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 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

Ca(2+)-dependent protein kinase C (PKC) activity, diacylglycerol levels and PKC alpha, beta I, beta II and gamma expression were analyzed in the pituitary of female rats treated with estradiol alone (2 months) or in combination with quinagolide in the second month. Polymerase chain reaction (PCR) and Western blot analysis revealed the presence of PKC alpha, beta I and beta II isoenzymes in the rat pituitary gland but not of PKC gamma isoenzymes. Increases in pituitary weight and plasma prolactin levels induced by estradiol were associated with an increase in diacylglycerol pituitary content (1.55 +/- 0.06 versus 1.12 +/- 0.17 nmol diacylglycerol/mg protein in controls, P < 0.01). Cotreatment with quinagolide reversed these effects. Changes in PKC activity were accompanied by parallel changes in PKC alpha and beta I expressions. Estradiol treatment increased the expression of these isoforms whereas cotreatment with quinagolide antagonized these effects. PKC beta II expression was not affected. In conclusion, Ca(2+)-dependent PKC activity and protein expression are increased in hyperplastic pituitary cells, suggesting the involvement of this class of PKCs in the rat pituitary cell proliferation and/or hormonal secretion. This is further assessed by the fact that the dopamine receptor agonist treatment decreases activity and expression of these PKCs in parallel with the decrease in hormonal secretion and cell proliferation.
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PMID:Ca(2+)-dependent protein kinase C isoforms in rat pituitary hyperplasia: effect of in vivo treatment with quinagolide. 752 79

HC11 mouse mammary cells cultured in the presence of insulin, cortisol and prolactin for 24 h accumulated beta-casein mRNA. When the specific inhibitor of protein kinase C, GF 109203 X, was added to the medium with the hormones, the accumulation of beta-casein mRNA was unaltered, although the protein kinase C activity was almost completely suppressed. This suggests that protein kinase C is not strictly necessary for prolactin to induce milk protein gene expression.
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PMID:Protein kinase C is not necessary for beta-casein gene induction by prolactin in HC11 mouse mammary cells. 754 34

The expression and distribution of prolactin (PRL) mRNA and their alterations induced by estrogen and bromocriptine were investigated using non-radioisotopic in situ hybridization (ISH) at the electron microscopic (EM) level. Our EM-ISH studies using biotinylated oligonucleotide probes showed that estrogen induced whirling changes of the rough endoplasmic reticulum (RER) of female rat PRL cells and increased transcription of PRL genes located on the polysomes of the whirling RER. The presence of mammosomatotroph cells in the rat pituitary gland was also verified in our EM-ISH studies. After bromocriptine administration, PRL cells contained many secretory granules due to the inhibition of secretion. Pre- and post-embedding EM-ISH and northern hybridization studies revealed that bromocriptine induced the distorted, vesiculated, and dilated RER, and also the suppressed PRL mRNA expression. The activity of protein kinase C (PKC), which mediates PRL gene expression, tended to be elevated by estrogen and suppressed by bromocriptine. Therefore, it is considered that the ultrastructural and quantitative changes in PRL mRNA expression evoked by estrogen and bromocriptine may be mediated by the intracellular signal transduction system, including PKC.
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PMID:Changes in the ultrastructural distribution of prolactin and growth hormone mRNAs in pituitary cells of female rats after estrogen and bromocriptine treatment, studied using in situ hybridization with biotinylated oligonucleotide probes. 758 58

Arachidonic acid (AA) released from membrane phospholipids after activation of surface receptors causes cellular signaling actions in neurons and endocrine cells, including stimulation of prolactin (PRL) release from dissociated rat pituitary cells and clonal cells of the GH3 pituitary tumor line. In the present study, we investigated the effect of exogenous AA on PRL release from dispersed pituitary cells and tried to elucidate the mechanism involved in this process. The effects of AA on cytosolic Ca2+ concentration ([Ca2+]i) were studied using dual-emission microspectrofluorometry in identification lactotrophs and on PRL release in dispersed pituitary cell populations. AA had a dose-dependent effect on [Ca2+]i. At 1 microM, the Ca2+ increase was biphasic: a mobilization of intracellular Ca2+ from intracellular stores was followed by stimulation of Ca2+ influx. For lower concentrations (10 and 100 nM), only the stimulation of Ca2+ influx was observed. AA-induced Ca2+ influx and PRL release were not due to the stimulation of a phorbol 12-myristate 13-acetate-sensitive protein kinase C. In the same way, AA-stimulated PRL release and intracellular Ca2+ increase were independent of intracellular thapsigargin-sensitive Ca2+ pools. Furthermore, blockade of Ca2+ channels suppressed AA-induced PRL release. We hypothesize that Ca2+ influx plays a major role in AA-induced PRL release.
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PMID:Arachidonic acid increases cytosolic calcium and stimulates hormone release in rat lactotrophs. 761 98

The in vitro ability of ovine (o) follicle-stimulating hormone (FSH), (o)luteinizing hormone (LH), (o)prolactin (PRL), and recombinant human FSH (rhFSH) to stimulate progesterone (P4) synthesis by rat corpora lutea on Day 4 of pregnancy was investigated. Dispersed luteal cells (large + small cells) were incubated in the presence of the gonadotropins (1-100 ng) alone or in various combinations (10 ng each) for 4 or 24 hr. Given alone, all the ovine preparations stimulated P4 in a dose-dependent manner with even 1 ng of each hormone significantly enhancing P4 production. Significantly, rhFSH--which is devoid of LH contamination--at 10 and 100 ng also stimulated P4 production, thus clearly establishing for the first time that FSH is a luteotropic hormone in the rat. The combination of oFSH + LH + PRL (10 ng each) significantly stimulated P4 synthesis to a greater extent than the combination of any two hormones or individual hormones at both 4 hr or an additional 24 hr of incubation (P < 0.05). This verified in vitro a previously established in vivo luteotropic complex. One hundred nanamolars of phorbol 12-myristate 13-acetate (PMA) did not affect basal P4 secretion but inhibited cAMP, oFSH, and oLH stimulation of P4. Thus, the luteotropic effects of FSH, LH, and activators of protein kinase A are antagonized by the protein kinase C pathway.
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PMID:In vitro effects of interactions of follicle-stimulating hormone, luteinizing hormone, and prolactin on progesterone synthesis by rat luteal cells during pregnancy. 763 45

The hypothalamic neuropeptide TRH, which stimulates prolactin (PRL) release and PRL gene transcription, also raises c-fos proto-oncogene mRNA levels in GH3B6 rat pituitary cells. C-fos is assumed to be involved in the transduction of external signals to the nucleus as a component of AP1 transcription factor, a protein complex that contains a member of the jun proto-oncogene family. We have thus looked for the member(s) of the jun family that could be the partner of c-fos in TRH-stimulated GH3B6 cells. The common biphasic pattern of jun B and c-fos mRNA regulation under TRH exposure, i.e., an early peak and a long-lasting plateau phase, suggested that jun B was the best candidate. Then, to better understand the mode of action of TRH and to look for possible functions of c-fos and jun B in these cells, we have investigated the role of different intracellular signalings in the induction of each proto-oncogene. This was done taking as a model that the effects of TRH on PRL release and PRL gene transcription has been previously ascribed to the coupling of the TRH receptor to the activation of both protein kinase C- and calcium-dependent mechanisms. An extensive pharmacological analyses revealed that PKC-, Ca2+ but also protein kinase A-dependent mechanisms are involved in TRH-induced c-fos and jun B mRNA early responses in GH3B6 cells. The overall study also revealed specific features in the control by TRH of each proto-oncogene by some intracellular messengers. Finally, considering the fact that second long lasting phase of proto-oncogene expression was found associated with increased PRL mRNA accumulation whatever the stimulus, it might be proposed that AP1 [c-Fos/Jun B] factor could be involved in the regulation of PRL gene expression. Such hypothesis was furthermore supported by preliminary gel-shift experiments. Nevertheless, in view of the systematic coincidence between acute PRL release and early proto-oncogene induction, a role for c-fos and jun B in the control of genes involved in the secretory process might also be suggested.
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PMID:[Stimulation of C-fos and jun B proto-oncogenes: potential role of TRH effects in clone cell line with prolactin (GH3B6)]. 764 71

The effect of protein kinase C on the secretory response of GH3 pituitary cells to Ca2+ was investigated. Activation of protein kinase C with 100 nM 12-O-tetradecanoylphorbol 13-acetate (TPA) for 40 min reduced the rise in intracellular free calcium concentration ([Ca2+]i) stimulated by depolarization with high K+ but did not affect the threefold increase in prolactin secretion stimulated by 50 mM K+. Both [Ca2+]i and prolactin release were measured for control and TPA-treated cells over a range of [Ca2+]i values attained by adding the acetoxymethyl ester of 1,2-bis(2-aminophenoxy)-ethane -N,N,N',N'- tetraacetic acid (BAPTA/AM) to reduce [Ca2+]i or high K+ with or without BAY K 8644 to increase [Ca2+]i. Half-maximal prolactin secretion occurred at lower [Ca2+]i concentrations for cells treated with TPA (approximately 160 nM) than for control cells (approximately 270 nM), but the rate of secretion at high [Ca2+]i was the same. GH3 cells also secreted more prolactin in response to thyrotropin-releasing hormone (TRH) after protein kinase C activation, although TRH evoked a smaller Ca2+ transient. Fluorescence ratio imaging revealed that GH3 cells undergo spontaneous [Ca2+]i oscillations (4-12/min) and that TPA nearly abolishes [Ca2+]i oscillations as well as inhibits the increase in [Ca2+]i stimulated by depolarization. These results demonstrate that activation of protein kinase C increases the Ca2+ sensitivity of the secretory response in GH3 cells, causing up to a twofold increase in the rate of secretion at typical intracellular Ca2+ concentrations.
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PMID:Activation of protein kinase C increases Ca2+ sensitivity of secretory response of GH3 pituitary cells. 768 70

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

The two forms of angiotensin II (Ang II) receptors, AT1 and AT2 subtypes, have been demonstrated in many other cells beside the anterior pituitary cells. Attempting to investigate the subtype(s) of Ang II receptors implicated in the multiple transduction mechanisms involved in Ang II stimulation of prolactin (PRL) release by lactotropes, we studied the effect of selective nonpeptidergic Ang II antagonists on the PRL release, adenylate cyclase (AC), and phospholipase C activities. In intact cells, the AT1 antagonist DuP753 blocked Ang II-induced PRL release, reversed in a dose dependent manner Ang II-evoked inositol phosphates production, and inhibited completely the PLC and protein kinase C (PKC) dependent cAMP accumulation induced by Ang II. In membrane preparations, the Ang II receptors were negatively coupled to AC. The AT1 antagonist blocked in a dose dependent manner the inhibitory effect of Ang II on cAMP production. In intact cells, the negative coupling of Ang II receptor with AC was observed only when PKC was down regulated by long term 12-O-tetradecanolylphorbol-13-acetate pretreatment. Ang II was able to inhibit vasoactive intestinal peptide-induced cAMP accumulation, a response which was also prevented by DuP753. The different coupling of Ang II receptor described above implicated only the AT1 type receptor since the AT2 antagonists (PD123177 and PD123319) were ineffective at any doses tested (10(-8) to 10(-5) M). The obtained results indicate that the regulation of PRL secretion involves the AT1 receptor subtype and that this receptor might be coupled to multiple effectors.
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PMID:Angiotensin II effects on second messengers involved in prolactin secretion are mediated by AT1 receptor in anterior pituitary cells. 770 34


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