Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.13 (protein kinase C)
 49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The phenotypic alterations associated with T cells during measles virus infection have been demonstrated and an attempt has been made to show programmed cell death (PCD) of T cells activated in vivo. During the acute phase of illness, activated T cells increased rapidly. Memory T cells (CD45RO+), especially CD8+ memory T cells also tend to increase. During the recovery phase, CD8+ T cells declined rapidly, and naive (CD45RA+) T cells increased in numbers. The anti-CD3 monoclonal antibody-induced expression of interleukin-2 receptor (CD25) was suppressed. However, the addition of phorbol 12-myristate 13-acetate (PMA) caused the significant recovery of CD25 expression. In addition, PCD of activated T cells from measles patients was induced in culture. After triggering of the T cell receptor-CD3 complex, cells became more susceptible to PCD. Interestingly, the addition of PMA could inhibit PCD of activated T cells. Taken together, these data suggest unresponsiveness and activation-induced cell death of T cells during the primary response to measles virus antigens, depending on the activation status of protein kinase C.
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PMID:Immunological unresponsiveness and apoptotic cell death of T cells in measles virus infection. 764 78

Signals transduced by the T cell antigen receptor (TCR) regulate developmental transitions in the thymus and also mediate the immunologic activation of mature, peripheral T cells. In both cases TCR stimulation leads to the assembly of the NFAT transcription complex as a result of the calcium-dependent nuclear translocation of cytosolic subunits, NFATc, and the Ras/protein kinase C-dependent induction of a nuclear subunit, NFATn. To further understand the diverse roles of antigen receptor signaling throughout T cell development, we have identified a new NFATc family member, NFATc3, that is expressed at highest levels in the thymus. NFATc3 is the product of a gene on murine chromosome 8 that is not linked to the other NFATc genes. NFATc3, like other NFATc family members, contains a conserved rel similarity domain, and also defines a region conserved among NFATc family members, the SP repeat region, characterized by the repeated motif SPxxSPxxSPrxsxx (D/E)(D/E)swl. NFATc3 activates NFAT site-dependent transcription when overexpressed, yet exhibits a pattern of DNA site specificity distinct from other NFATc proteins. Additionally, thymic NFATc3 undergoes modifications in response to agents that mimic T cell receptor signaling, including a decrease in apparent molecular mass upon elevation of intracellular calcium that is inhibited by the immunosuppressant FK506. Given the preferential expression of NFATc3 in the thymus, NFATc family members may regulate distinct subsets of genes during T cell development.
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PMID:NFATc3, a lymphoid-specific NFATc family member that is calcium-regulated and exhibits distinct DNA binding specificity. 765 4

Prior studies have suggested that intracellular phosphorylation events and cellular redox mechanisms may interact in regulating a variety of cellular functions, including the transcriptional activation of gene expression. Increased activity of transcriptional factors NF kappa B and AP1 has been described in cells exposed to oxidative stress and following the direct stimulation of protein kinase C (PKC) by phorbol diesters. However, the mechanisms that may contribute to redox regulation of PKC are unknown. We studied the expression of PKC activity and several second messengers in human Jurkat T cells exposed to oxidative stress in the form of H2O2. Micromolar concentrations of H2O2 rapidly induced increased cytosolic PKC enzymatic activity in Jurkat T cells that was associated with a marked arrest of cellular proliferation. The increase in cytosolic PKC activity in cells treated with H2O2 was accompanied by elevations in intracellular free calcium ([Ca2+]i), generation of inositol phosphates, and release of arachidonic acid. Functional studies showed that H2O2 enhancement of cytosolic PKC activity required phospholipase C activity but was not primarily mediated by arachidonic acid. The response of PKC to oxidative stress displayed a lack of Ca2+ dependence and was uncoupled from the activity of protein tyrosine kinases (PTK). Furthermore, the reduced activation requirements of PKC from cells treated with H2O2 were associated with shifts in elution profiles of PKC enzymatic activity after Mono-Q chromatography. These shifts appeared to represent intrinsic changes in the conformation of PKC induced by oxidative stress because western blotting failed to reveal any PKC cleavage products or reductions in native PKC alpha or beta. These findings indicate that oxidative regulation of intracellular events can intersect phosphorylation events mediated by PKC through the release of second messengers as well as direct changes in PKC activation requirements. Moreover, redox regulation of PKC is distinct from T cell receptor signaling in that the activity of PKC is uncoupled from the regulatory influences of PTK.
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PMID:Regulation of protein kinase enzymatic activity in Jurkat T cells during oxidative stress uncoupled from protein tyrosine kinases: role of oxidative changes in protein kinase activation requirements and generation of second messengers. 770 13

We have examined the expression and responses to activation, of novel/atypical protein kinase C (PKC) isoforms epsilon, zeta, and delta in the T cell lymphoma cell line K-4. The effects of 1-h phorbol 12-myristate 13-acetate (PMA) and OKT3 activation of K-4 cells on PKC isoform distribution were examined. In addition, the effects of PMA-mediated down-regulation on the expression of PKC epsilon and zeta were determined using high concentrations of PMA over 24- and 48-h time periods in these cells. PKC zeta expression was not altered by incubation of K-4 cells with up to 200 ng/ml PMA over a 24- or 48-h period. PKC epsilon was down-regulated in a concentration-dependent manner by PMA after both 24- and 48-h of activation. Expression of PKC epsilon was not completely depressed, however, even at the highest concentration of the phorbol ester after 48-h incubation with PMA. The presence of PKC epsilon, zeta, and delta was confirmed by immunohistochemistry with distinct patterns of expression observed. PMA-induced PKC activation for a 1-h period resulted in a translocation of PKC delta from resting cytoplasmic/nuclear staining to a cytoplasmic aggregate. Following 1-h activation through the T cell receptor-associated complex CD3, PKC delta translocated from a peri-nuclear/cytoplasmic compartment to a putative cytoskeletal location in K-4 cells. This translocation was time dependent and redistributed to a cytoplasmic aggregate prior to the cytoskeleton. Similarly, following 1-h activation through the T cell receptor, PKC zeta redistributed directly to what is possibly a cytoskeletal cell compartment. The cytoplasmic distribution of PKC zeta was unaltered following activation with PMA over a 1-h time period. There was no apparent redistribution of PKC epsilon cytoplasmic staining pattern following a 1-h direct or indirect activation. These results underline the differences in individual PKC isoform distribution, and responses to different stimuli, thereby providing additional evidence for the use of discrete PKC isoform signaling pathways in T cells. Furthermore, this data underlines the differences in PMA-mediated PKC activation and activation through the T cell receptor.
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PMID:Regulation of non-classical protein kinase C isoenzymes in a human T cell line. 784 22

Engagement of the T cell receptor for antigen activates phospholipase C resulting in an increase in intracellular free calcium concentration ([Ca2+]i) and activation of protein kinase C (PKC). Increased [Ca2+]i activates Ca2+/calmodulin-dependent kinases including the multifunctional Ca2+/calmodulin-dependent protein kinase II (CaM-K II), as well as calcineurin, a type 2B protein phosphatase. Recent studies have identified calcineurin as a key enzyme for interleukin (IL)-2 and IL-4 promoter activation. However, the role of CaM-K II remains unknown. We have used mutants of these kinases and phosphatases (gamma B*CaM-K and delta CaM-AI, respectively) to explore their relative role in cytokine gene transcription and their interactions with PKC-dependent signaling systems. gamma B*CaM-K and delta CaM-AI, known to exhibit constitutive Ca(2+)-independent activity, were cotransfected (alone or in combination) in Jurkat T cells with a plasmid containing the intact IL-2 promoter driving the expression of the chloramphenicol acetyltransferase reporter gene. Cotransfection of gamma B*CaM-K with the IL-2 promoter construct downregulated its transcription in response to stimulation with ionomycin and phorbol myristate acetate (PMA). The inhibitory effect of CaM-K II on IL-2 promoter was associated with decreased transcription of its AP-1 and NF-AT transactivating pathways. Under the same conditions, delta CaM-AI superinduced IL-2 promoter activity (approximately twofold increase). When both mutants were used in combination, gamma B*CaM-K inhibited the induction of the IL-2 promoter by delta CaM-AI. Similar results were obtained when a construct containing the IL-4 promoter also was used. gamma B*CaM-K also downregulated the activation of AP-1 in response to transfection with a constitutively active mutant of PKC or stimulation with PMA. These results suggest that CaM-K II may exert negative influences on cytokine gene transcription in human T cells, and provide preliminary evidence for negative cross-talk with the calcineurin- and PKC-dependent signaling systems.
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PMID:Calcium/calmodulin-dependent protein kinase II downregulates both calcineurin and protein kinase C-mediated pathways for cytokine gene transcription in human T cells. 786 38

Expression of the recombination activating genes, RAG-1 and RAG-2, in lymphocytes, has been shown to depend on second messenger systems. An increase in intracellular cAMP upon stimulation with caffeine increases RAG expression while activation of protein kinase C (PKC) with phorbol myristate acetate (PMA) results in decreased RAG expression. The stringent regulation of recombination appears to be partially dependent on protein kinase activities which, alone, are not likely to be sufficient to regulate recombinase activity. We provide evidence implicating a role for serine/threonine phosphatases in the signal transduction pathway which regulates RAG gene expression and consequently the recombination process in lymphocytes. The cell permeable tumor promoter, calyculin-A (CLA), which is a potent inhibitor of the type 1 and 2A serine/threonine protein phosphatases (PP1 and PP2A, respectively), was shown to upregulate the expression of RAG-1 and RAG-2 in pre-B as well as mature B- and T-lymphocyte cell lines. Although agents such as caffeine known to increase intracellular cAMP levels induce RAG expression, synergy between CLA and caffeine was not detected in pre-B cells. An in vivo assessment of recombination activity after transfection of pre-B cells with an extrachromosomal recombination vector revealed a moderate increase in recombinase activity which paralleled RAG expression after CLA stimulation. Although increased cAMP levels in pre-B cells has been associated with upregulation of RAG expression we found no such upregulation in a surface immunoglobulin M positive (sIgM+) cell line, WEHI-231, and a T cell receptor positive (TCR+) murine cell line, EL-4. Moreover, in these mature lymphocyte cell lines there was no evidence of synergy in the regulation of RAG-1 and RAG-2 mRNA upon stimulation with CLA and caffeine. These results suggest novel intracellular mechanisms for the upregulation of RAG gene expression and confirm a role for type 1 and 2A phosphatases in the control of RAG gene expression and recombinase activity in lymphocyte cell lines.
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PMID:RAG-1 and RAG-2 gene expression and V(D)J recombinase activity are enhanced by protein phosphatase 1 and 2A inhibition in lymphocyte cell lines. 789 93

Staphylococcus enterotoxins and toxic shock syndrome toxin-1 (TSST-1) are members of the family of staphylococcal exoproteins (SE) which binds specifically to HLA class II molecules and certain V beta T cell receptor phenotypes. These bacterial products have been termed "superantigens" due to their capacity to stimulate a greater proportion of T lymphocytes than peptide antigens without a requirement for antigen processing. The SE stimulate monocytes to secrete IL-1 and TNF-alpha and affect B lymphocyte proliferation in response to anti-human IgM and Ig production by PBMC. The current study concerns the transmission of signals in human B lymphocytes following fixation of TSST-1. Activation of both PLC and PKC are observed while intracellular calcium levels remain unchanged. Levels of HLA class II mRNA were increased suggesting that a pathway leading to activation was triggered. This study therefore identifies some of the second messengers involved after SE fixation on HLA class II molecules and suggests that the signals transmitted via class II antigens as well as those via the TCR may have a role in the physiological responses to bacterial superantigens.
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PMID:Bacterial superantigen signaling via HLA class II on human B lymphocytes. 802 2

Surface expression of the CD4 glycoprotein molecule is postulated to facilitate antigen recognition through the T cell receptor (TCR) and is itself a receptor for human immunodeficiency virus (HIV)-gp120 glycoprotein. Both antigen-stimulated TCR activation and HIV infectivity can be blocked by whole anti-CD4 antibodies. Although selective modulation of CD4 from the surface by gangliosides (GM1) blocks HIV infectivity, it enhances associated TCR function. Enhanced TCR function has also been observed after intracellular delivery of synthetic CD4 mRNA-antisense oligodeoxynucleotides (ODN) that block de novo synthesis of CD4. These specific CD4 modulations were mechanistically different from one another yet they both selectively removed the CD4 molecule from the T cell surface and enhanced antigen-stimulated function through the TCR. The proposed role of CD4 during TCR function and HIV infectivity was developed, in part, according to decreases following CD4 antagonism by whole antibody or down-modulation of CD4 by phorbol-stimulated protein kinase C activity. Selective CD4 modulations have independently redefined the specific contributions of CD4 surface expression during T cell activation and may establish a role for CD4 receptor subtypes during HIV-1 infection of CD4+ cells.
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PMID:Understanding the CD4 molecule: surface expression and function. 805 86

We have analyzed the inducibility of protein kinase C (PKC)-dependent expression of CD 69 molecules in T cell receptor (TCR) transgenic thymocytes developing in the presence or absence of selecting, class I major histocompatibility complex (MHC) molecules. Small CD4+8+ thymocytes developing in the absence of selecting MHC molecules could not be induced to express CD 69 by TCR cross-linking even after spontaneous in vitro up-regulation of their TCR level which resulted in enhanced Ca++ flux. In contrast, a small proportion of CD4+8+TCRlow and most TCRhigh (CD4+8+ and CD4-8+) thymocytes developing in the presence of selecting MHC ligands could be induced to express CD 69 upon TCR cross-linking. Unlike the anti-TCR antibody, phorbol 12-myristate 13-acetate--a direct activator of PKC--induced the expression of CD 69 on all thymocytes. These results suggest that positive selection of CD4+8+ thymocytes results on coupling of TCR-mediated signals to the CD 69 expression pathway. In vitro analysis of thymocytes before and after positive selection suggests that (1) positive selection does not immediately result in resistance to deletion and (2) that sustained TCR ligation is needed to promote maturation of positively selected CD4+8+ thymocytes resulting in gradual loss of the sensitivity to deletion and acquisition of the ability to proliferate in response to TCR-mediated signals.
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PMID:CD69 expression during selection and maturation of CD4+8+ thymocytes. 809 60

A number of T cell surface antigens including CD45R0, CD58, CD11 alpha, CD29, CD44, and CD26 are present on differentiated T cells and identify T cell populations that respond to recall antigens. To further study the biochemical basis for this immune memory, we used an anti-CD26 mAb to identify the memory T cell population. We have previously shown that CD26+ T cells display an increased proliferative response to anti-CD3 and anti-CD2 mAbs and furthermore have significantly greater PMA-induced phosphorylation of the invariant gamma and delta chains of the T cell receptor (TCR)/CD3 complex when compared to CD26-T cells. This suggested that differential distribution of protein kinase C (pkC) in the CD26 subsets may be related to the reduced activation requirements observed in memory T cells upon recall antigen challenge. We now directly demonstrate that when peripheral blood T cells are sorted into CD26+ and CD26- T cells the majority of pkC activity can be recovered from the cytosol fraction of the memory (CD26+) T cell population. When activated through the TCR/CD3 pathway, the CD2 pathway, or directly by the phorbol ester, PMA, the memory (CD26+) T cells showed an increased proliferative response that was inhibited by the pkC inhibitor, staurosporine. When CD26+ T cells were cultured in the presence of PMA, which depletes pkC activity, CD26 antigen expression was down-regulated. PMA was also able to inhibit phytohemagglutinin (PHA)-induced expression of the CD26 antigen in CD26- T cells. These data demonstrate a relation between CD26 expression and pkC activity and suggest that enhanced pkC activity is associated with memory T cell function.
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PMID:Increased protein kinase C activity in human memory T cells. 809 49


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