Background: Renal tubular epithelial cells (TECs) function as antigen-presenting cells (APCs) as they constitutively express MHC-II molecules and have the capacity to present peptide antigen to T cells. Nevertheless, co-stimulatory signals provided by TECs for regulating T cell activation have not been fully characterized. We therefore investigated the expression of B7-H1, a member of the B7 superfamily, on TECs under normal or pathologic conditions in vivo and analyzed the regulation and functional role of it after proinflammatory factors treatment in vitro.
Methods: Immunohistological staining for B7-H1 on cryostat sections of core needle biopsies from patients with different renal diseases was examined. Furthermore, we also detected B7-H1 protein expression on cultured human TECs stimulated by various inflammatory factors and performed TEC/T-cell co-cultured experiment to determine TEC-associated B7-H1 in regulating CD4+ T cell activation as well as antigen presentation.
Results: Significant B7-H1 protein was detected in TECs of diseased renal samples. Although the presence of B7-H1 does not have any correlation with clinicopathological variables, marked B7-H1 expression on sections without interstitial inflammation revealed that B7-H1 has some protective function. In vitro, the expression of B7-H1 on TECs was increased after TECs were stimulated with IL-1alpha, LPS, TNF-alpha, IFN-gamma or anti-CD40. Co-cultured experiments revealed that TEC-related B7-H1 was identified as a strong inhibitor of CD4+ T-cell activation as assessed by increased cytokine production (interleukin-2 and interferon-gamma) and expression levels of the T cell activation marker (CD69) in the presence of a neutralizing antibody against B7-H1 (clone MIH1). Interestingly, IL-2 production by C10 T cells after antigen presentation by murine TECs was also enhanced when the B7-H1/PD-1 pathway was interrupted.
Conclusion: This study clearly shows that B7-H1 is an inducible renal tubular epithelial antigen that inhibits T cell activation. It is speculated that B7-H1/PD-1 pathway might play a role in protecting tubular epithelium from immune-mediated damage and active delivery of the B7-H1 inhibitory signal represents a novel therapeutic strategy in autoimmune renal diseases.
2006 S. Karger AG, Basel.