Litcius/Paper detail

Human T follicular helper clones seed the germinal center–resident regulatory pool

Carole Le Coz, Derek A. Oldridge, Ramin S. Herati, Nina De Luna, James Garifallou, Emylette Cruz Cabrera, Jonathan Belman, Dana Pueschl, Luisa V. Silva, Ainsley V. C. Knox, Whitney Reid, Samuel Yoon, Karen B. Zur, Steven D. Handler, Håkon Håkonarson, E. John Wherry, Michael V. Gonzalez, Neil Romberg

2023Science Immunology63 citationsDOIOpen Access PDF

Abstract

The mechanisms by which FOXP3 + T follicular regulatory (Tfr) cells simultaneously steer antibody formation toward microbe or vaccine recognition and away from self-reactivity remain incompletely understood. To explore underappreciated heterogeneity in human Tfr cell development, function, and localization, we used paired TCRVA / TCRVB sequencing to distinguish tonsillar Tfr cells that are clonally related to natural regulatory T cells (nTfr) from those likely induced from T follicular helper (Tfh) cells (iTfr). The proteins iTfr and nTfr cells differentially expressed were used to pinpoint their in situ locations via multiplex microscopy and establish their divergent functional roles. In silico analyses and in vitro tonsil organoid tracking models corroborated the existence of separate T reg -to-nTfr and Tfh-to-iTfr developmental trajectories. Our results identify human iTfr cells as a distinct CD38 + , germinal center–resident, Tfh-descended subset that gains suppressive function while retaining the capacity to help B cells, whereas CD38 − nTfr cells are elite suppressors primarily localized in follicular mantles. Interventions differentially targeting specific Tfr cell subsets may provide therapeutic opportunities to boost immunity or more precisely treat autoimmune diseases.

Topics & Concepts

Germinal centerBiologyFOXP3ImmunologyFollicular dendritic cellsAffinity maturationCell biologyMicrofold cellAntibodyB cellT cellImmune systemAntigen-presenting cellImmune Cell Function and InteractionT-cell and B-cell ImmunologySingle-cell and spatial transcriptomics