CD44 co-stimulates apoptosis in thymic lymphomas and T cell hybridomas.

Thymic lymphomas and hybridomas vary in their sensitivity to dexamethasone (DEX). Identical variance has been demonstrated in our laboratory for apoptosis of such cells by primary thymic epithelial cells or a cell line (TEC). We have also shown that apoptosis induced by TEC was partially mediated by TEC-derived glucocorticoids (GC). We studied the responses of various thymic lymphomas and hybridomas to TEC and DEX. Of these cells, PD1.6 and 2B4 were sensitive whereas B10 were relatively resistant to either inducer. In the present study we found that TEC and DEX synergize in inducing B10 cell apoptosis. B10 cells could also undergo apoptosis by TEC, conditional upon the presence of a TEC-sensitive cell (PD1.6 or 2B4). Contact between TEC and B10 was essential for apoptosis to occur. Thus, TEC may provide two signals, one mediated by GC and the other requiring cell to cell contact. We then analyzed the involvement of co-stimulatory or adhesion molecules in the TEC-induced apoptosis of thymic lymphoma cells. Soluble anti-CD44 antibodies but not anti-CD18, CD2 or CD28, inhibited TEC-induced apoptosis of PD1.6. Dimerization of CD44 by immobilized antibodies augmented DEX-induced apoptosis of all the lymphomas tested. CD44 cross-linkage up-regulated expression of the pro-apoptotic protein Bax, and down-regulated the anti-apoptotic protein, Bclx(L), in the presence of DEX. Taken together, the data suggest that CD44 enhances the apoptotic response of T lymphoma cells to DEX, and that CD44 modulates TEC-induced apoptosis of thymic lymphomas.

Apoptosis of thymic lymphoma clones by thymic epithelial cells: a putative model for 'death by neglect'.

We have previously described an in vitro system in which thymic epithelial cells induce apoptosis in CD4+ 8+ thymocytes or thymic lymphoma cells, in the absence of an exogenous antigen. A thymic epithelial cell line (TEC) recapitulated the response, by inducing apoptosis in CD4+ 8+ thymocytes of the thymic lymphoma clone, PD1.6. The present study pursues the involvement of the T-cell receptor (TcR) in the response of PD1.6 to TEC. TcR cross-linking did not cause apoptosis of PD1.6, although it induced tyrosine phosphorylation of p95vav. In contrast, TEC did not induce phosphorylation of p95vav but induced apoptosis of PD1.6 cells. These results suggest that TcR-evoked signals are not involved in TEC-induced apoptosis of PD1.6. Intracellular calcium chelation, using BAPTA-loaded PD1.6 cells, diminished TEC-induced apoptosis. Protein kinase C depletion in PD1.6 cells augmented their apoptotic response to TEC. Thus, the response of PD1.6 to TEC is calcium-dependent and inhibited by PKC. Likewise, the apoptotic response of PD1.6 to A23187 was abrogated by PKC activation. PD1.6 cells may represent an immature double positive thymocyte population, which does not undergo negative selection. The interaction of PD1.6 with TEC may thus serve as a model for the TcR-independent 'Death by Neglect', which takes place in the thymus during thymocyte development.

T cell receptor-independent apoptosis of thymocyte clones induced by a thymic epithelial cell line is mediated by steroids.

We have studied the mechanisms involved in TcR-independent apoptosis of radiation leukemia virus (RadLV)-transformed thymocyte clones induced by a thymic epithelial cell line (TEC). TEC induced apoptosis of an immature CD4+8+3+ (PD1.6) but not of a CD4-8-3- (B10) thymocyte clone. TEC-derived conditioned medium did not mimic the signal induced by TEC in PD1.6 cells. However, the TEC-resistant clone B10 apoptosed in response to TEC, provided that PD1.6 cells were also present in the culture. This effect on bystander cells suggests that a secreted factor was involved. The involvement of glucocorticoid hormones as potential mediators was addressed. PD1.6 cells apoptosed in response to dexamethasone or a cell-permeating analog of cAMP, while BIO cells were relatively resistant to dexamethasone. TcR cross-linking inhibited both TEC- and dexamethasone- but not cAMP-induced apoptosis. Aminoglutethimide and Ru38486 inhibited TEC-induced apoptosis of PD1.6 cells, whereas Ru28318 had a negligible effect. The results suggest that steroid hormones are involved in TcR-independent apoptosis of immature double-positive thymocyte clones induced by TEC.