Litcius/Paper detail

A tessellated lymphoid network provides whole-body T cell surveillance in zebrafish

Tanner F. Robertson, Yiran Hou, Jonathan Schrope, Simone Shen, Julie Rindy, John‐Demian Sauer, Huy Q. Dinh, Anna Huttenlocher

2023Proceedings of the National Academy of Sciences28 citationsDOIOpen Access PDF

Abstract

Homeostatic trafficking to lymph nodes allows T cells to efficiently survey the host for cognate antigen. Nonmammalian jawed vertebrates lack lymph nodes but maintain diverse T cell pools. Here, we exploit in vivo imaging of transparent zebrafish to investigate how T cells organize and survey for antigen in an animal devoid of lymph nodes. We find that naïve-like T cells in zebrafish organize into a previously undescribed whole-body lymphoid network that supports streaming migration and coordinated trafficking through the host. This network has the cellular hallmarks of a mammalian lymph node, including naïve T cells and CCR7-ligand expressing nonhematopoietic cells, and facilitates rapid collective migration. During infection, T cells transition to a random walk that supports antigen-presenting cell interactions and subsequent activation. Our results reveal that T cells can toggle between collective migration and individual random walks to prioritize either large-scale trafficking or antigen search in situ. This lymphoid network thus facilitates whole-body T cell trafficking and antigen surveillance in the absence of a lymph node system.

Topics & Concepts

ZebrafishLymph nodeCell biologyLymphBiologyAntigenLymphatic systemImmunologyPathologyMedicineGeneGeneticsT-cell and B-cell ImmunologyZebrafish Biomedical Research ApplicationsImmune Cell Function and Interaction