Fibroblasts Prevent Apoptosis of IL-2-deprived T Cells Without Inducing Proliferation: a Selective Effect on Bcl-XL Expression

Overview

Journal Immunology

Specialty Allergy & Immunology

Date 1996 Nov 1

PMID 8958053

Citations 11

Authors

W Gombert

N J Borthwick

D L Wallace

H HYDE

M Bofill

D Pilling

P C Beverley

G Janossy

M Salmon

A N Akbar

Affiliations

Soon will be listed here.

Abstract

The apoptosis of human cytokine-deprived activated T cells can be prevented by a soluble mediator secreted by fibroblasts, epithelial and endothelial cells, and this rescue occurs with fibroblasts from different species. Fractionation of W138 fibroblast-conditioned medium indicated that the survival-promoting agent(s) were > 30,000 MW. The continuous presence of the survival factor was required for prevention of apoptosis, which did not involve the induction of proliferation. Nevertheless, the co-cultured T cells remained in a primed state. The expression of the apoptosis-inducing proteins Bax and CD95 (Fas/Apo-1) was either unchanged or slightly increased in fibroblast-rescued T cells, suggesting that constraints on survival still existed after co-culture. A fundamental observation in the present study was that although Bcl-2 was reduced, the levels of Bcl-XL was maintained in cytokine-deprived T cells by fibroblast co-culture. This suggests that fibroblasts and/or other stromal cells may promote activated T-cell survival by a selective effect on Bcl-XL expression, which is consistent with histological examination of activated T cells within lymphoid tissue in vivo. The rescued T cell could be re-activated by CD3 antibody, but only in the presence of CD28 co-stimulation, which induced both Bcl-2 and Bcl-XL expression and also proliferation. Thus, survival signals from stromal cells in tissue microenvironments may enable activated T-cell persistence in a primed but quiescent state, and our data suggest that the regulation of Bcl-XL expression may be central in this process. The further characterization of this process is essential to clarify how signals from stromal cells can influence the resolution and/or chronicity of immune responses in different tissues in vivo.

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