@article{6457565ca95841bea67a46da56a53ff6,
title = "B cell zone reticular cell microenvironments shape CXCL13 gradient formation",
abstract = "Through the formation of concentration gradients, morphogens drive graded responses to extracellular signals, thereby fine-tuning cell behaviors in complex tissues. Here we show that the chemokine CXCL13 forms both soluble and immobilized gradients. Specifically, CXCL13+ follicular reticular cells form a small-world network of guidance structures, with computer simulations and optimization analysis predicting that immobilized gradients created by this network promote B cell trafficking. Consistent with this prediction, imaging analysis show that CXCL13 binds to extracellular matrix components in situ, constraining its diffusion. CXCL13 solubilization requires the protease cathepsin B that cleaves CXCL13 into a stable product. Mice lacking cathepsin B display aberrant follicular architecture, a phenotype associated with effective B cell homing to but not within lymph nodes. Our data thus suggest that reticular cells of the B cell zone generate microenvironments that shape both immobilized and soluble CXCL13 gradients.",
keywords = "Adaptive Immunity, Animals, B-Lymphocytes/cytology, Cathepsin B/genetics, Cell Line, Cellular Microenvironment/immunology, Chemokine CXCL13/immunology, Computer Simulation, Dendritic Cells, Follicular/cytology, Extracellular Matrix/metabolism, Humans, Mice, Mice, Knockout, Microscopy, Fluorescence, Models, Biological, Palatine Tonsil/cytology, Recombinant Proteins/genetics, Stromal Cells/immunology",
author = "Jason Cosgrove and Mario Novkovic and Stefan Albrecht and Pikor, {Natalia B.} and Zhaoukun Zhou and Lucas Onder and Urs M{\"o}rbe and Jovana Cupovic and Helen Miller and Kieran Alden and Anne Thuery and Peter O{\textquoteright}Toole and Rita Pinter and Simon Jarrett and Emily Taylor and Daniel Venetz and Manfred Heller and Mariagrazia Uguccioni and Legler, {Daniel F.} and Lacey, {Charles J.} and Andrew Coatesworth and Polak, {Wojciech G.} and Tom Cupedo and B{\'e}nedicte Manoury and Marcus Thelen and Stein, {Jens V.} and Marlene Wolf and Leake, {Mark C.} and Jon Timmis and Burkhard Ludewig and Coles, {Mark C.}",
note = "Funding Information: We wish to thank Antal Rot, Paul Kaye, Dimitris Lagos and members of the York Computational Immunology Laboratory for advice and reagents, the York Teaching Hospital NHS Foundation Trust R&D Department for invaluable assistance with sample collection protocol and Imaging & Cytometry Laboratory staff for technical input. Work was funded by the Swiss National Science Foundation Grant (310030_163336) to M.T. and Swiss National Science Foundation Grants 159188 and 166500 to B.L. M.C.L. was supported by the Biological Physical Sciences Institute (BPSI), Medical Research Council grants MR/K01580X/1 (M.C.L.), MC_PC_15073 (M.C.C., M.C.L. and Z.Z.) and BBSRC grants BB/N006453/1 and BB/R001235/1 (M.C.L.). M.W. was supported by the Bernische Krebsliga to M.W. and S.A., by the Swiss European Union FP6 (INNOCHEM, LSHB-CT-2005-518167), the Swiss National Science Foundation (143718 to M.U.) and the San Salvatore Foundation to M.U., the Swiss National Science Foundation (169936) to D.F.L. D.V. was supported by the MD/Ph.D. scholarship from the Swiss National Science Foundation and the Max Clo{\"e}tta Foundation (313600-115688). B.M. was supported by INSERM U1151. K.A. was supported by Wellcome Trust Centre for Future Health grant (204829), J.T. by EPSRC grant EP/K040820/1. J.C., J.T. and M.C.C. were funded by Wellcome Trust (Computational Approaches in Translational Science WT0905024MA, HFSP (RGP0006/2009 T.C. and M.C.C.) and Medical Research Grants MR/K021125/1 and G0601156. M.C.C. is funded by the Kennedy Trust. Publisher Copyright: {\textcopyright} 2020, The Author(s).",
year = "2020",
month = dec,
day = "1",
doi = "10.1038/s41467-020-17135-2",
language = "English",
volume = "11",
journal = "Nature Communications",
issn = "2041-1723",
publisher = "Springer Nature",
number = "1",
}