@article{1618, abstract = {CCL19 and CCL21 are chemokines involved in the trafficking of immune cells, particularly within the lymphatic system, through activation of CCR7. Concurrent expression of PSGL-1 and CCR7 in naive T-cells enhances recruitment of these cells to secondary lymphoid organs by CCL19 and CCL21. Here the solution structure of CCL19 is reported. It contains a canonical chemokine domain. Chemical shift mapping shows the N-termini of PSGL-1 and CCR7 have overlapping binding sites for CCL19 and binding is competitive. Implications for the mechanism of PSGL-1's enhancement of resting T-cell recruitment are discussed.}, author = {Veldkamp, Christopher and Kiermaier, Eva and Gabel Eissens, Skylar and Gillitzer, Miranda and Lippner, David and Disilvio, Frank and Mueller, Casey and Wantuch, Paeton and Chaffee, Gary and Famiglietti, Michael and Zgoba, Danielle and Bailey, Asha and Bah, Yaya and Engebretson, Samantha and Graupner, David and Lackner, Emily and Larosa, Vincent and Medeiros, Tysha and Olson, Michael and Phillips, Andrew and Pyles, Harley and Richard, Amanda and Schoeller, Scott and Touzeau, Boris and Williams, Larry and Sixt, Michael K and Peterson, Francis}, journal = {Biochemistry}, number = {27}, pages = {4163 -- 4166}, publisher = {American Chemical Society}, title = {{Solution structure of CCL19 and identification of overlapping CCR7 and PSGL-1 binding sites}}, doi = {10.1021/acs.biochem.5b00560}, volume = {54}, year = {2015}, } @article{1537, abstract = {3D amoeboid cell migration is central to many developmental and disease-related processes such as cancer metastasis. Here, we identify a unique prototypic amoeboid cell migration mode in early zebrafish embryos, termed stable-bleb migration. Stable-bleb cells display an invariant polarized balloon-like shape with exceptional migration speed and persistence. Progenitor cells can be reversibly transformed into stable-bleb cells irrespective of their primary fate and motile characteristics by increasing myosin II activity through biochemical or mechanical stimuli. Using a combination of theory and experiments, we show that, in stable-bleb cells, cortical contractility fluctuations trigger a stochastic switch into amoeboid motility, and a positive feedback between cortical flows and gradients in contractility maintains stable-bleb cell polarization. We further show that rearward cortical flows drive stable-bleb cell migration in various adhesive and non-adhesive environments, unraveling a highly versatile amoeboid migration phenotype.}, author = {Ruprecht, Verena and Wieser, Stefan and Callan Jones, Andrew and Smutny, Michael and Morita, Hitoshi and Sako, Keisuke and Barone, Vanessa and Ritsch Marte, Monika and Sixt, Michael K and Voituriez, Raphaël and Heisenberg, Carl-Philipp J}, journal = {Cell}, number = {4}, pages = {673 -- 685}, publisher = {Cell Press}, title = {{Cortical contractility triggers a stochastic switch to fast amoeboid cell motility}}, doi = {10.1016/j.cell.2015.01.008}, volume = {160}, year = {2015}, } @article{1877, abstract = {During inflammation, lymph nodes swell with an influx of immune cells. New findings identify a signalling pathway that induces relaxation in the contractile cells that give structure to these organs.}, author = {Sixt, Michael K and Vaahtomeri, Kari}, journal = {Nature}, number = {7523}, pages = {441 -- 442}, publisher = {Springer Nature}, title = {{Physiology: Relax and come in}}, doi = {10.1038/514441a}, volume = {514}, year = {2014}, } @article{1910, abstract = {angerhans cells (LCs) are a unique subset of dendritic cells (DCs) that express epithelial adhesion molecules, allowing them to form contacts with epithelial cells and reside in epidermal/epithelial tissues. The dynamic regulation of epithelial adhesion plays a decisive role in the life cycle of LCs. It controls whether LCs remain immature and sessile within the epidermis or mature and egress to initiate immune responses. So far, the molecular machinery regulating epithelial adhesion molecules during LC maturation remains elusive. Here, we generated pure populations of immature human LCs in vitro to systematically probe for gene-expression changes during LC maturation. LCs down-regulate a set of epithelial genes including E-cadherin, while they upregulate the mesenchymal marker N-cadherin known to facilitate cell migration. In addition, N-cadherin is constitutively expressed by monocyte-derived DCs known to exhibit characteristics of both inflammatory-type and interstitial/dermal DCs. Moreover, the transcription factors ZEB1 and ZEB2 (ZEB is zinc-finger E-box-binding homeobox) are upregulated in migratory LCs. ZEB1 and ZEB2 have been shown to induce epithelial-to-mesenchymal transition (EMT) and invasive behavior in cancer cells undergoing metastasis. Our results provide the first hint that the molecular EMT machinery might facilitate LC mobilization. Moreover, our study suggests that N-cadherin plays a role during DC migration.}, author = {Konradi, Sabine and Yasmin, Nighat and Haslwanter, Denise and Weber, Michele and Gesslbauer, Bernd and Sixt, Michael K and Strobl, Herbert}, journal = {European Journal of Immunology}, number = {2}, pages = {553 -- 560}, publisher = {Wiley-Blackwell}, title = {{Langerhans cell maturation is accompanied by induction of N-cadherin and the transcriptional regulators of epithelial-mesenchymal transition ZEB1/2}}, doi = {10.1002/eji.201343681}, volume = {44}, year = {2014}, } @article{1925, abstract = {In the past decade carbon nanotubes (CNTs) have been widely studied as a potential drug-delivery system, especially with functionality for cellular targeting. Yet, little is known about the actual process of docking to cell receptors and transport dynamics after internalization. Here we performed single-particle studies of folic acid (FA) mediated CNT binding to human carcinoma cells and their transport inside the cytosol. In particular, we employed molecular recognition force spectroscopy, an atomic force microscopy based method, to visualize and quantify docking of FA functionalized CNTs to FA binding receptors in terms of binding probability and binding force. We then traced individual fluorescently labeled, FA functionalized CNTs after specific uptake, and created a dynamic 'roadmap' that clearly showed trajectories of directed diffusion and areas of nanotube confinement in the cytosol. Our results demonstrate the potential of a single-molecule approach for investigation of drug-delivery vehicles and their targeting capacity.}, author = {Lamprecht, Constanze and Plochberger, Birgit and Ruprecht, Verena and Wieser, Stefan and Rankl, Christian and Heister, Elena and Unterauer, Barbara and Brameshuber, Mario and Danzberger, Jürgen and Lukanov, Petar and Flahaut, Emmanuel and Schütz, Gerhard and Hinterdorfer, Peter and Ebner, Andreas}, journal = {Nanotechnology}, number = {12}, publisher = {IOP Publishing}, title = {{A single-molecule approach to explore binding uptake and transport of cancer cell targeting nanotubes}}, doi = {10.1088/0957-4484/25/12/125704}, volume = {25}, year = {2014}, } @article{2158, abstract = {Directional guidance of migrating cells is relatively well explored in the reductionist setting of cell culture experiments. Here spatial gradients of chemical cues as well as gradients of mechanical substrate characteristics prove sufficient to attract single cells as well as their collectives. How such gradients present and act in the context of an organism is far less clear. Here we review recent advances in understanding how guidance cues emerge and operate in the physiological context.}, author = {Majumdar, Ritankar and Sixt, Michael K and Parent, Carole}, journal = {Current Opinion in Cell Biology}, number = {1}, pages = {33 -- 40}, publisher = {Elsevier}, title = {{New paradigms in the establishment and maintenance of gradients during directed cell migration}}, doi = {10.1016/j.ceb.2014.05.010}, volume = {30}, year = {2014}, } @article{2214, abstract = {A hallmark of immune cell trafficking is directional guidance via gradients of soluble or surface bound chemokines. Vascular endothelial cells produce, transport and deposit either their own chemokines or chemokines produced by the underlying stroma. Endothelial heparan sulfate (HS) was suggested to be a critical scaffold for these chemokine pools, but it is unclear how steep chemokine gradients are sustained between the lumenal and ablumenal aspects of blood vessels. Addressing this question by semi-quantitative immunostaining of HS moieties around blood vessels with a pan anti-HS IgM mAb, we found a striking HS enrichment in the basal lamina of resting and inflamed post capillary skin venules, as well as in high endothelial venules (HEVs) of lymph nodes. Staining of skin vessels with a glycocalyx probe further suggested that their lumenal glycocalyx contains much lower HS density than their basolateral extracellular matrix (ECM). This polarized HS pattern was observed also in isolated resting and inflamed microvascular dermal cells. Notably, progressive skin inflammation resulted in massive ECM deposition and in further HS enrichment around skin post capillary venules and their associated pericytes. Inflammation-dependent HS enrichment was not compromised in mice deficient in the main HS degrading enzyme, heparanase. Our results suggest that the blood vasculature patterns steep gradients of HS scaffolds between their lumenal and basolateral endothelial aspects, and that inflammatory processes can further enrich the HS content nearby inflamed vessels. We propose that chemokine gradients between the lumenal and ablumenal sides of vessels could be favored by these sharp HS scaffold gradients.}, author = {Stoler Barak, Liat and Moussion, Christine and Shezen, Elias and Hatzav, Miki and Sixt, Michael K and Alon, Ronen}, journal = {PLoS One}, number = {1}, publisher = {Public Library of Science}, title = {{Blood vessels pattern heparan sulfate gradients between their apical and basolateral aspects}}, doi = {10.1371/journal.pone.0085699}, volume = {9}, year = {2014}, } @article{2215, abstract = {Homologous recombination is crucial for genome stability and for genetic exchange. Although our knowledge of the principle steps in recombination and its machinery is well advanced, homology search, the critical step of exploring the genome for homologous sequences to enable recombination, has remained mostly enigmatic. However, recent methodological advances have provided considerable new insights into this fundamental step in recombination that can be integrated into a mechanistic model. These advances emphasize the importance of genomic proximity and nuclear organization for homology search and the critical role of homology search mediators in this process. They also aid our understanding of how homology search might lead to unwanted and potentially disease-promoting recombination events.}, author = {Renkawitz, Jörg and Lademann, Claudio and Jentsch, Stefan}, journal = {Nature Reviews Molecular Cell Biology}, number = {6}, pages = {369 -- 383}, publisher = {Nature Publishing Group}, title = {{Mechanisms and principles of homology search during recombination}}, doi = {10.1038/nrm3805}, volume = {15}, year = {2014}, } @article{2242, abstract = {MicroRNAs (miRNAs) are small RNAs that play important regulatory roles in many cellular pathways. MiRNAs associate with members of the Argonaute protein family and bind to partially complementary sequences on mRNAs and induce translational repression or mRNA decay. Using deep sequencing and Northern blotting, we characterized miRNA expression in wild type and miR-155-deficient dendritic cells (DCs) and macrophages. Analysis of different stimuli (LPS, LDL, eLDL, oxLDL) reveals a direct influence of miR-155 on the expression levels of other miRNAs. For example, miR-455 is negatively regulated in miR-155-deficient cells possibly due to inhibition of the transcription factor C/EBPbeta by miR-155. Based on our comprehensive data sets, we propose a model of hierarchical miRNA expression dominated by miR-155 in DCs and macrophages.}, author = {Dueck, Anne and Eichner, Alexander and Sixt, Michael K and Meister, Gunter}, issn = {00145793}, journal = {FEBS Letters}, number = {4}, pages = {632 -- 640}, publisher = {Elsevier}, title = {{A miR-155-dependent microRNA hierarchy in dendritic cell maturation and macrophage activation}}, doi = {10.1016/j.febslet.2014.01.009}, volume = {588}, year = {2014}, } @article{2830, author = {Moussion, Christine and Sixt, Michael K}, journal = {Immunity}, number = {5}, pages = {853 -- 854}, publisher = {Cell Press}, title = {{A conduit to amplify innate immunity}}, doi = {10.1016/j.immuni.2013.05.005}, volume = {38}, year = {2013}, }