The impact of CD160 deficiency on alloreactive CD8 T cell responses and allograft rejection

Maria-Luisa Del Rio,Tuan H Nguyen,Laurent Tesson,Jean-Marie Heslan,Alfonso Gutierrez-Adan,Raul Fernandez-Gonzalez,Julia Gutierrez-Arroyo,Leo Buhler,José-Antonio Pérez-Simón,Ignacio Anegon,Jose-Ignacio Rodriguez-Barbosa

doi:10.1016/j.trsl.2021.08.006

Abstract

CD160 is a member of the immunoglobulin superfamily with a pattern of expression mainly restricted to cytotoxic cells. To assess the functional relevance of the HVEM/CD160 signaling pathway in allogeneic cytotoxic responses, exon 2 of the CD160 gene was targeted by CRISPR/Cas9 to generate CD160 deficient mice. Next, we evaluated the impact of CD160 deficiency in the course of an alloreactive response. To that aim, parental donor WT (wild-type) or CD160 KO (knock-out) T cells were adoptively transferred into non-irradiated semiallogeneic F1 recipients, in which donor alloreactive CD160 KO CD4 T cells and CD8 T cells clonally expanded less vigorously than in WT T cell counterparts. This differential proliferative response rate at the early phase of T cell expansion influenced the course of CD8 T cell differentiation and the composition of the effector T cell pool that led to a significant decreased of the memory precursor effector cells (MPECs) / short-lived effector cells (SLECs) ratio in CD160 KO CD8 T cells compared to WT CD8 T cells. Despite these differences in T cell proliferation and differentiation, allogeneic MHC class I mismatched (bm1) skin allograft survival in CD160 KO recipients was comparable to that of WT recipients. However, the administration of CTLA-4.Ig showed an enhanced survival trend of bm1 skin allografts in CD160 KO with respect to WT recipients. Finally, CD160 deficient NK cells were as proficient as CD160 WT NK cells in rejecting allogeneic cellular allografts or MHC class I deficient tumor cells. CD160 may represent a CD28 alternative costimulatory molecule for the modulation of allogeneic CD8 T cell responses either in combination with costimulation blockade or by direct targeting of alloreactive CD8 T cells that upregulate CD160 expression in response to alloantigen stimulation.

Highlights

T cell receptor (TCR) recognition of foreign peptide in the context of Major histocompatibility complex self-(MHC) represents the initial trigger of T cell activation that is subsequently modulated during T cell clonal expansion and differentiation toward effector T cells by the intervention of co-stimulatory and co-inhibitory signals
CD160 is a member of the immunoglobulin (Ig) superfamily that interacts with Herpesvirus entry mediator (HVEM)(TNFRSF14), a member of the tumor necrosis factor receptor (TNFR) superfamily.3À8 CD160 presents several protein isoforms that are the result of mRNA alternative splicing of the CD160 gene: 2 GPI-anchored isoforms with or without IgVlike domain devoid of the transmembrane domain and two transmembrane isoforms with or without IgV-like domain
We studied the influence of the T cell differentiation process in the pattern of HVEM, B-and T-lymphocyte attenuator (BTLA), and CD160 expression on alloreactive T cells and evaluated whether CD160 deficiency could modulate the level of expression of the partner molecules of the pathway

Summary

Introduction

T cell receptor (TCR) recognition of foreign peptide in the context of Major histocompatibility complex self-(MHC) represents the initial trigger of T cell activation that is subsequently modulated during T cell clonal expansion and differentiation toward effector T cells by the intervention of co-stimulatory (positive) and co-inhibitory (negative) signals. These co-signals, determine the outcome of the response.[1,2]. We demonstrated that CD160 functions as a CD28 alternative costimulatory molecule that modulates allogeneic CD8 T cell responses that could enhance costimulation blockade in transplantation

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