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)

TRH stimulation of rat pituitary (GH3) cells causes biphasic changes in cytoplasmic free Ca2+ concentration [( Ca2+]i) and PRL secretion. It has been proposed, based primarily on indirect evidence, that the first phase effects are mediated by inositol 1,4,5-trisphosphate, which releases Ca2+ from cellular stores, and the sustained effects are mediated by 1,2-diacylglycerol, which activates protein kinase C. To determine more directly if inositol lipid hydrolysis leading to protein kinase C activation is involved in the sustained effects of TRH, GH3 cells were depleted of phosphatidylinositol (PtdIns) by prestimulation and incubation in myo-inositol-free, Li(+)-containing medium. Cells depleted of PtdIns (to 53 +/- 3.2% of control) had unchanged PtdIns 4,5-bisphosphate content, and responded to TRH with a rapid elevation of inositol trisphosphate, and a first phase (or burst) elevation of [Ca2+]i and PRL secretion that was not different from that found in control cells. In contrast, in PtdIns-depleted cells, the prolonged generation of inositol phosphates, which are produced in equimolar amounts with 1,2-diacylglycerol, caused by TRH was virtually abolished, and the second phase (or sustained) elevation of [Ca2+]i and PRL secretion were inhibited by 50% and 40%, respectively. The inhibition of both sustained effects was reversed by adding 100 mM myo-inositol to the medium, which allowed for synthesis of PtdIns. Last, in cells in which protein kinase C was down-regulated by pretreatment with a phorbol ester, the sustained effects of TRH were inhibited also.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Phosphatidylinositol depletion in GH3 rat pituitary cells inhibits sustained responses to thyrotropin-releasing hormone. Reversal with myo-inositol. 315 60

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

The sequence of PRL and GH release from GH4C1 cells was studied in perifusion and static culture systems. The secretory pattern elicited by TRH differed from those caused by depolarizing concentrations of KCl (Ca2+-initiated secretion), vasoactive intestinal peptide (VIP), 8-bromo-cAMP, and forskolin (cAMP-mediated secretion), and 12-O-tetradecanoylphorbol-13-acetate (TPA) (protein kinase C activation). TRH, K+, VIP, and TPA all caused secretion within 1 min in the perifusion system but the peak response to TRH and depolarization occurred earlier than the peak responses to TPA and VIP. PRL and GH release in response to a pulsatile application of TRH (0.4-min pulse every 5 min for 25 min) did not decline with a low dose, indicating that acute desensitization does not occur, but did decrease with a high concentration. When cells in the perifusion system were subjected to continuous stimulation, TRH caused a biphasic response with a 2- to 3-min period of high secretion followed by a second phase in which GH and PRL secretion were 60-70% the rates in the first phase. KCl caused predominantly first-phase secretion, and TPA caused a biphasic secretory pattern with a delay in its peak of action. VIP caused a modest but prolonged response whether administered in a pulsatile or sustained manner. When GH-cells were exposed to 100 nM TRH for 2 days, [3H] [N3-methyl-His2]TRH binding was decreased (down-regulation), intracellular PRL was increased (170% of control), and intracellular GH was decreased (65% of control). In these down-regulated cells, baseline PRL and GH secretion were changed in proportion to the relative intracellular hormone content. The responsiveness to TRH, KCl, and TPA during the initial 10-min period (first phase) was reduced; however, the responsiveness to these substances in the subsequent 50-min period (second phase) was unchanged. The ED50 for TRH stimulation of hormone release was increased 2- to 4-fold in down-regulated cells, but the dose-response curves for other secretagogues were not shifted. These data suggest that the initial burst of hormone release caused by TRH is mediated by Ca2+, and that prolonged exposure to TRH causes homologous desensitization.
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PMID:Differential effects of thyrotropin-releasing hormone, vasoactive intestinal peptide, phorbol ester, and depolarization in GH4C1 rat pituitary cells. 391 48

The purpose of these studies was to determine whether increased cellular diacylglycerol could modulate phorbol ester receptor properties, in order to demonstrate that diacylglycerol can interact with and modulate the phorbol ester receptor in intact cells. Treatment of GH4C1 cells with bacterial phospholipase C caused an increase in cellular diacylglycerol. This was accompanied by increased PRL secretion and decreased epidermal growth factor (EGF) binding, two responses that also occur with phorbol ester treatment of GH4C1 cells. Phospholipase C treatment led to decreased apparent affinity for phorbol esters with no change in receptor number when measured in intact cells. This is consistent with increased concentrations of a competitive inhibitor of phorbol ester binding in treated cultures. Phospholipase C treatment caused a change in subcellular distribution of phorbol ester receptors, another response characteristic of phorbol ester treatment. TRH is known to activate endogenous phospholipase C activity in these cells, leading to a transient increase in diacylglycerol levels. TRH treatment also led to a transient change in subcellular distribution of phorbol ester receptors. In addition, a coordinate change in subcellular distribution of protein kinase C was observed. These data suggest that diacylglycerol is an endogenous ligand for the target for phorbol ester action in GH4C1 cells.
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PMID:Increased diacylglycerol content with phospholipase C or hormone treatment: inhibition of phorbol ester binding and induction of phorbol ester-like biological responses. 393 61

We have investigated the ability of a constitutively active Gq-alpha mutant, Q209L-alpha q, to regulate target gene expression. Transient expression in GH3 pituitary cells of a rat proximal prolactin promoter-chloramphenicol acetyltransferase construct (-187)PRL-CAT, was stimulated by co-expression of Q209L alpha q, but not by wild-type alpha q. Q209L-alpha q stimulated expression of constructs driven by promoters for either rat prolactin or growth hormone, but not of a control construct driven by the thymidine kinase promoter. Thus, transcriptional effects of alpha q are specific both for the activated state of this G-alpha subunit and the promoter examined. Since both the prolactin and growth hormone promoters are activated by the pituitary cell-specific transcription factor Pit-1, we examined whether a Pit-1 binding site could direct a response to Q209L-alpha q. Two copies of prolactin promoter Pit-1 binding site 1P conferred upon a heterologous metallothionein promoter a response to Q209L-alpha q, implying an involvement of this site in the transcriptional action of Q209L-alpha q on the prolactin promoter. The phorbol ester activator of protein kinase C, 12-O-tetradecanoylphorbol-13-acetate, stimulated (-187)PRL-CAT activity, but opposed the action of Q209L-alpha q on activity of this PRL-CAT construct. Q209L-alpha q stimulation of (-187)PRL-CAT activity was inhibited by co-expression of a dominant negative Raf mutant, Raf-C4, but not by a point mutant of Raf-C4 with reduced inhibitory properties. These results imply that activated alpha q subunits can stimulate prolactin promoter activity via a pathway that involves a Pit-1 DNA binding site(s), is opposed by protein kinase C, and is mediated by a pathway in which Raf-1 kinase plays a role.
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PMID:Constitutively active Gq-alpha stimulates prolactin promoter activity via a pathway involving Raf activity. 748 29

Hormone release in culture in response to pituitary adenylate cyclase-activating polypeptide (PACAP) was examined in 28 human pituitary adenomas: 10 null cell adenomas, 4 gonadotropin-, 6 GH-, 6 ACTH-, and 2 PRL-producing adenomas. The effects of PACAP38 were compared with those of the classical hypothalamic releasing hormones and other activators of intracellular signaling pathways. PACAP38 significantly stimulated GH release from 1 somatotrope tumor (125 +/- 3% of control; P < 0.05) and ACTH release from 3 corticotrope tumors (134 +/- 6%, 136 +/- 7%, and 137 +/- 9% of control; P < 0.05). The effects of PACAP38 were less potent than either GHRH on GH release in the somatotrope tumor or CRH on ACTH release in the corticotrope tumors but similar to the responses seen with the cAMP analog 8-bromo-cAMP (8-Br-cAMP). No detectable effects of PACAP38 on hormone release from null cell, gonadotropin-, or PRL-producing adenomas were observed. Of the 5 somatotrope tumors that failed to respond to PACAP38, all also failed to respond to either 8-Br-cAMP, TRH, or GHRH. Of the corticotrope tumors that failed to respond, 2 of the 3 also failed to respond to CRH. In addition to eliciting hormone release appropriate to the tumor type, PACAP38 also stimulated glycoprotein hormone alpha-subunit (alpha SU) release from one somatotrope tumor (229 +/- 35% of control, P < 0.01) and one corticotrope tumor (149 +/- 4% of control; P < 0.01). This response was not mimicked by 8-Br-cAMP in the somatotrope tumor, but in the corticotrope tumor a significant alpha SU release was also seen after stimulation with the protein kinase C activator 12-O-tetradecanoyl-phorbol-13-acetate and 8-Br-cAMP. These results suggest that the novel hypothalamic peptide PACAP38 has a modest role in the regulation of GH, ACTH, and alpha SU secretion from some human tumourous pituitary corticotropes and somatotropes. Further studies are needed to elucidate the intracellular signaling pathways that mediate the effects of PACAP on hormone secretion by these tumor types.
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PMID:Effects of pituitary adenylate cyclase-activating polypeptide on hormone secretion by human pituitary adenomas in vitro. 752 12

TRH and GnRH receptors are each coupled to G proteins of the Gq/11 family. Activation of each of these receptors by their respective ligands results in the stimulation of phospholipase C activity, leading to calcium mobilization and protein kinase C activation. Thus, the effects of TRH and GnRH may be mediated through the same intracellular signal transduction pathway. To compare responses to TRH and GnRH directly within one cell type, we have stably transfected the rat pituitary GH3 lactotrope cell line, which expresses the endogenous TRH receptor, with an expression vector containing rat GnRH receptor cDNA. Transfected cells specifically bound GnRH with high affinity and responded to GnRH stimulation with an increase in PRL mRNA levels, analogous to their response to TRH stimulation. Stably transfected GH3 cells, which were then transiently transfected with luciferase reporter constructs containing either the PRL or the glycoprotein hormone alpha-subunit promoter, responded to either GnRH or TRH stimulation with an increase in luciferase activity in a time- and dose-dependent fashion. The stimulatory effects of maximally effective concentrations of TRH and GnRH were additive on PRL, but not alpha-subunit, gene expression. These data, coupled with evidence of cross-desensitization of alpha-subunit, but not PRL, promoter activity stimulation by TRH and GnRH, suggest that there may be differences in the signal transduction pathways activated by TRH and GnRH receptors in the regulation of PRL and alpha-subunit gene expression.
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PMID:Evidence that signalling pathways by which thyrotropin-releasing hormone and gonadotropin-releasing hormone act are both common and distinct. 752 98

In numerous studies on mammary epithelial cell lines multiple factors, added to the medium or contained in the serum, were required for casein gene expression. It has been shown in these systems that the mammary gland factor (MGF) is implicated in the activation of the beta-casein gene promoter. In the present study, we determined the relationship between known agents that affect casein gene expression and MGF activity using the properties of rabbit primary mammary epithelial cells to respond to PRL alone, when cultured in chemically defined medium. We demonstrate that MGF is rapidly activated by PRL alone or by human growth hormone, a natural ligand of many PRL receptors (PRL-Rs), in the cytoplasm and accumulated in the nucleus. The MGF activation by PRL occurred in the absence of endogenous extracellular matrix, a condition where casein synthesis is known to be markedly reduced. Different inhibitors of protein-tyrosine kinases, which have been shown to reduce casein mRNA synthesis, but not of protein kinase C, decrease the MGF activity. A tyrosine phosphatase inhibitor, sodium pervanadate, induced two GAS-binding complexes related to MGF and STAT1. Our data show that MGF is a latent cytoplasmic factor rapidly activated in mammary epithelial cells, by a mechanism involving a tyrosine kinase and a tyrosine phosphatase.
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PMID:Activation of STAT factors by prolactin, interferon-gamma, growth hormones, and a tyrosine phosphatase inhibitor in rabbit primary mammary epithelial cells. 767 19

The role of protein kinase C (PKC) on dopamine inhibition of PRL messenger RNA (mRNA) levels was studied in anterior pituitary cells kept in primary culture. PKC was desensitized by long-term exposure to 12-O-tetradecanoylphorbol 13-acetate (TPA). Effectiveness of PKC desensitization was confirmed by the fact that after TPA pretreatment, short-term (1-h) exposure to TPA was no longer able to trigger PRL release. In contrast, the capacity of nonreceptor-mediated secretagogues as depolarization with 48 mM K+ to release the hormone was preserved. Pretreatment with TPA did not affect basal PRL mRNA levels. In contrast, it significantly reduced the dose-dependent inhibition of PRL mRNA induced by 1 nM bromocriptine after a 4-day incubation period. Since dopamine inhibition of PRL release is mediated by several second messager pathways, including cAMP, inositol phosphates, and Ca2+, we investigated whether PKC depletion was able to interact with direct stimulation of these pathways. Pretreatment with PKC suppressed stimulation of PRL mRNA levels induced by either Forskolin (FK) or 8Br-cAMP. In parallel, it reduced basal as well as FK stimulated intracellular cAMP levels. In addition, chronic exposure to TPA completely suppressed PRL mRNA inhibition induced by nifedipine, a dihydropyridine antagonist which blocks voltage-dependent Ca2+ channels. TPA desensitization also affected the action of bromocriptine, FK or nifedipine on PRL release measured under the same conditions. The data indicate that endogenous PKC can interfere with the regulation of PRL gene expression induced by both cAMP and Ca2+ pathways, two second messengers associated with the action of dopamine in lactotroph cells.
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PMID:Protein kinase C regulation of prolactin gene expression in lactotroph cells: involvement in dopamine inhibition. 767 2

Studies were carried out to determine the possible roles of the polyamines, cyclic nucleotides, icosanoid products, and protein kinase C in the prolactin regulation of amino acid transport in cultured mammary gland explants derived from 12-14 day pregnant mice. Elevated cyclic AMP concentrations impaired the PRL stimulation of AIB transport. DBcAMP as well as the phosphodiesterase inhibitors theophylline and methyl isobutylxanthine, when added to the cultures, attenuated or abolished the PRL responses. 8-Bromo cyclic GMP elicited a modest stimulation of AIB transport. Ongoing polyamine synthesis appears to be necessary for PRL to effect a stimulation of AIB transport since methylglyoxal bis(guanyl hydrazone), an inhibitor of S-adenosyl methionine decarboxylase, abolishes the PRL response; specificity of this effect was established by its reversal with the addition of spermidine to the culture medium. Ongoing icosanoid product synthesis also appears to be required for the PRL stimulation of AIB transport since indomethacin abolishes the PRL response. Finally, the inhibition of the PRL response by the protein kinase C inhibitor H-7 suggests that the activation of kinase C activity may also be involved in the PRL stimulation of AIB transport.
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PMID:Studies on the mechanism by which prolactin stimulates alpha-aminoisobutyric acid uptake into cultured mouse mammary tissues. 769 65


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