PD-L1 mediated T cell inhibition by regulatory plasma cells induced after sepsis and COVID-19

Morgane Gossez; Clara Vigneron; Alexandra Vandermoeten; Margot Lepage; Louise Courcol; Rémy Coudereau; Helena Paidassai; Laurent Jallades; Jonathan Lopez; Khalil Kandara; Marine Ortillon; Marine Mommert; Astrid Fabri; Estelle Peronnet; Clémence Grosjean; Marielle Buisson; Anne‐Claire Lukaszewicz; Thomas Rimmelé; Laurent Argaud; Martin Cour; Bénédicte F. Py; Olivier Thaunat; Thierry Defrance; Guillaume Monneret; Fabienne Venet; REALISM; RICO study groups

doi:10.1101/2024.08.08.24311630

PD-L1 mediated T cell inhibition by regulatory plasma cells induced after sepsis and COVID-19

Morgane Gossez(Université Claude Bernard Lyon 1), Clara Vigneron(Université Claude Bernard Lyon 1), Alexandra Vandermoeten(Université Claude Bernard Lyon 1), Margot Lepage(Université Claude Bernard Lyon 1), Louise Courcol(Université Claude Bernard Lyon 1), Rémy Coudereau(Université Claude Bernard Lyon 1), Helena Paidassai(Université Claude Bernard Lyon 1), Laurent Jallades(Université Claude Bernard Lyon 1), Jonathan Lopez(Université Claude Bernard Lyon 1), Khalil Kandara(Hospices Civils de Lyon), Marine Ortillon(Hospices Civils de Lyon), Marine Mommert(Université Claude Bernard Lyon 1), Astrid Fabri(Hospices Civils de Lyon), Estelle Peronnet(Université Claude Bernard Lyon 1), Clémence Grosjean(Université Claude Bernard Lyon 1), Marielle Buisson(Inserm), Anne‐Claire Lukaszewicz(Université Claude Bernard Lyon 1), Thomas Rimmelé(Université Claude Bernard Lyon 1), Laurent Argaud(Hospices Civils de Lyon), Martin Cour(Hospices Civils de Lyon), Bénédicte F. Py(Université Claude Bernard Lyon 1), Olivier Thaunat(Université Claude Bernard Lyon 1), Thierry Defrance(Université Claude Bernard Lyon 1), Guillaume Monneret(Université Claude Bernard Lyon 1), Fabienne Venet(Université Claude Bernard Lyon 1), REALISM, RICO study groups

medRxiv

August 8, 2024

10.1101/2024.08.08.24311630

Cited by 0Open Access

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Abstract

Abstract A better understanding of sepsis-induced immunosuppression pathophysiology is desirable for the development of novel therapeutic strategies to prevent and reduce the rates of secondary infections and their associated mortality. Here we demonstrate that PD-L1 + CD44 + B220 Low CD138 + IgM + regulatory plasma cells (PCs) are induced in a murine model of sepsis-induced immune alterations and in critically ill patients with bacterial sepsis and COVID-19. This was revealed both by detailed analysis of their phenotypical features and gene expression profile and by functional explorations comparing capacity of purified B cells and PCs to suppress T cell proliferation and IFNɣ secretion ex vivo . Sepsis-induced regulatory PCs exerted their suppressive function on T cells through IL-10 production and increased PD-L1 expression independently of regulatory T cells. Our findings thus reveal a novel pathophysiological mechanism of sepsis-induced immunosuppression that involves regulatory PCs. As such, these PCs constitute valid therapeutic targets to improve immune cell functions impaired by sepsis.

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