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 -