Soluble CTLA-4 can suppress autoantibody production and elicit long term unresponsiveness in a novel transgenic model

Activation of Ag-specific T cells often requires costimulatory signals in addition to the primary signal mediated through the TCR. The CD28-B7 interaction provides one important costimulatory signal. Previous studies have shown that a soluble CD28 homologue, CTLA4lg, binds B7 with high affinity and...

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Veröffentlicht in:	The Journal of immunology (1950) 1994-07, Vol.153 (1), p.429-435
Hauptverfasser:	Milich, DR, Linsley, PS, Hughes, JL, Jones, JE
Format:	Artikel
Sprache:	eng
Schlagworte:	Abatacept Animals Antigens, CD Antigens, Differentiation - chemistry Antigens, Differentiation - pharmacology Autoantibodies - biosynthesis B7-1 Antigen - immunology CD28 Antigens - immunology CTLA-4 Antigen Female Hepatitis B e Antigens - immunology Immune Tolerance Immunization, Passive Immunoconjugates Immunosuppression Immunosuppressive Agents Male Mice Mice, Transgenic Recombinant Fusion Proteins Solubility Time Factors
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container_end_page	435
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container_title	The Journal of immunology (1950)
container_volume	153
creator	Milich, DR Linsley, PS Hughes, JL Jones, JE
description	Activation of Ag-specific T cells often requires costimulatory signals in addition to the primary signal mediated through the TCR. The CD28-B7 interaction provides one important costimulatory signal. Previous studies have shown that a soluble CD28 homologue, CTLA4lg, binds B7 with high affinity and can inhibit CD28-B7-mediated costimulation in vitro and in vivo. In this study we examined the ability of soluble human CTLA4lg to inhibit autoantibody production in vivo. For this purpose we used a novel transgenic (Tg) model of autoantibody production. Hepatitis B eAg-expressing Tg mice can be induced to produce autoantibody to the circulating autoantigen (HBeAg) by the injection of a T cell recognition site that fails to elicit T cell tolerance in these mice. Autoimmunity in this model is quantitative because serum autoantibody and autoantigen concentration are inversely correlated and easily measurable by ELISA. In this system a single regimen of CTLA4lg treatment significantly suppressed primary autoantibody production and variably led to long term unresponsiveness. Furthermore, in vivo treatment with CTLA4lg inhibited both T cell activation and T cell-B cell interactions.
doi_str_mv	10.4049/jimmunol.153.1.429
format	Article
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The CD28-B7 interaction provides one important costimulatory signal. Previous studies have shown that a soluble CD28 homologue, CTLA4lg, binds B7 with high affinity and can inhibit CD28-B7-mediated costimulation in vitro and in vivo. In this study we examined the ability of soluble human CTLA4lg to inhibit autoantibody production in vivo. For this purpose we used a novel transgenic (Tg) model of autoantibody production. Hepatitis B eAg-expressing Tg mice can be induced to produce autoantibody to the circulating autoantigen (HBeAg) by the injection of a T cell recognition site that fails to elicit T cell tolerance in these mice. Autoimmunity in this model is quantitative because serum autoantibody and autoantigen concentration are inversely correlated and easily measurable by ELISA. In this system a single regimen of CTLA4lg treatment significantly suppressed primary autoantibody production and variably led to long term unresponsiveness. 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subjects	Abatacept Animals Antigens, CD Antigens, Differentiation - chemistry Antigens, Differentiation - pharmacology Autoantibodies - biosynthesis B7-1 Antigen - immunology CD28 Antigens - immunology CTLA-4 Antigen Female Hepatitis B e Antigens - immunology Immune Tolerance Immunization, Passive Immunoconjugates Immunosuppression Immunosuppressive Agents Male Mice Mice, Transgenic Recombinant Fusion Proteins Solubility Time Factors
title	Soluble CTLA-4 can suppress autoantibody production and elicit long term unresponsiveness in a novel transgenic model
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