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

We have studied the activation of interleukin 1 (IL 1)-dependent and IL 1-independent T cell lines, specifically their capacity to produce and secrete interleukin 2 (IL 2). The IL 1-dependent T cell lymphoma LBRM33-1A5.47, which requires phytohemagglutinin (PHA) and IL 1 to produce IL 2, was compared with the IL 1-independent T cell lymphoma LBRM33-5A4 and T cell hybridomas DO-11.10/S4.4 and 3DO-54.8. The latter hybridomas do not require exogenous IL 1 to produce IL 2 in response to mitogens or ovalbumin (OVA)/I-Ad. Even though IL 1 is not required by these IL 1-independent T cell lines, we tested whether IL 1 could modulate their response but found no significant effect of exogenous IL 1. We then studied the activation of these T cell lines by the calcium ionophore A23187 and phorbol myristate acetate (PMA). In the case of the IL 1-dependent line LBRM33-1A5.47, there was a strong response when both A23187 and PMA were used simultaneously. We subsequently found that A23187 can replace PHA, and PMA can replace IL 1 in the activation of this cell line to IL 2 production. These observations suggest that the signal(s) provided by PHA and IL 1 involve at least in part a calcium flux, and activation of protein kinase C. Parallel experiments with the use of the IL 1-independent T cell lines showed a strong response to both agents when used simultaneously. A modest response observed to A23187 alone was always enhanced by the addition of PMA. No response was observed to PMA alone. IL 1-rich P388D1 supernatant could replace the enhancing effect of PMA in the response of the IL 1-independent T cell lines. We suggest that the activating signals provided by A23187 and PMA are at least part of the sequence of events that lead to production of IL 2 in either IL 1-dependent or IL 1-independent T cell lines. In IL 1-independent T cell lines, however, both of the activating signals studied may be delivered through stimulation of the Antigen-MHC T cell receptor.
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PMID:Activation of IL 1-dependent and IL 1-independent T cell lines by calcium ionophore and phorbol ester. 307 93

The tumor promotor 12-O-tetradecanoylphorbol-13-acetate (TPA) in combination with calcium ionophores has been shown to bypass the requisite antigen- or lectin-induced signal for lymphocyte mitogenesis. This suggests that protein kinase C activation and calcium mobilization may be early events required for lymphocyte proliferation. Therefore, the relationship(s) of protein kinase C activation and calcium mobilization to ornithine decarboxylase induction and cellular proliferation were examined in a rat node lymphoma cell line (Nb2) which is dependent upon prolactin (PRL) for mitogenesis. TPA enhanced PRL-stimulated Nb2 node lymphoma cell ornithine decarboxylase induction and [3H]thymidine incorporation. Addition of a calcium ionophore (A23187) to cultures containing TPA plus PRL increased ornithine decarboxylase above PRL alone or PRL plus TPA but inhibited proliferation compared to the PRL plus TPA regimen. Exposure of cells to TPA or TPA plus A23187 increased [3H]thymidine incorporation in a similar manner to that demonstrated for low-dose PRL. However, optimal concentrations were only 20-25% as effective as mitogens as was optimal PRL. Protein kinase C and calmodulin antagonists inhibited PRL-stimulated ornithine decarboxylase induction and proliferation. Ca2+ chelation or cation channel antagonism inhibited both PRL-stimulated responses. The cyclic AMP analogue, 8Br-cAMP, inhibited PRL-stimulated ornithine decarboxylase activity as well as cellular proliferation processes assessed by [3H]thymidine incorporation. Finally, tumor-promoting phorbol esters inhibited 125I-rPRL binding. These data strongly suggest that protein kinase C activation and calcium mobilization are requisite events for PRL-stimulated ornithine decarboxylase induction and cellular proliferation in Nb2 node lymphoma cells. An additional component that is linked to alterations in K+ channeling is also implicated. These data support a role for protein kinase C in PRL-coupled mitogenesis. However, other critical Ca2+ and/or ion-induced events are also required.
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PMID:Prolactin stimulation of ornithine decarboxylase and mitogenesis in Nb2 node lymphoma cells: the role of protein kinase C and calcium mobilization. 309 4

Prolactin (PRL)-stimulated ornithine decarboxylase (ODC) activity and subsequent proliferation are inhibited by the cyclopeptides cyclosporine (CsA) and didemnin B (DB) in Nb 2 node lymphoma cells. Similar concentrations of these agents also inhibit 125I-PRL binding, suggesting that their inhibitory effects on these PRL-dependent physiologic responses are mediated at least in part at the level of PRL receptor interactions. The phorbol ester TPA stimulated ODC activity and [3H]thymidine incorporation to 54% and 31% that of a near-optimal mitogenic concentration of PRL (10 ng/ml), suggesting that mitogenesis in these cells is coupled to some degree to the activation of protein kinase C (PKC). The calcium ionophore A23187 increased ODC activity only slightly and actually decreased [3H]thymidine incorporation to a value below the "cells only" controls. The addition of TPA plus A23187 did not further enhance the effects of TPA to elevate ODC activity and [3H]thymidine incorporation. However, A23187 significantly elevated PRL-stimulated ODC activity with a subsequent inhibition of [3H]thymidine incorporation, suggesting a block of entry into S phase. Both cyclopeptides decreased the elevation of ODC activity in G1 phase of cell cycle in response to PRL, suggestive of a site of action for these agents in early G1, a conclusion compatible with their ability to inhibit PRL binding to these cells. Addition of CsA or DB 2 hr after PRL had no effect on PRL-stimulated ODC activity detectable at 6 hr, but addition of either as late as 6 hr still affected the extent of mitogenesis. This is in line with the requirement for PRL to be present in the culture medium for a minimum of 3 to 6 hr to invoke a maximal effect on mitogenesis. Addition of either cyclopeptide after the cells were in S phase had no effect on the extent of [3H]thymidine incorporation. An inhibitor of the cyclooxygenase pathway (indomethacin) enhanced both PRL-stimulated ODC activity and proliferation, whereas inhibition of the lipoxygenase pathway by NDGA attenuated only proliferation, suggesting that in Nb 2 cells, products of the lipoxygenase pathway may contribute to the mechanism of PRL-stimulated mitogenesis. Because Nb 2 lymphoma cells were derived from estrogenized rats, estrogen was tested as a mitogen. By itself it was not mitogenic, but in conjunction with PRL, estradiol-17 beta elevated the ODC response and inhibited proliferation. Inhibitors of PKC known to have minimal effects on RNA synthesis, quercetin and gossypol, totally inhibited both the elevations of ODC activity and [3H]thymidine incorporation in response to PRL in Nb 2 lymphoma cells.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Prolactin-dependent mitogenesis in Nb 2 node lymphoma cells: effects of immunosuppressive cyclopeptides. 309 47

T lymphocytes respond to mitogenic stimulation by expressing the receptor for interleukin 2 (Il-2) and secreting Il-2; once the receptor is expressed, Il-2 induces these cells to proliferation. In the present report using mouse T lymphocytes, thymocytes, and the lymphoma cell line EL4, we studied receptor expression and Il-2 secretion as early parameters for T-lymphocyte activation in response to ionomycin, concanavalin A (Con A), 12-O-tetradecanoyl-phorbol 13-acetate (TPA), and interleukin 1 (Il-1). Il-1 is required for mitogenic response of lymphocyte preparations that are rigorously depleted of macrophages. On its own, Il-1 had very little effect on Il-2 secretion and Il-2 receptor expression by T lymphocytes. TPA strongly synergized with ionomycin both for Il-2 secretion and for Il-2 receptor expression whereas Il-1 did not. Il-1 required the simultaneous presence of ionomycin and TPA to have any demonstrable effect on T lymphocytes from spleen and on thymocytes. However, on EL4 cells which were also partially responsive to TPA alone, Il-1 showed strong synergy with TPA to induce Il-2 secretion and Il-2 receptor expression. The effect of Il-1 on EL4 cells was dose dependent where increasingly higher concentrations of Il-1 in the presence of a fixed concentration of TPA caused higher percentage of EL4 cells to become Il-2 receptor positive. The present results suggest that Il-1 does not cause its effect on T lymphocytes via the same mechanism of protein kinase C activation that has been proposed for TPA.
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PMID:Interleukin 1 and protein kinase C activator are dissimilar in their effects on Il-2 receptor expression and Il-2 secretion by T lymphocytes. 310 60

Control of entry into and progression through the early phases of cell cycle in B lymphocytes is poorly understood at the molecular level. Products of the c-fos proto-oncogene have been implicated in regulation of G0 to G1 cell cycle phase transition and cell proliferation in other systems. In view of these observations, the relationship between signals generated through receptor Ig which alter the B cells position in cell cycle and relative level of c-fos expression was investigated. Not unexpectantly, anti-Ig under conditions which promote G0-G1 and G1-S phase transition was observed to selectively up-regulate expression of c-fos. More interestingly, however, anti-Ig-induced cross-linking of surface Ig on the WEHI-231 B lymphoma also caused rapid and transient up-regulation of c-fos mRNA levels although it was associated with inhibition of proliferation of these cells. These results are important because they show that 1) c-fos expression is inducible in both normal and transformed B lymphocytes as a consequence of signals generated through receptor Ig, and 2) up-regulation of c-fos expression is not positively linked to B cell proliferation but rather appears to be a component of the surface Ig signal transduction mechanism. Finally, studies utilizing phorbol diesters suggest that pathways leading through protein kinase C are involved in both the growth inhibition and c-fos expression WEHI-231 following membrane-associated Ig cross-linking.
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PMID:Up-regulation of c-fos expression is a component of the mIg signal transduction mechanism but is not indicative of competence for proliferation. 312 26

Using high-resolution 2-dimensional gel electrophoresis to separate proteins from cells labeled in vivo with either [32P]phosphate or [35S]methionine, the tumor promoter 12-O-tetradecanoylphorbol-13-acetate (TPA) was shown to stimulate phosphorylation of at least 18 proteins in a subline of S49 mouse lymphoma cells deficient in cyclic AMP-dependent protein kinase. Phosphorylation of these proteins was not altered by phorbol acetate, a phorbol ester inactive in tumor promotion, and stimulation by TPA was half-maximal at less than 16 nM; therefore, these responses appeared to reflect specific interactions of TPA with high-affinity receptors. Treatment of cells with phospholipase C mimicked TPA in stimulating phosphorylation of some of these substrate proteins, thereby suggesting possible involvement of protein kinase C, the calcium-activated phospholipid-dependent protein kinase. Substrates differed in their relative responses to phospholipase C, the kinetics and concentration dependence of their phosphorylation in response to TPA, their extents of TPA-stimulated changes in phosphorylation, and their responses to tetracaine and retinal, two inhibitors of protein kinase C. Using these responses as criteria for classification, the TPA-mediated phosphorylations could be shown to fall into at least three distinct groups. The significance of these results to regulation of intracellular protein phosphorylation, to the relationship of protein kinase C and phorbol ester receptors, and to possible heterogeneity in kinases stimulable by phorbol ester tumor promoters is discussed.
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PMID:Phorbol ester-mediated protein phosphorylations in S49 mouse lymphoma cells. 315 48

Human platelet membrane proteins were phosphorylated by exogenous, partially purified Ca2+-activated phospholipid-dependent protein kinase (protein kinase C). The phosphorylation of one of the major substrates for protein kinase C (Mr = 41 000) was specifically suppressed by the beta subunit of the inhibitory guanine-nucleotide-binding regulatory component (Gi, Ni) of adenylate cyclase. The free alpha subunit of Gi (Mr = 41 000) also served as an excellent substrate for the kinase (greater than 0.5 mol phosphate incorporated per mol of subunit), but the Gi oligomer (alpha X beta X gamma) did not. Treatment of cyc- S49 lymphoma cells, which are deficient in Gs/Ns (the stimulatory component) but contain functional Gi/Ni, with the phorbol ester, 12-O-tetradecanoylphorbol 13-acetate, a potent activator of protein kinase C, did not alter stimulation of adenylate cyclase catalytic activity by forskolin, whereas the Gi/Ni-mediated inhibition of the cyclase by the hormone, somatostatin, was impaired in these membranes. The results suggest that the alpha subunit of the inhibitory guanine-nucleotide-binding regulatory component of adenylate cyclase may be a physiological substrate for protein kinase C and that the function of the component in transducing inhibitory hormonal signals to adenylate cyclase is altered by its phosphorylation.
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PMID:Protein kinase C phosphorylates the inhibitory guanine-nucleotide-binding regulatory component and apparently suppresses its function in hormonal inhibition of adenylate cyclase. 316 29

Cellular proliferation and differentiation of the mammalian mammary gland requires a medley of hormones including the anterior pituitary hormone, PRL. Recent evidence extends the role of PRL as a mammalian mitogen to cells in several physiological systems not directly involved in reproductive functions, such as liver and lymphocytes. PRL administration induces biochemical markers expressed during the G1 phase of cell cycle and activates DNA synthesis in rat liver. Chronic PRL treatment causes hepatomegaly, reflecting its stimulation of the proliferative process. In vitro, a lactogen-dependent cell line, the Nb2 rat node lymphoma cell, serves as a useful paradigm to study PRL action on mitogenesis. These cells, when cultured in the presence of lactogens, proliferate in a dose-dependent manner. The effects of various pharmacological agents on discrete phases of the cell cycle may be readily assessed in these cells since PRL-stimulated entry into cycle is signalled by an elevation of ODC activity at 6 hr and entry into S-phase at 6-12 hr. The parallel effects of phorbol ester tumor promoters and PRL on cell cycle progression in Nb2 lymphoma cells and in hepatic proliferation suggest that PRL may likewise mediate proliferation in aberrant growth conditions such as neoplasia. The data presented support the hypothesis that PRL is capable of promoting hepatocarcinogenesis. Its chronic administration after a hepatic initiating agent stimulated the development of histochemical and biochemical markers characteristic of preneoplasia. Further, the effect of PRL was comparable to that of the hepatocarcinogen when either was administered alone. Thus, hyperprolactinemia may serve to promote the development of hepatic tumors. Phorbol esters are thought to promote tumorigenesis by directly activating PKC. In the Nb2 lymphoma cell model, tumor promoting phorbol esters mimic the effects of PRL. Similarly, PRL-stimulated enzyme induction in liver is mirrored by phorbol ester treatment, and inhibitors of PKC block PRL-stimulated mitogenesis in Nb2 cells. Further, PRL or TPA administration to rats causes translocation of PKC activity from the hepatic cytosol to the membrane fraction, reflecting kinase activation. Therefore, PRL activation of PKC appears to be a physiological phenomenon of general significance, occurring as the result of lactogen receptor stimulation and serving to transmit intracellular signals linked to the regulation of mitogenesis. Further study is required to more fully define the scope of PRL-mediated mitogenic actions as well as its effects on the expression of differentiated products in tissues and cells.
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PMID:Prolactin as a mammalian mitogen and tumor promoter. 325 Feb 31

Anti-IgM or anti-IgD stimulates B cells to induce increases in inositol phospholipid metabolism and intracellular free calcium concentration [( Ca2+]i). Anti-IgM also causes increases in membrane fluidity that occur more promptly than those in [Ca2+]i in resting B cells as well as BAL17 B lymphoma cells. However, other B cell activators such as LPS or PMA did not induce the membrane fluidity changes. Furthermore, sodium fluoride, which is considered to be an activator of the guanine nucleotide-binding protein, caused increases in membrane fluidity as well as increased [Ca2+]i or inositol phospholipid metabolism. Anti-IgM- or sodium fluoride-induced increases in membrane fluidity were inhibited by 20-min pretreatment of cells with PMA, but not by 24-h pretreatment. These results indicate that membrane fluidity changes are closely associated with increased [Ca2+]i after cross-linkage of membrane Ig and are regulated by protein kinase C in B cells.
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PMID:Phorbol myristate acetate inhibits increases in membrane fluidity induced by anti-IgM in B cells. 325 10

Immunoblot analysis of WEHI-231 B lymphoma cell homogenates revealed that both type II, a major component, and type III, a minor component, protein kinase C (PKC) were present. Northern blot analysis of PKC mRNA showed a higher level of beta II and beta I mRNA (encoding type II PKC) than of alpha mRNA (encoding type III PKC). Short term (3 min) treatment with phorbol 12-myristate 13-acetate (PMA) caused a rapid loss of PKC in cytosol and a concomitant increase in the particulate fraction. After prolonged (24 hr) exposure, the level of both PKC isozymes were decreased. However, the corresponding mRNA levels remained intact. PMA did not inhibit the anti-IgM-mediated increase in [Ca2+]i in PKC-depleted cells.
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PMID:Increased degradation of protein kinase C without diminution of mRNA level after treatment of WEHI-231 B lymphoma cells with phorbol esters. 326 24


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