Linkage of protein kinase C-beta activation and intracellular interleukin-2 accumulation in human naive CD4 T cells

Biochemical and functional assessment of equine lymphocyte phosphodiesterases and protein kinase C

Lymphocytes play an important role in allergic inflammation and have been implicated in the pathogenesis of equine allergic skin and respiratory disease. Targeting intracellular signalling pathways in human lymphocytes has demonstrated a role for both phosphodiesterase and protein kinase C in cell activation. The aim of this study was to measure total cyclic nucleotide hydrolysing phosphodiesterase activity and to identify the phosphodiesterase and protein kinase C isoenzymes present in equine lymphocytes. The functional significance of these isoenzymes was then investigated by examining their role in peripheral blood mononuclear cell proliferation using isoenzyme selective inhibitors. Total cyclic adenosine monophosphate hydrolysing phosphodiesterase activity was double that of cyclic guanosine monophosphate (30+/-2 pmol/min mg versus 16+/-3 pmol/min mg for cyclic adenosine and cyclic guanosine monophosphate phosphodiesterase activity, respectively). Evidence for the presence of PDE1, 3, 4 and 5 was obtained and PKCalpha, beta, delta, eta, iota, theta and zeta were identified. Selective inhibitors of PDE4, PKCdelta and conventional PKCs alpha and beta caused significant inhibition of mitogen-induced peripheral blood mononuclear cell proliferation. This study demonstrates a functional role for specific signalling isoenzymes and suggests that, in the context of allergic inflammation, targeting inflammatory cells involved in disease pathogenesis with relevant isoenzyme inhibitors may have therapeutic potential.

Cyclosporin a promotes hair epithelial cell proliferation and modulates protein kinase C expression and translocation in hair epithelial cells

Cyclosporin A is an immunosuppressive agent known to cause hirsutism. The mechanisms of action that cause hirsutism have not been fully elucidated, however. We have previously reported that several selective protein kinase C inhibitors promote the growth of murine hair epithelial cells and stimulate anagen induction. In this paper, we report on an investigation of the mechanisms of action of hair-growing activity possessed by cyclosporin A from the viewpoint of whether it promotes hair epithelial cell growth or whether it modulates the expression or translocation of protein kinase C isozymes in hair epithelial cells. Our results indicate that cyclosporin A (over a wide dosage range of 1-1000 ng per ml) stimulates cultured murine hair epithelial cell growth to about 150%-160% relative to controls. We also observed growth-promoting effects on murine epidermal keratinocytes (about 140%) at the dose range of 1-100 ng per ml. At high dose ranges above 3 microg per ml, the growth of both cells was inhibited. On the other hand, we found that cyclosporin A reduces the overall expression of protein kinase C alpha, betaI, and betaII in cultured murine hair epithelial cells, and reduces the levels of protein kinase C alpha, betaI, betaII, and eta in the particulate fraction from cultured murine hair epithelial cells. From these results, we speculate that the hair-growing activity of cyclosporin A is at least partially attributable to its growth-promoting influence on hair epithelial cells sequential to its downregulation of some protein kinase C isozymes in hair epithelial cells or inhibition of translocation of some protein kinase C isozymes to the membrane or cytoskeleton of hair epithelial cells.

Cellular responses of NG108-15 and SK-N-MC lines to sweet and bitter tastants as measured by extracellular acidification rates

The Cytosensor microphysiometer device (Molecular Devices, Sunnyvale, CA) is capable of detecting small changes in cellular metabolism in response to specific bioactive ligands by measuring the extracellular acidification rate (ECAR). By measuring the ECAR we were able to detect responses of tissue culture cell lines to a variety of sweet- and bitter-tasting compounds. We examined in detail the responses of the NG108-15 (mouse neuroblastoma x rat glioma hybrid) and SK-N-MC (human neuroepithelioma) cell lines. We determined that NG108-15 cells were consistently very responsive to several potent sweeteners and bitter compounds, such as sodium saccharin, guanidino- sweeteners, denatonium benzoate, quinine, and ranitidine. These compounds could evoke changes in cellular metabolism (measured as ECAR) that were rapid in onset, saturable with respect to ligand concentration, and sensitive to several inhibitors of G-protein-coupled receptor signaling pathways. In sharp contrast, the neuroepithelioma SK-N-MC did not respond to any of the sweet or bitter compounds. Rapid changes in ECAR were easily detectable in both cell lines with the calcium ionophore A23187. Bradykinin elicited changes in the ECAR only in the NG108-15 cell line, which is known to express the B2 receptor. The changes in ECAR of the NG108-15 cell line in response to sweet and bitter taste compounds suggest these cells may expresses a receptor(s) specific for small sapid molecules.

Quantitative study of beta1-integrin expression and fibronectin interaction profile of T lymphocytes in vitro infected with HIV

Cell-extracellular matrix interactions, regulated in part by beta1-integrins, play a key role in the recirculation of T lymphocytes and tissue infiltration in inflammatory and immune responses. HIV infection may affect CD4+ T cell adhesion, and the trafficking and migration of these cells, which are crucial for foreign antigen recognition. We investigated this by studying the expression of the beta1-integrin chains CD29 and CD49c, -d, -e, and -f, on in vitro HIV-infected primary T cells. We also assessed fibronectin binding and production by CD4+ lymphocytes. X4 (HIV-1/LAI), R5 (HIV-1/Ba-L), and X4R5 (HIV-2/ROD) strains, and X4R5 primary isolates (HIV-1/DAS, HIV-1/THI), with different cytopathogenicity and replication kinetics, were used. Beta1-integrin expression on CD4+ and CD4- T cell subpopulations was regulated by cell activation with phytohemagglutinin-P and interleukin 2, but was unaffected by HIV infection, even at the peak of viral replication and CD4+ cell depletion. Similarly, fibronectin binding to CD4+ lymphocytes was not affected by HIV infection. This suggests that infected lymphocytes may be able to extravasate, migrate, and recirculate within the body until their death.

D-Glucose and insulin stimulate migration and tubular formation of human endothelial cells in vitro

Effects of high D-glucose and insulin on the endothelial cell migration and tubular formation were investigated with the use of ECV304 cells, a clonal human umbilical cord endothelial cell line. Exposure of the cells to high D-glucose resulted in a marked increase in the migration, which was blocked by inhibitors of protein kinase C such as H7 (10 microM) and GF109203X (200 nM). Furthermore, a protein kinase C agonist, phorbol 12-myristate 13-acetate, had an effect similar to that of glucose on ECV304 cells. Glucose stimulation of the migration was additively enhanced by 100 nM insulin, and the insulin effect was found to be unaffected by either PD-98059 or wortmannin, a mitogen-activated protein kinase (MAPK)/extracellular signal-regulated kinase inhibitor and a phosphatidylinositol 3-kinase inhibitor, respectively. Neither did H7 inhibit insulin stimulation of the migration. In contrast, a combination of high D-glucose and insulin, rather than either one alone, promoted tubular formation, which was inhibited by addition of 10 microM PD-98059. Stimulation of ECV304 cells by the combination of high D-glucose and insulin also caused an activation of MAPK, which was again obliterated by the same concentration of PD-98059. In conclusion, human endothelial cell migration and tubular formation are stimulated by high D-glucose and insulin in different ways. In the former reaction, either is effective, a combination of the two results in an additive effect, and activation of protein kinase C is involved. In contrast, tubular formation will only occur in the presence of a combination of high D-glucose and insulin, and MAPK plays an essential role.

Inhibition of protein kinase C alpha expression by antisense RNA in transfected Jurkat cells

Taking the antisense approach to inhibit the expression of specific protein kinase C (PKC) isoforms, we investigated the function of PKC alpha in T cell activation by transfecting Jurkat cells with an episomal vector (pREP3) containing a copy of the corresponding gene in the antisense orientation. Transfected Jurkat cells were selected with hygromycin and cloned by limiting dilution. Two (as1/as2) stably transfected antisense PKC alpha-pREP3 clones (as PKC alpha-pREP3) exhibited consistently reductions (76% and 85%, respectively) of PKC alpha levels when analyzed by immunoblotting and immunoprecipitation and also of PKC alpha mRNA (75%, as determined by Northern blotting) when compared to control clones (C1/C2) containing the pREP3 vector alone. The ability of the as-PKC alpha-pREP3 construct to specifically reduce PKC alpha levels in both clones was demonstrated by Western blots probed with antibodies against the PKC beta isozyme (the form structurally more similar to PKC alpha) and other representative isoenzymes expressed in Jurkat cells (PKC delta, epsilon, theta, and mu). Stimulation of transfected Jurkat clones with phorbol-12-myristate-13 alone or in the presence of ionomycin resulted in significant reduction of IL-2R alpha expression, TNF-alpha production, and the induction of transcriptional activity of a pIL-2/Luc construct in both as PKC alpha-reduced clones. The magnitude of these decrements paralleled the reductions of PKC alpha expression. The loss of the effects in clone as1 after a high number of passages correlated with the recovery of normal levels of PKC alpha protein, suggesting a link between these processes. Thus, the findings of this study demonstrate the essential role that PKC alpha plays in major events of the T lymphocyte activation process.

IL-7 promotes the survival and maturation but not differentiation of human post-thymic CD4+ T cells

This study examines the influence of IL-7 on post-thymic CD4+ T cells using cord blood as a model system. Survival of naive cord blood T cells in the presence of IL-7 alone was significantly prolonged by up-regulating bcl-2, thereby preventing apoptosis while maintaining maximal cell viability. Cultures without IL-7 showed high rates of apoptosis resulting in 50% cell death by day 5 of culture. Upon phorbol 12-myristate 13-acetate + ionomycin stimulation, accumulation of cytoplasmic IL-2 was similar to that observed in freshly isolated cells, but no IL-4- or IFN-gamma-positive cells were detected. IL-7 maintained the naive T cells in a quiescent state expressing the CD45RA antigen. A significant finding was the loss of CD38 antigen expression on the naive cord blood T cells to levels similar to that observed on adult naive T cells. In contrast to the reduced proliferative response of fresh cord blood T cells to anti-CD2 + CD28 stimulation, the proliferative response of IL-7-treated cells was similar to that of adult naive T cells. This study shows that as well as maintaining the naive T cell pool by enhancing cell survival and up-regulating bcl-2 expression, IL-7 also functions as a maturation factor for post-thymic naive T cells.