A non-class I MHC intestinal epithelial surface glycoprotein, gp180, binds to CD8.

The activation of CD8(+) T cells by normal intestinal epithelial cells in antigen-specific or allogeneic mixed cell culture systems has significant implications for the modulation of mucosal immune responses due to the fact that these T cells appear to have regulatory rather than cytolytic activity. A 180-kDa glycoprotein (gp180) has been identified and shown to be important in CD8(+) T cell activation by intestinal epithelial cells. In this study, we examine, in further detail, the role that the CD8 molecule plays in this interaction. It has been previously shown that monoclonal antibodies against gp180 inhibited the activation of CD8-associated p56(lck) in T cells. Although indirectly suggested by these data, there was no evidence that the activation of this protein tyrosine kinase was a direct result of gp180 interacting with the CD8 molecule. In this study, we document that soluble gp180 is able to bind to CD8-Fc fusion proteins and is absorbed by human CD8 alpha but not CD4 transfected murine T cells and that this interaction is dependent upon carbohydrate on the gp180 molecule. Furthermore, the sites used for binding by gp180 are distinct from those used by the conventional CD8 ligand, class I MHC. Thus, gp180 appears to be a novel CD8 ligand that plays an important role in the activation of CD8-associated kinases and of CD8(+) T cells.

Defective expression of gp180, a novel CD8 ligand on intestinal epithelial cells, in inflammatory bowel disease.

Previous studies support a role for intestinal epithelial cells (IEC) as antigen-presenting cells in mucosal immune responses. T cells activated by IEC are CD8+, suppressor in function, and dependent upon CD8-associated p56lck activation. A 180-kD glycoprotein (gp180) recognized by mAbs B9 and L12 has been identified and shown to be important in CD8+ T cell activation by IEC. Since IEC derived from patients with inflammatory bowel disease (IBD) are incapable of activating CD8+ T cells, we asked whether this correlated with gp180 expression. While frozen sections of normal bowel revealed bright gp180 staining on all IEC, both inflamed and uninflamed ulcerative colitis (UC) specimens showed patchy staining. In Crohn's disease (CD), staining was faint to absent. Flow cytometry confirmed immunohistochemical data. The staining patterns correlated with the ability of IEC to activate CD8-associated p56lck. Normal IEC induced phosphorylation of p56lck in CD8alpha but not CD4+ transfectants. In contrast, both UC and CD IEC activated CD4 and, to a much lesser extent, CD8-associated p56lck. Thus, gp180 expression by IBD IEC appears to be altered, and correlates with a functional alteration of lck activation. This defect may reflect a more proximal event in the pathogenesis of IBD.

Basic and clinical overview of the mucosal immune system.

What is clearly evolving today is the concept of mucosal immunity as a discrete system that performs novel immunologic tasks and is uniquely regulated. Although many of the same factors exist in both the systemic and the mucosal immune systems, their structural and functional properties are tailored to different microenvironments. Because it is persistently flooded by a massive antigen load from the environment, the gut-associated lymphoid tissue must continually maintain a delicate balance between active immunity, tolerance, and suppression of immune responses. Homeostasis is essential. Dysfunction of the mucosa's complex immunoregulatory mechanisms may give rise to a diverse panoply of illnesses, including inflammatory bowel disease and celiac sprue. Current research on mucosal interactions at the molecular and cellular level is revolutionizing our understanding of the underlying pathophysiology of these diseases, and may guide their future diagnosis, therapy, and prevention. Indeed, the current wave of investigation has carried the field beyond the realm of mucosal disease, allowing for the harnessing of special mucosal phenomena in the development of new therapeutic modalities and in the treatment of an even wider array of systemic disorders.