Programmed cell death (PCD), or apoptosis, is characterized by several morphologic alterations and eventual cleavage of nuclear DNA into oligonucleo-some-length fragments. We defined a human B cell line, Ramos, that responds with PCD following ligation of surface IgM. Of the DNA in Ramos cells 3%-10% was fragmented as early as 4 h after IgM ligation. Propidium iodide staining demonstrated that 20%-40% of Ramos cells became apoptotic by 18 h and further established that cells transiting into the S phase of the cell cycle were susceptible to PCD. Addition of several agents to the Ramos cells abrogated anti-IgM-induced PCD, including the phorbol 12-myristate 13-acetate (PMA). In contrast to the effect of PMA, the 4 alpha PMA isomer of PMA neither activated protein kinase C (PKC) nor rescued the cells from anti-IgM-induced PCD, confirming a role for PKC in negating apoptosis. To explore the effect of physiologic signals on anti-IgM-induced PCD, antibodies against the CD20 or CD40 molecules were added in concert with anti-IgM. Both CD20 and CD40 synergize with anti-IgM to augment proliferation but neither molecule activates PKC in Ramos cells. Both anti-CD20 and anti-CD40 reduced the number of cells undergoing anti-IgM-induced PCD. Unlike the effect of anti-CD40, addition of anti-CD20 to anti-IgM-stimulated cells negated PCD only in a subset of cells. Maximal rescue occurred following the addition of anti-CD40 and occurred by 4 h and at least up to 20 h of culture. These data show that (a) PCD can be initiated in B cells entering the S phase of the cell cycle, (b) PCD can be triggered by engagement of surface IgM in the absence of ancillary signals or PKC activation, and (c) rescue from PCD can occur by several mechanisms, either PKC dependent or PKC independent.
Papio hamadryas baboons in the Sukhumi colony develop enzootic outbreaks of malignant lymphomas with an incidence of about 1.5% per year among adults of the high-risk stock. We investigated the surface phenotypes of cells from normal and lymphomatous animals using antibodies against human lymphocyte antigens. We found that more than 80% of the lymphomas that developed during the last 3 years were characterized histologically to be of the peripheral T cell type. Generally, the lymphomatous cells also expressed high levels of MHC class II DR protein, CD18 (LFA-1 beta chain), and CD45RO. Surprisingly, these cells also expressed on their surface two proteins previously characterized as being relatively B cell-restricted: CD40 and Bgp95. These proteins were never found on the peripheral blood T cells from normal animals. The expression of these two gene products was confirmed by RNA blotting and immunoprecipitation. In most cases, the two B cell-associated proteins were expressed on the predominant T cell subsets; we found both B cell proteins on CD4+, CD8+ as well as on the CD4/8 double-positive cells when these subsets were expressed at high levels. About 90% of these animals are seropositive for Herpesvirus papio and human T cell leukemia virus-1 (HTLV-1) before developing outright lymphomas. In all of the lymphoma samples, HTLV-1 tax DNA sequences were detected by PCR amplification. Whether or not HTLV-1 or the Herpesvirus papio gene products influence the surface expression of CD40 and Bgp95 remains to be determined.
Hairy cell leukemia is an uncommon B cell lymphoproliferative disease of unknown etiology. We previously observed that CD20, a membrane protein involved in B cell activation, is hyperphosphorylated on hairy cells and that these cells have unusually high levels of intracellular free Ca2+. Therefore, we used a hairy cell line, HCLL-7876, to study the potential involvement of Ca(2+)-activated protein kinases in CD20 phosphorylation. Addition of the Ca2+ ionophore, ionomycin, increased CD20 phosphorylation both in activated B cells and in cells from the hairy cell line; addition of EGTA to either cell type decreased basal levels of CD20 phosphorylation. Ionomycin treatment of these cells resulted in increased kinase activity of cytosolic extracts toward syntide-2, a synthetic peptide substrate for calcium/calmodulin-dependent kinase II (CaM-KII), with kinetics similar to those of CD20 phosphorylation in the cell line. CD20 isolated from the cell line was a substrate for purified CaM-KII in vitro. Phosphopeptide maps of CD20 from untreated hairy cells or ionomycin-treated HCLL-7876 cells were similar to maps of CD20 that had been phosphorylated in vitro by CaM-KII. These results suggest that the unusually high levels of intracytoplasmic Ca2+ in hairy cells may enhance the phosphorylation of key surface proteins.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.