Protein kinase C regulates secretion of lymphotoxin (LT/TNF beta) and TNF alpha by human EBV-transformed B cells

Epstein-Barr virus (EBV)-transformed cell lines constitutively secrete lymphotoxin (LT/TNF beta) and not tumor necrosis factor-alpha (TNF alpha). To analyze the cellular processes that regulate LT and TNF alpha secretion by lymphoblastoid cell lines, we studied the role of two signal transduction pathways leading to either protein kinase C (PK-C) or PK-A activation. We demonstrate that PK-C activation, either after cross-linking of surface Ig or by direct activation with phorbolester, leads to increased production of both LT and TNF alpha, whereas no prominent role for PK-A was found. Interleukin (Il)-4 was found to synergize with PK-C activation in raising levels of secreted LT and TNF alpha. Increased levels of LT and TNF alpha did not correlate with augmented levels of immunoglobulin secreted by the cell lines nor with improved proliferation. These observations demonstrate that EBV B cells respond to B cell activation signals leading to PK-C activation with increased production of both LT and TNF alpha. It is, however, unlikely that these molecules serve as autostimulatory factors for EBV B cells, but in contrast might play a role in downregulation of biological functions in these cell

CD4 to CD8 ratio and in vitro lymphoproliferative responses during experimental gingivitis in pregnancy and post-partum

The absolute numbers and percentages of peripheral T, B, and NK cells were assessed in 7 women, both during the second trimester of pregnancy and 6 months post-partum. Furthermore, the in vitro responses of peripheral blood lymphocytes (PBL) to several mitogens and a preparation of Prevotella intermedia were compared in a period of experimentally-induced gingivitis during pregnancy and post-partum. Clinically, the periodontal pocket bleeding index (PPBI) was found to be higher during pregnancy than post-partum. The absolute numbers of CD3, CD4, and CD19 positive cells appeared to be decreased during pregnancy as compared to post-partum. However, the results did not indicate any evidence for a reduced in vitro PBL response to several mitogens and a preparation of P. intermedia during pregnanc

Stimulation of lymphocytes in vitro by Bacteroides intermedius and Bacteroides (Porphyromonas) gingivalis sonicates

The present study was designed to assess whether the in vitro stimulation of lymphocytes by sonicates of Bacteroides intermedius and Bacteroides (Porphyromonas) gingivalis is antigen specific or non-specific. In addition, the role of T and B lymphocytes in these responses was assessed. Peripheral blood lymphocytes obtained from healthy volunteers were cultured in the presence of these bacterial preparations and the proliferative response was measured. In similar experiments the response of umbilical cord blood lymphocytes did not exceed background values. In limiting dilution experiments only 1:4000, 1:6800, and 1:8200 of the lymphocytes initially reacted to B. intermedius, which strongly argues for the antigen-specificity of the response. Purified T cells, in the presence of monocytes, proliferated when stimulated with B. intermedius and B. gingivalis. As for B cell stimulation, the bacterial extracts were capable of inducing IgM production, which appeared to be T cell dependent. These findings support the notion that B. intermedius and B. gingivalis induce specific T cell activation; secondarily, a T cell dependent, polyclonal B cell activation may occu

Analysis of the role of leukocyte function-associated antigen-1 in activation of human influenza virus-specific T cell clones

The role of leukocyte function-associated Ag-1 (LFA-1) in intercellular adhesion is well documented. Previously, we demonstrated that the LFA-1 molecule (CD11a/CD18) can also regulate the induction of proliferation of peripheral blood T cells. In these studies, we observed opposite effects of antibodies against CD11a (LFA-1-alpha-chain) or CD18 (LFA-1-beta-chain). Here, we determined the effects of anti-CD11a and anti-CD18 mAb on proliferation of cloned influenza virus-specific T cells. Anti-CD18 mAb had similar inhibiting effects on the proliferative response of T cell clones induced by immobilized anti-CD3 mAb as it had on the response of peripheral blood T cells. In contrast to its costimulatory effect on resting peripheral blood T cells, anti-CD11a mAb did not increase the proliferation of cloned T cells. Similar differences in effects of anti-CD11a and anti-CD18 mAb were observed when proliferation of the T cell clones was induced by immobilized anti-TCR mAb. When proliferation was induced by influenza virus presented by monocytes as APC, both anti-CD11a and anti-CD18 mAb inhibited T cell proliferation. However, when EBV-transformed B cells were used as APC, neither anti-CD11a nor anti-CD18 mAb inhibited proliferation. These results demonstrate that the effects of antibodies against CD11a (LFA-1-alpha) or CD18 (LFA-1-beta) on T cell proliferation depend on 1) the stage of activation of the T cells, 2) the activation stimulus and its requirement for intercellular adhesion involving LFA-1, and 3) the type of cell used to present A