NF-kappaB functions as both a proapoptotic and antiapoptotic regulatory factor within a single cell type.

Recently NF-kappaB has been shown to have both proapoptotic and antiapoptotic functions. In T cell hybridomas, both T cell activators and glucocorticoids induce apoptosis. Here we show that blockade of NF-kappaB activity, using a dominant negative IkappaBalpha, has opposite effects on these two apoptotic signals. Treatment with PMA plus ionomycin (P/I) results in the upregulation of Fas Ligand (FasL) and induction of apoptosis. Inhibition of NF-kappaB activity inhibits the P/I mediated induction of FasL mRNA and decreases the level of apoptosis in these cultures, thus establishing NF-kappaB as a proapoptotic factor in this context. Conversely, inhibition of NF-kappaB confers a tenfold increase in glucocorticoid mediated apoptosis, establishing that NF-kappaB also functions as an antiapoptotic factor. We conclude that NF-kappaB is a context-dependent apoptosis regulator. Our data suggests that NF-kappaB may function as an antiapoptotic factor in thymocytes while functioning as a proapoptotic factor in mature peripheral T cells.

Fas-mediated apoptosis in seven human prostate cancer cell lines: correlation with tumor stage.

BACKGROUND: Apoptosis, or programmed cell death, can be mediated through an endogenous signaling pathway that emanates from a cell surface receptor known as Fas. Although best recognized for its role in the immune system, recent studies have also suggested a role for Fas in mediating apoptosis in the murine prostate. Little is known, however, regarding the role of Fas-signaling in the human prostate, and if this signaling pathway is abrogated in the development of prostate cancer (PC). METHODS: In the current study, seven human PC cell lines were evaluated for their sensitivities to Fas-mediated apoptosis, using both morphologic and flow cytometric methods. Fas expression by each cell line was quantitated by immunofluorescence, and gene expression of three putative inhibitory molecules was analyzed. RESULTS: The differential sensitivities of the cell lines to Fas-mediated apoptosis were found to correlate with the clinical stage of the parental tumors. Specifically, the three most sensitive cell lines were all derived from primary tumors, while the four most resistant cell lines were derived from distant metastases. Immunofluorescent analyses of the PC cell lines revealed that the observed resistance to apoptosis was not due to reduced expression of membrane-bound Fas. Likewise, this resistance did not correlate with increased gene expression of the inhibitory molecules FAP-1, ICE epsilon, and Ich-1S. CONCLUSIONS: Our results using established PC cell lines support previous studies with prostatic tissue specimens, and suggest that the normal, differentiated prostatic epithelium, as well as locally invasive PCs, have the potential to undergo Fas-mediated apoptosis. Conversely, these studies suggest that metastatic PCs have a reduced apoptotic potential that is mediated by a novel mechanism.

Co-ligation of mouse complement receptors 1 and 2 with surface IgM rescues splenic B cells and WEHI-231 cells from anti-surface IgM-induced apoptosis.

Recent studies have shown that complement receptors play important roles in both T-dependent and T-independent B lymphocyte responses to low doses of antigen (Ag) in vivo. Complement activation by either the classical or alternative pathway results in the covalent binding of C3 molecules to Ag in forms that ligate complement receptors type 1 (CR1) and 2 (CR2). We hypothesized that C3-bound Ag might cross-link CR2 and/or CR1 with surface (s)IgM and alter the signal that would be transduced through sIgM by Ag binding alone. One result of the altered signal could be the rescue of B lymphocytes from apoptosis that would otherwise be induced by the binding of certain types of Ag alone. We find that co-cross-linking of mouse CR2 and CR1 with sIgM rescues both resting B cells and WEHI-231.7 cells from apoptosis induced by sIgM ligation in a fashion similar to that found using soluble mouse CD40 ligand (mCD40L). Anti-CR2/CR1-mediated rescue requires co-cross-linking of the receptors with sIgM, and has an additive effect on mCD40L-mediated apoptosis rescue. Based on these results, it is likely that the CR2/CR1-derived signal is cooperative with T cell-derived signals such as CD40L and interleukin-4.