules apoptosis of pathogen-engaged neutrophils during bacterial infection VL - 127 ER - TY - JOUR AB - RASGRP1 is an important guanine nucleotide exchange factor and activator of the RAS-MAPK pathway following T cell antigen receptor (TCR) signaling. The consequences of RASGRP1 mutations in humans are unknown. In a patient with recurrent bacterial and viral infections, born to healthy consanguineous parents, we used homozygosity mapping and exome sequencing to identify a biallelic stop-gain variant in RASGRP1. This variant segregated perfectly with the disease and has not been reported in genetic databases. RASGRP1 deficiency was associated in T cells and B cells with decreased phosphorylation of the extracellular-signal-regulated serine kinase ERK, which was restored following expression of wild-type RASGRP1. RASGRP1 deficiency also resulted in defective proliferation, activation and motility of T cells and B cells. RASGRP1-deficient natural killer (NK) cells exhibited impaired cytotoxicity with defective granule convergence and actin accumulation. Interaction proteomics identified the dynein light chain DYNLL1 as interacting with RASGRP1, which links RASGRP1 to cytoskeletal dynamics. RASGRP1-deficient cells showed decreased activation of the GTPase RhoA. Treatment with lenalidomide increased RhoA activity and reversed the migration and activation defects of RASGRP1-deficient lymphocytes. AU - Salzer, Elisabeth AU - Çaǧdaş, Deniz AU - Hons, Miroslav AU - Mace, Emily AU - Garncarz, Wojciech AU - Petronczki, Oezlem AU - Platzer, René AU - Pfajfer, Laurène AU - Bilic, Ivan AU - Ban, Sol AU - Willmann, Katharina AU - Mukherjee, Malini AU - Supper, Verena AU - Hsu, Hsiangting AU - Banerjee, Pinaki AU - Sinha, Papiya AU - Mcclanahan, Fabienne AU - Zlabinger, Gerhard AU - Pickl, Winfried AU - Gribben, John AU - Stockinger, Hannes AU - Bennett, Keiryn AU - Huppa, Johannes AU - Dupré, Loï̈C AU - Sanal, Özden AU - Jäger, Ulrich AU - Sixt, Michael K AU - Tezcan, Ilhan AU - Orange, Jordan AU - Boztug, Kaan ID - 1137 IS - 12 JF - Nature Immunology TI - RASGRP1 deficiency causes immunodeficiency with impaired cytoskeletal dynamics VL - 17 ER - TY - JOUR AB - Hemolysis drives susceptibility to bacterial infections and predicts poor outcome from sepsis. These detrimental effects are commonly considered to be a consequence of heme-iron serving as a nutrient for bacteria. We employed a Gram-negative sepsis model and found that elevated heme levels impaired the control of bacterial proliferation independently of heme-iron acquisition by pathogens. Heme strongly inhibited phagocytosis and the migration of human and mouse phagocytes by disrupting actin cytoskeletal dynamics via activation of the GTP-binding Rho family protein Cdc42 by the guanine nucleotide exchange factor DOCK8. A chemical screening approach revealed that quinine effectively prevented heme effects on the cytoskeleton, restored phagocytosis and improved survival in sepsis. These mechanistic insights provide potential therapeutic targets for patients with sepsis or hemolytic disorders. AU - Martins, Rui AU - Maier, Julia AU - Gorki, Anna AU - Huber, Kilian AU - Sharif, Omar AU - Starkl, Philipp AU - Saluzzo, Simona AU - Quattrone, Federica AU - Gawish, Riem AU - Lakovits, Karin AU - Aichinger, Michael AU - Radic Sarikas, Branka AU - Lardeau, Charles AU - Hladik, Anastasiya AU - Korosec, Ana AU - Brown, Markus AU - Vaahtomeri, Kari AU - Duggan, Michelle AU - Kerjaschki, Dontscho AU - Esterbauer, Harald AU - Colinge, Jacques AU - Eisenbarth, Stephanie AU - Decker, Thomas AU - Bennett, Keiryn AU - Kubicek, Stefan AU - Sixt, Michael K AU - Superti Furga, Giulio AU - Knapp, Sylvia ID - 1142 IS - 12 JF - Nature Immunology TI - Heme drives hemolysis-induced susceptibility to infection via disruption of phagocyte functions VL - 17 ER - TY - JOUR AB - When neutrophils infiltrate a site of inflammation, they have to stop at the right place to exert their effector function. In this issue of Developmental Cell, Wang et al. (2016) show that neutrophils sense reactive oxygen species via the TRPM2 channel to arrest migration at their target site. © 2016 Elsevier Inc. AU - Renkawitz, Jörg AU - Sixt, Michael K ID - 1150 IS - 5 JF - Developmental Cell TI - A Radical Break Restraining Neutrophil Migration VL - 38 ER - TY - JOUR AB - Cellular locomotion is a central hallmark of eukaryotic life. It is governed by cell-extrinsic molecular factors, which can either emerge in the soluble phase or as immobilized, often adhesive ligands. To encode for direction, every cue must be present as a spatial or temporal gradient. Here, we developed a microfluidic chamber that allows measurement of cell migration in combined response to surface immobilized and soluble molecular gradients. As a proof of principle we study the response of dendritic cells to their major guidance cues, chemokines. The majority of data on chemokine gradient sensing is based on in vitro studies employing soluble gradients. Despite evidence suggesting that in vivo chemokines are often immobilized to sugar residues, limited information is available how cells respond to immobilized chemokines. We tracked migration of dendritic cells towards immobilized gradients of the chemokine CCL21 and varying superimposed soluble gradients of CCL19. Differential migratory patterns illustrate the potential of our setup to quantitatively study the competitive response to both types of gradients. Beyond chemokines our approach is broadly applicable to alternative systems of chemo- and haptotaxis such as cells migrating along gradients of adhesion receptor ligands vs. any soluble cue. AU - Schwarz, Jan AU - Bierbaum, Veronika AU - Merrin, Jack AU - Frank, Tino AU - Hauschild, Robert AU - Bollenbach, Mark Tobias AU - Tay, Savaş AU - Sixt, Michael K AU - Mehling, Matthias ID - 1154 JF - Scientific Reports TI - A microfluidic device for measuring cell migration towards substrate bound and soluble chemokine gradients VL - 6 ER - TY - JOUR AB - In this issue of Cell, Skau et al. show that the formin FMN2 organizes a perinuclear actin cytoskeleton that protects the nucleus and its genomic content of migrating cells squeezing through small spaces. AU - Renkawitz, Jörg AU - Sixt, Michael K ID - 1201 IS - 6 JF - Cell TI - Formin’ a nuclear protection VL - 167 ER - TY - JOUR AB - Understanding the regulation of T-cell responses during inflammation and auto-immunity is fundamental for designing efficient therapeutic strategies against immune diseases. In this regard, prostaglandin E 2 (PGE 2) is mostly considered a myeloid-derived immunosuppressive molecule. We describe for the first time that T cells secrete PGE 2 during T-cell receptor stimulation. In addition, we show that autocrine PGE 2 signaling through EP receptors is essential for optimal CD4 + T-cell activation in vitro and in vivo, and for T helper 1 (Th1) and regulatory T cell differentiation. PGE 2 was found to provide additive co-stimulatory signaling through AKT activation. Intravital multiphoton microscopy showed that triggering EP receptors in T cells is also essential for the stability of T cell-dendritic cell (DC) interactions and Th-cell accumulation in draining lymph nodes (LNs) during inflammation. We further demonstrated that blocking EP receptors in T cells during the initial phase of collagen-induced arthritis in mice resulted in a reduction of clinical arthritis. This could be attributable to defective T-cell activation, accompanied by a decline in activated and interferon-γ-producing CD4 + Th1 cells in draining LNs. In conclusion, we prove that T lymphocytes secret picomolar concentrations of PGE 2, which in turn provide additive co-stimulatory signaling, enabling T cells to attain a favorable activation threshold. PGE 2 signaling in T cells is also required for maintaining long and stable interactions with DCs within LNs. Blockade of EP receptors in vivo impairs T-cell activation and development of T cell-mediated inflammatory responses. This may have implications in various pathophysiological settings. AU - Sreeramkumar, Vinatha AU - Hons, Miroslav AU - Punzón, Carmen AU - Stein, Jens AU - Sancho, David AU - Fresno Forcelledo, Manuel AU - Cuesta, Natalia ID - 1217 IS - 1 JF - Immunology and Cell Biology TI - Efficient T-cell priming and activation requires signaling through prostaglandin E2 (EP) receptors VL - 94 ER - TY - JOUR AB - Cell migration is central to a multitude of physiological processes, including embryonic development, immune surveillance, and wound healing, and deregulated migration is key to cancer dissemination. Decades of investigations have uncovered many of the molecular and physical mechanisms underlying cell migration. Together with protrusion extension and cell body retraction, adhesion to the substrate via specific focal adhesion points has long been considered an essential step in cell migration. Although this is true for cells moving on two-dimensional substrates, recent studies have demonstrated that focal adhesions are not required for cells moving in three dimensions, in which confinement is sufficient to maintain a cell in contact with its substrate. Here, we review the investigations that have led to challenging the requirement of specific adhesions for migration, discuss the physical mechanisms proposed for cell body translocation during focal adhesion-independent migration, and highlight the remaining open questions for the future. AU - Paluch, Ewa AU - Aspalter, Irene AU - Sixt, Michael K ID - 1285 JF - Annual Review of Cell and Developmental Biology TI - Focal adhesion-independent cell migration VL - 32 ER - TY - JOUR AB - To induce adaptive immunity, dendritic cells (DCs) migrate through afferent lymphatic vessels (LVs) to draining lymph nodes (dLNs). This process occurs in several consecutive steps. Upon entry into lymphatic capillaries, DCs first actively crawl into downstream collecting vessels. From there, they are next passively and rapidly transported to the dLN by lymph flow. Here, we describe a role for the chemokine CCL21 in intralymphatic DC crawling. Performing time-lapse imaging in murine skin, we found that blockade of CCL21-but not the absence of lymph flow-completely abolished DC migration from capillaries toward collecting vessels and reduced the ability of intralymphatic DCs to emigrate from skin. Moreover, we found that in vitro low laminar flow established a CCL21 gradient along lymphatic endothelial monolayers, thereby inducing downstream-directed DC migration. These findings reveal a role for intralymphatic CCL21 in promoting DC trafficking to dLNs, through the formation of a flow-induced gradient. AU - Russo, Erica AU - Teijeira, Alvaro AU - Vaahtomeri, Kari AU - Willrodt, Ann AU - Bloch, Joël AU - Nitschké, Maximilian AU - Santambrogio, Laura AU - Kerjaschki, Dontscho AU - Sixt, Michael K AU - Halin, Cornelia ID - 1490 IS - 7 JF - Cell Reports TI - Intralymphatic CCL21 promotes tissue egress of dendritic cells through afferent lymphatic vessels VL - 14 ER - TY - JOUR AB - The addition of polysialic acid to N- and/or O-linked glycans, referred to as polysialylation, is a rare posttranslational modification that is mainly known to control the developmental plasticity of the nervous system. Here we show that CCR7, the central chemokine receptor controlling immune cell trafficking to secondary lymphatic organs, carries polysialic acid. This modification is essential for the recognition of the CCR7 ligand CCL21. As a consequence, dendritic cell trafficking is abrogated in polysialyltransferase-deficient mice, manifesting as disturbed lymph node homeostasis and unresponsiveness to inflammatory stimuli. Structure-function analysis of chemokine-receptor interactions reveals that CCL21 adopts an autoinhibited conformation, which is released upon interaction with polysialic acid. Thus, we describe a glycosylation-mediated immune cell trafficking disorder and its mechanistic basis. AU - Kiermaier, Eva AU - Moussion, Christine AU - Veldkamp, Christopher AU - Gerardy Schahn, Rita AU - De Vries, Ingrid AU - Williams, Larry AU - Chaffee, Gary AU - Phillips, Andrew AU - Freiberger, Friedrich AU - Imre, Richard AU - Taleski, Deni AU - Payne, Richard AU - Braun, Asolina AU - Förster, Reinhold AU - Mechtler, Karl AU - Mühlenhoff, Martina AU - Volkman, Brian AU - Sixt, Michael K ID - 1599 IS - 6269 JF - Science TI - Polysialylation controls dendritic cell trafficking by regulating chemokine recognition VL - 351 ER - TY - JOUR AB - Chemokines are the main guidance cues directing leukocyte migration. Opposed to early assumptions, chemokines do not necessarily act as soluble cues but are often immobilized within tissues, e.g., dendritic cell migration toward lymphatic vessels is guided by a haptotactic gradient of the chemokine CCL21. Controlled assay systems to quantitatively study haptotaxis in vitro are still missing. In this chapter, we describe an in vitro haptotaxis assay optimized for the unique properties of dendritic cells. The chemokine CCL21 is immobilized in a bioactive state, using laser-assisted protein adsorption by photobleaching. The cells follow this immobilized CCL21 gradient in a haptotaxis chamber, which provides three dimensionally confined migration conditions. AU - Schwarz, Jan AU - Sixt, Michael K ID - 1597 JF - Methods in Enzymology TI - Quantitative analysis of dendritic cell haptotaxis VL - 570 ER - TY - THES AB - Directed cell migration is a hallmark feature, present in almost all multi-cellular organisms. Despite its importance, basic questions regarding force transduction or directional sensing are still heavily investigated. Directed migration of cells guided by immobilized guidance cues - haptotaxis - occurs in key-processes, such as embryonic development and immunity (Middleton et al., 1997; Nguyen et al., 2000; Thiery, 1984; Weber et al., 2013). Immobilized guidance cues comprise adhesive ligands, such as collagen and fibronectin (Barczyk et al., 2009), or chemokines - the main guidance cues for migratory leukocytes (Middleton et al., 1997; Weber et al., 2013). While adhesive ligands serve as attachment sites guiding cell migration (Carter, 1965), chemokines instruct haptotactic migration by inducing adhesion to adhesive ligands and directional guidance (Rot and Andrian, 2004; Schumann et al., 2010). Quantitative analysis of the cellular response to immobilized guidance cues requires in vitro assays that foster cell migration, offer accurate control of the immobilized cues on a subcellular scale and in the ideal case closely reproduce in vivo conditions. The exploration of haptotactic cell migration through design and employment of such assays represents the main focus of this work. Dendritic cells (DCs) are leukocytes, which after encountering danger signals such as pathogens in peripheral organs instruct naïve T-cells and consequently the adaptive immune response in the lymph node (Mellman and Steinman, 2001). To reach the lymph node from the periphery, DCs follow haptotactic gradients of the chemokine CCL21 towards lymphatic vessels (Weber et al., 2013). Questions about how DCs interpret haptotactic CCL21 gradients have not yet been addressed. The main reason for this is the lack of an assay that offers diverse haptotactic environments, hence allowing the study of DC migration as a response to different signals of immobilized guidance cue. In this work, we developed an in vitro assay that enables us to quantitatively assess DC haptotaxis, by combining precisely controllable chemokine photo-patterning with physically confining migration conditions. With this tool at hand, we studied the influence of CCL21 gradient properties and concentration on DC haptotaxis. We found that haptotactic gradient sensing depends on the absolute CCL21 concentration in combination with the local steepness of the gradient. Our analysis suggests that the directionality of migrating DCs is governed by the signal-to-noise ratio of CCL21 binding to its receptor CCR7. Moreover, the haptotactic CCL21 gradient formed in vivo provides an optimal shape for DCs to recognize haptotactic guidance cue. By reconstitution of the CCL21 gradient in vitro we were also able to study the influence of CCR7 signal termination on DC haptotaxis. To this end, we used DCs lacking the G-protein coupled receptor kinase GRK6, which is responsible for CCL21 induced CCR7 receptor phosphorylation and desensitization (Zidar et al., 2009). We found that CCR7 desensitization by GRK6 is crucial for maintenance of haptotactic CCL21 gradient sensing in vitro and confirm those observations in vivo. In the context of the organism, immobilized haptotactic guidance cues often coincide and compete with soluble chemotactic guidance cues. During wound healing, fibroblasts are exposed and influenced by adhesive cues and soluble factors at the same time (Wu et al., 2012; Wynn, 2008). Similarly, migrating DCs are exposed to both, soluble chemokines (CCL19 and truncated CCL21) inducing chemotactic behavior as well as the immobilized CCL21. To quantitatively assess these complex coinciding immobilized and soluble guidance cues, we implemented our chemokine photo-patterning technique in a microfluidic system allowing for chemotactic gradient generation. To validate the assay, we observed DC migration in competing CCL19/CCL21 environments. Adhesiveness guided haptotaxis has been studied intensively over the last century. However, quantitative studies leading to conceptual models are largely missing, again due to the lack of a precisely controllable in vitro assay. A requirement for such an in vitro assay is that it must prevent any uncontrolled cell adhesion. This can be accomplished by stable passivation of the surface. In addition, controlled adhesion must be sustainable, quantifiable and dose dependent in order to create homogenous gradients. Therefore, we developed a novel covalent photo-patterning technique satisfying all these needs. In combination with a sustainable poly-vinyl alcohol (PVA) surface coating we were able to generate gradients of adhesive cue to direct cell migration. This approach allowed us to characterize the haptotactic migratory behavior of zebrafish keratocytes in vitro. Furthermore, defined patterns of adhesive cue allowed us to control for cell shape and growth on a subcellular scale. AU - Schwarz, Jan ID - 1129 SN - 2663-337X TI - Quantitative analysis of haptotactic cell migration ER - TY - JOUR AB - Most migrating cells extrude their front by the force of actin polymerization. Polymerization requires an initial nucleation step, which is mediated by factors establishing either parallel filaments in the case of filopodia or branched filaments that form the branched lamellipodial network. Branches are considered essential for regular cell motility and are initiated by the Arp2/3 complex, which in turn is activated by nucleation-promoting factors of the WASP and WAVE families. Here we employed rapid amoeboid crawling leukocytes and found that deletion of the WAVE complex eliminated actin branching and thus lamellipodia formation. The cells were left with parallel filaments at the leading edge, which translated, depending on the differentiation status of the cell, into a unipolar pointed cell shape or cells with multiple filopodia. Remarkably, unipolar cells migrated with increased speed and enormous directional persistence, while they were unable to turn towards chemotactic gradients. Cells with multiple filopodia retained chemotactic activity but their migration was progressively impaired with increasing geometrical complexity of the extracellular environment. These findings establish that diversified leading edge protrusions serve as explorative structures while they slow down actual locomotion. AU - Leithner, Alexander F AU - Eichner, Alexander AU - Müller, Jan AU - Reversat, Anne AU - Brown, Markus AU - Schwarz, Jan AU - Merrin, Jack AU - De Gorter, David AU - Schur, Florian AU - Bayerl, Jonathan AU - De Vries, Ingrid AU - Wieser, Stefan AU - Hauschild, Robert AU - Lai, Frank AU - Moser, Markus AU - Kerjaschki, Dontscho AU - Rottner, Klemens AU - Small, Victor AU - Stradal, Theresia AU - Sixt, Michael K ID - 1321 JF - Nature Cell Biology TI - Diversified actin protrusions promote environmental exploration but are dispensable for locomotion of leukocytes VL - 18 ER - TY - JOUR AB - In growing cells, protein synthesis and cell growth are typically not synchronous, and, thus, protein concentrations vary over the cell division cycle. We have developed a theoretical description of genetic regulatory systems in bacteria that explicitly considers the cell division cycle to investigate its impact on gene expression. We calculate the cell-to-cell variations arising from cells being at different stages in the division cycle for unregulated genes and for basic regulatory mechanisms. These variations contribute to the extrinsic noise observed in single-cell experiments, and are most significant for proteins with short lifetimes. Negative autoregulation buffers against variation of protein concentration over the division cycle, but the effect is found to be relatively weak. Stronger buffering is achieved by an increased protein lifetime. Positive autoregulation can strongly amplify such variation if the parameters are set to values that lead to resonance-like behaviour. For cooperative positive autoregulation, the concentration variation over the division cycle diminishes the parameter region of bistability and modulates the switching times between the two stable states. The same effects are seen for a two-gene mutual-repression toggle switch. By contrast, an oscillatory circuit, the repressilator, is only weakly affected by the division cycle. AU - Bierbaum, Veronika AU - Klumpp, Stefan ID - 1530 IS - 6 JF - Physical Biology TI - Impact of the cell division cycle on gene circuits VL - 12 ER - TY - JOUR AB - Cell movement has essential functions in development, immunity, and cancer. Various cell migration patterns have been reported, but no general rule has emerged so far. Here, we show on the basis of experimental data in vitro and in vivo that cell persistence, which quantifies the straightness of trajectories, is robustly coupled to cell migration speed. We suggest that this universal coupling constitutes a generic law of cell migration, which originates in the advection of polarity cues by an actin cytoskeleton undergoing flows at the cellular scale. Our analysis relies on a theoretical model that we validate by measuring the persistence of cells upon modulation of actin flow speeds and upon optogenetic manipulation of the binding of an actin regulator to actin filaments. Beyond the quantitative prediction of the coupling, the model yields a generic phase diagram of cellular trajectories, which recapitulates the full range of observed migration patterns. AU - Maiuri, Paolo AU - Rupprecht, Jean AU - Wieser, Stefan AU - Ruprecht, Verena AU - Bénichou, Olivier AU - Carpi, Nicolas AU - Coppey, Mathieu AU - De Beco, Simon AU - Gov, Nir AU - Heisenberg, Carl-Philipp J AU - Lage Crespo, Carolina AU - Lautenschlaeger, Franziska AU - Le Berre, Maël AU - Lennon Duménil, Ana AU - Raab, Matthew AU - Thiam, Hawa AU - Piel, Matthieu AU - Sixt, Michael K AU - Voituriez, Raphaël ID - 1553 IS - 2 JF - Cell TI - Actin flows mediate a universal coupling between cell speed and cell persistence VL - 161 ER - TY - JOUR AB - Replication-deficient recombinant adenoviruses are potent vectors for the efficient transient expression of exogenous genes in resting immune cells. However, most leukocytes are refractory to efficient adenoviral transduction as they lack expression of the coxsackie/adenovirus receptor (CAR). To circumvent this obstacle, we generated the R26/CAG-CARΔ1StopF (where R26 is ROSA26 and CAG is CMV early enhancer/chicken β actin promoter) knock-in mouse line. This strain allows monitoring of in situ Cre recombinase activity through expression of CARΔ1. Simultaneously, CARΔ1 expression permits selective and highly efficient adenoviral transduction of immune cell populations, such as mast cells or T cells, directly ex vivo in bulk cultures without prior cell purification or activation. Furthermore, we show that CARΔ1 expression dramatically improves adenoviral infection of in vitro differentiated conventional and plasmacytoid dendritic cells (DCs), basophils, mast cells, as well as Hoxb8-immortalized hematopoietic progenitor cells. This novel dual function mouse strain will hence be a valuable tool to rapidly dissect the function of specific genes in leukocyte physiology. AU - Heger, Klaus AU - Kober, Maike AU - Rieß, David AU - Drees, Christoph AU - De Vries, Ingrid AU - Bertossi, Arianna AU - Roers, Axel AU - Sixt, Michael K AU - Schmidt Supprian, Marc ID - 1561 IS - 6 JF - European Journal of Immunology TI - A novel Cre recombinase reporter mouse strain facilitates selective and efficient infection of primary immune cells with adenoviral vectors VL - 45 ER - TY - JOUR AB - Stromal cells in the subcapsular sinus of the lymph node 'decide' which cells and molecules are allowed access to the deeper parenchyma. The glycoprotein PLVAP is a crucial component of this selector function. AU - Hons, Miroslav AU - Sixt, Michael K ID - 1560 IS - 4 JF - Nature Immunology TI - The lymph node filter revealed VL - 16 ER - TY - JOUR AB - The immune response relies on the migration of leukocytes and on their ability to stop in precise anatomical locations to fulfil their task. How leukocyte migration and function are coordinated is unknown. Here we show that in immature dendritic cells, which patrol their environment by engulfing extracellular material, cell migration and antigen capture are antagonistic. This antagonism results from transient enrichment of myosin IIA at the cell front, which disrupts the back-to-front gradient of the motor protein, slowing down locomotion but promoting antigen capture. We further highlight that myosin IIA enrichment at the cell front requires the MHC class II-associated invariant chain (Ii). Thus, by controlling myosin IIA localization, Ii imposes on dendritic cells an intermittent antigen capture behaviour that might facilitate environment patrolling. We propose that the requirement for myosin II in both cell migration and specific cell functions may provide a general mechanism for their coordination in time and space. AU - Chabaud, Mélanie AU - Heuzé, Mélina AU - Bretou, Marine AU - Vargas, Pablo AU - Maiuri, Paolo AU - Solanes, Paola AU - Maurin, Mathieu AU - Terriac, Emmanuel AU - Le Berre, Maël AU - Lankar, Danielle AU - Piolot, Tristan AU - Adelstein, Robert AU - Zhang, Yingfan AU - Sixt, Michael K AU - Jacobelli, Jordan AU - Bénichou, Olivier AU - Voituriez, Raphaël AU - Piel, Matthieu AU - Lennon Duménil, Ana ID - 1575 JF - Nature Communications TI - Cell migration and antigen capture are antagonistic processes coupled by myosin II in dendritic cells VL - 6 ER - TY - JOUR AU - Sixt, Michael K AU - Raz, Erez ID - 1676 IS - 10 JF - Current Opinion in Cell Biology TI - Editorial overview: Cell adhesion and migration VL - 36 ER - TY - JOUR AB - Guided cell movement is essential for development and integrity of animals and crucially involved in cellular immune responses. Leukocytes are professional migratory cells that can navigate through most types of tissues and sense a wide range of directional cues. The responses of these cells to attractants have been mainly explored in tissue culture settings. How leukocytes make directional decisions in situ, within the challenging environment of a tissue maze, is less understood. Here we review recent advances in how leukocytes sense chemical cues in complex tissue settings and make links with paradigms of directed migration in development and Dictyostelium discoideum amoebae. AU - Sarris, Milka AU - Sixt, Michael K ID - 1687 IS - 10 JF - Current Opinion in Cell Biology TI - Navigating in tissue mazes: Chemoattractant interpretation in complex environments VL - 36 ER - TY - JOUR AU - Kiermaier, Eva AU - Sixt, Michael K ID - 1686 IS - 6252 JF - Science TI - Fragmented communication between immune cells: Neutrophils blaze a trail with migratory cues for T cells to follow to sites of infection VL - 349 ER - TY - JOUR AB - Dendritic cells are potent antigen-presenting cells endowed with the unique ability to initiate adaptive immune responses upon inflammation. Inflammatory processes are often associated with an increased production of serotonin, which operates by activating specific receptors. However, the functional role of serotonin receptors in regulation of dendritic cell functions is poorly understood. Here, we demonstrate that expression of serotonin receptor 5-HT7 (5-HT7TR) as well as its downstream effector Cdc42 is upregulated in dendritic cells upon maturation. Although dendritic cell maturation was independent of 5-HT7TR, receptor stimulation affected dendritic cell morphology through Cdc42-mediated signaling. In addition, basal activity of 5-HT7TR was required for the proper expression of the chemokine receptor CCR7, which is a key factor that controls dendritic cell migration. Consistent with this, we observed that 5-HT7TR enhances chemotactic motility of dendritic cells in vitro by modulating their directionality and migration velocity. Accordingly, migration of dendritic cells in murine colon explants was abolished after pharmacological receptor inhibition. Our results indicate that there is a crucial role for 5-HT7TR-Cdc42-mediated signaling in the regulation of dendritic cell morphology and motility, suggesting that 5-HT7TR could be a new target for treatment of a variety of inflammatory and immune disorders. AU - Holst, Katrin AU - Guseva, Daria AU - Schindler, Susann AU - Sixt, Michael K AU - Braun, Armin AU - Chopra, Himpriya AU - Pabst, Oliver AU - Ponimaskin, Evgeni ID - 477 IS - 15 JF - Journal of Cell Science TI - The serotonin receptor 5-HT7R regulates the morphology and migratory properties of dendritic cells VL - 128 ER -