Maria-Luisa del Rio1, Carlos Fernandez-Renedo, Stefanie Scheu, Klaus Pfeffer, Yasushi Shintani, Mitchell Kronenberg, Olivier Chaloin, Pascal Schneider, Jose-Ignacio Rodriguez-Barbosa. 1. 1 Transplantation Immunobiology Section, Institute of Biomedicine, University of Leon and Castilla and Leon Regional Transplantation Coordination, Leon University Hospital, Leon, Spain. 2 Institute of Medical Microbiology and Hospital Hygiene, University of Duesseldorf, Universitaetsstr., Duesseldorf, Germany. 3 Takeda Pharmaceutical Company Limited, Fujisawa, Kanagawa, Japan. 4 Center for Infectious Disease, Autoimmune Research, La Jolla Institute for Allergy and Immunology, La Jolla, CA. 5 CNRS UPR 3572, IBMC, Immunopathologie et Chimie Thérapeutique, Strasbourg, France. 6 Department of Biochemistry, University of Lausanne, Epalinges, Switzerland. 7 Address correspondence to: Jose-Ignacio Rodríguez-Barbosa, D.V.M., Ph.D., Transplantation Immunobiology Section, Institute of Biomedicine, University of Leon, 24007 Leon, Spain; Maria-Luisa del Rio, D.V.M., Ph.D., Transplantation Immunobiology Section, Institute of Biomedicine, University of Leon and Castilla and Leon Regional Transplantation Coordination, Leon University Hospital, Leon, Spain.
Abstract
BACKGROUND: Tumor necrosis factor/tumor necrosis factor receptor superfamily members conform a group of molecular interaction pathways of essential relevance during the process of T-cell activation and differentiation toward effector cells and particularly for the maintenance phase of the immune response. Specific blockade of these interacting pathways, such as CD40-CD40L, contributes to modulate the deleterious outcome of allogeneic immune responses. We postulated that antagonizing the interaction of LIGHT expression on activated T cells with its receptors, herpesvirus entry mediator and lymphotoxin β receptor, may decrease T cell-mediated allogeneic responses. METHODS: A flow cytometry competition assay was designed to identify anti-LIGHT monoclonal antibodies capable to prevent the interaction of mouse LIGHT with its receptors expressed on transfected cells. An antibody with the desired specificity was evaluated in a short-term in vivo allogeneic cytotoxic assay and tested for its ability to detect endogenous mouse LIGHT. RESULTS: We provide evidence for the first time that in mice, as previously described in humans, LIGHT protein is rapidly and transiently expressed after T-cell activation, and this expression was stronger on CD8 T cells than on CD4 T cells. Two anti-LIGHT antibodies prevented interactions of mouse LIGHT with its two known receptors, herpesvirus entry mediator and lymphotoxin β receptor. In vivo administration of anti-LIGHT antibody (clone 10F12) ameliorated host antidonor short-term cytotoxic response in wild type B6 mice, although to a lesser extent than that observed in LIGHT-deficient mice. CONCLUSION: The therapeutic targeting of LIGHT may contribute to achieve a better control of cytotoxic responses refractory to current immunosuppressive drugs in transplantation.
BACKGROUND:Tumor necrosis factor/tumor necrosis factor receptor superfamily members conform a group of molecular interaction pathways of essential relevance during the process of T-cell activation and differentiation toward effector cells and particularly for the maintenance phase of the immune response. Specific blockade of these interacting pathways, such as CD40-CD40L, contributes to modulate the deleterious outcome of allogeneic immune responses. We postulated that antagonizing the interaction of LIGHT expression on activated T cells with its receptors, herpesvirus entry mediator and lymphotoxin β receptor, may decrease T cell-mediated allogeneic responses. METHODS: A flow cytometry competition assay was designed to identify anti-LIGHT monoclonal antibodies capable to prevent the interaction of mouse LIGHT with its receptors expressed on transfected cells. An antibody with the desired specificity was evaluated in a short-term in vivo allogeneic cytotoxic assay and tested for its ability to detect endogenous mouse LIGHT. RESULTS: We provide evidence for the first time that in mice, as previously described in humans, LIGHT protein is rapidly and transiently expressed after T-cell activation, and this expression was stronger on CD8 T cells than on CD4 T cells. Two anti-LIGHT antibodies prevented interactions of mouse LIGHT with its two known receptors, herpesvirus entry mediator and lymphotoxin β receptor. In vivo administration of anti-LIGHT antibody (clone 10F12) ameliorated host antidonor short-term cytotoxic response in wild type B6 mice, although to a lesser extent than that observed in LIGHT-deficientmice. CONCLUSION: The therapeutic targeting of LIGHT may contribute to achieve a better control of cytotoxic responses refractory to current immunosuppressive drugs in transplantation.
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