Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The morphological and functional characteristics and the activities of cyclic AMP- (PKA I and PKA II) and calcium and phospholipid-dependent (PKC) protein kinases were studied in 2-day-old suspension cultures of porcine thyroid cells and were compared with those in freshly dissociated cells and intact glands. Thyroid cell morphology changed during the 2-day culture in the absence of specific regulators. This is characterized by a loss of cellular polarity, exo- and endocytotic vesicles and membranes of the rough endoplasmic reticulum, and an increase in the number of lysosomes, pseudomyelinic structures, lipidic inclusions and free ribosomes. Functional changes are characterized by a progressive decrease in protein iodination and its sensitivity to TSH stimulation. The total PKA activity in the cytosols of these cultures was slightly greater than that of freshly prepared tissue, due to the selective and significant accumulation of PKA I in cultured cells. In the particulate fraction the PKA activity was unchanged. PKC is the major kinase activity in porcine thyroids, and remains so in cultured cells. The slight drop in its activity in cytosols was offset by a significant increase in the particulate fraction, suggesting an intracellular redistribution of this kinase in cultured cells. The PKC activity is also partly activated in both the cytosol and particulate fraction, which results in an increased basal activity. The changes in PKA and PKC activities greatly modified the PKC/PKA ratios in the cytosols and the particulate fractions of cultured cells. These modifications could be partly responsible for the changes in sensitivity of cultured cells to the agents which control their activity.
Mol Cell Endocrinol 1990 Jul 09
PMID:Changes in cAMP-dependent and Ca2(+)-phospholipid-dependent protein kinase activities in suspension cultures of porcine thyroid cells. 217 Feb 12

The effect of a reduction in protein kinase C activity on the metabolism of exogenous [3H]diC8 by freshly isolated smooth muscle cells from rabbit aorta and cultured A10 smooth muscle cells was determined. The metabolism of [3H]diC8 by both smooth muscle cell preparations was predominantly by hydrolysis to yield monoC8 and glycerol (lipase pathway); very little radioactivity was incorporated into phospholipids. Diacylglycerol lipase activity measured in vitro with A10 cell homogenates was much greater than diacylglycerol kinase activity. The addition of the protein kinase C inhibitor H-7 to incubations of isolated aortic smooth muscle cells and cultured A10 cells had no significant effect on the metabolism of [3H]diC8. Protein kinase C activity in cultured A10 cells preincubated for 20 h with a phorbol ester was reduced to 14% of control as a consequence of down-regulation, but diC8 metabolism was not changed. Therefore, protein kinase C does not regulate the metabolism of diacylglycerols in aortic smooth muscle cells.
Mol Cell Biochem 1990 Jul 17
PMID:Protein kinase C does not regulate diacylglycerol metabolism in aortic smooth muscle cells. 223 6

BALB/MK is a nontransformed epithelial cell line derived from primary BALB/c mouse keratinocytes that requires epidermal growth factor (EGF) for growth. Using a defined-medium culture system, we investigated the role of physiological concentrations of EGF on phosphoinositide metabolism in these cells. The results show that EGF rapidly activates phospholipase-C mediated phosphoinositide metabolism resulting in the generation of the second messengers inositol 1,4,5-trisphosphate and diacylglycerol. These metabolites control intracellular Ca2+ levels and activate protein kinase C, respectively. Protein kinase C activation in response to EGF was evidenced by the phosphorylation of the acidic 80 kilodalton endogenous protein substrate (p80) specific for this kinase. In contrast, insulin, which acts in concert with EGF to cause BALB/MK cell proliferation, had no effect on phosphoinositide metabolism nor led to any additional stimulation when added in combination with EGF. Taken together, our results show that rapid alterations in phosphoinositide metabolism and protein kinase C activation are associated with the normal mitogenic response of keratinocytes to EGF.
Mol Endocrinol 1988 Sep
PMID:Epidermal growth factor activates phosphoinositide turnover and protein kinase C in BALB/MK keratinocytes. 245 6

A calcium-sensitive, lipid-dependent protein kinase (protein kinase C) modulates physiological function in a variety of cells. In certain tissues, multiple forms of this key regulatory enzyme exist. To examine the nature of ovarian protein kinase C, swine luteal cytosol (1000 mg protein) was applied and eluted from DE-52 cellulose. The pooled active fractions were sequentially purified further by threonine- (TS) and phenyl-Sepharose (PS) affinity chromatography in a buffer of 20 mM Tris, 0.5 mM EDTA, 0.5 mM EGTA, 5 mM dithiothreitol and 250 micrograms/l leupeptin. Protein kinase C activity was eluted with NaCl gradients of 0.075-125 M (DE-52), 0.1-1 M (TS) and 0.6-0.0 M (PS). This purification scheme yielded three distinct peaks of highly purified protein kinase C activity and an overall enrichment in protein kinase C activity of approximately 1000-fold. Inasmuch as control of steroidogenesis or peptide hormone production in the ovary via the Ca2+-protein kinase C pathway could occur at several different levels, we postulate that the demonstrated presence of isoforms of this enzyme in ovarian tissue offers a means for selective spatial and temporal compartmentalization of the endocrine stimulus with correspondingly distinct changes in cellular function.
Mol Cell Endocrinol 1989 Jan
PMID:Purification of three forms of chromatographically distinct protein kinase C from the swine ovary. 250 Nov 18

Protein kinase A (cAMP-dependent) and C (calcium, phospholipid-dependent) activities were measured and in vitro phosphorylation of endogenous proteins by these kinases were observed by SDS-PAGE in 100,000 x g supernatant (soluble) fractions of ovine small (12-22 microns) and large (greater than 22 microns) luteal cells. No differences in stimulation (P less than 0.05) of A kinase activity between small and large cells were detected. Protein kinase C activity was stimulated (P less than 0.05) 2.9-fold in small cells but not significantly enhanced above basal (P greater than 0.05) in large cells. By direct comparison, greater stimulation (P less than 0.05) over basal of A versus C kinase (6.1- versus 2.9-fold) was measured in small cells. These stimulations were greater than those observed in large cells (A kinase, 4.8-fold; C kinase, 1.8-fold). Maximal specific activities of both kinases (per mg protein) were greater (P less than 0.05) in small than in large cells. Endogenous proteins that could serve as substrates for phosphorylation by A and C kinases differed between small and large cells. Phosphorylation of six proteins by A kinase was consistently greater in small than in large cells. One endogenous protein (37 kDa) appeared to serve as a preferred substrate for phosphorylation by A kinase in small cells and C kinase in large cells. One protein (81 kDa) was predominantly phosphorylated in large rather than small cells by a calcium-dependent, C kinase-independent mechanism. These results support the accepted role of cAMP via A kinase and a possible role for C kinase in regulating steroidogenesis in ovine small luteal cells. The inability of large cells to respond to cAMP with enhanced secretion of progesterone may be due to an unavailability of phosphoprotein substrates for A kinase. Furthermore, protein kinase C activity and available protein substrates display quantitative and qualitative differences between small and large cells. Differences in regulation of steroidogenesis between the cell types may be due to these observed differences.
Mol Cell Endocrinol 1989 Apr
PMID:Protein kinase A and C activities and endogenous substrates in ovine small and large luteal cells. 254 89

Transcription of the low-density lipoprotein receptor (LDL-R) gene in the human monocytic leukemic cell line THP-1 and in the human hepatocarcinoma cell line Hep-G2 is regulated by second messengers of the diacylglycerol-protein kinase C (DAG-PKC), inositol 1,4,5-triphosphate-Ca2+, and cyclic AMP pathways. Exogenous phospholipase C (which releases DAG and inositol 1,4,5-triphosphate), PKC activators (phorbol esters and DAG), Ca2+ ionophores, and a cyclic AMP analog all transiently induced accumulation of LDL-R mRNA. The effects of these three signal-transducing pathways were to a large extent additive. Furthermore, PKC stimulation effected an increase in LDL binding, which suggested that the increase in LDL-R mRNA resulted in an increase in functional cell surface receptor activity. These results suggest that uptake of cholesterol by these cells is under control of both intracellular cholesterol levels and external signals.
Mol Cell Biol 1989 Jun
PMID:Involvement of second messengers in regulation of the low-density lipoprotein receptor gene. 254 77

Oncogene activation has been suggested to play some role in determining the hormone independency of tumors. In order to study the role of protein kinase C in mediating the inhibition of the glucocorticoid-dependent transcription from the Mouse Mammary Tumor Virus (MMTV)-Long Terminal Repeat induced by overexpressed activated ras oncogene, we studied the effects of protein kinase C activators [the tumor promoting phorbol ester 12-O-tetradecanoyl-phorbol-13-acetate (TPA)] and inhibitors [1-(5-isoquinolinesulfonyl)-2-methylpiperazine (H-7)] on the dexamethasone (DEX)-mediated activation of a MMTV-Long Terminal Repeat-chloramphenicol acetyltransferase (pMMTV-CAT) chimeric reporter gene transiently transfected into NIH-3T3 cells and in Ha-ras-transformed fibroblasts (T24-NIH-3T3). TPA (30 ng/ml) together with DEX (0.1 microM) treatment of NIH-3T3 cells resulted in a significant decrease of CAT activity from pMMTV-CAT, compared to DEX treatment alone. The addition of H-7 (40 microM) was able to overcome the TPA-induced inhibition of DEX-dependent transcription from pMMTV-CAT. DEX-dependent expression of pMMTV-CAT was significantly reduced in T24-NIH-3T3 with respect to wild-type NIH-3T3 cells. Treatment of T24-NIH-3T3 cells with either H-7 or TPA significantly enhanced or decreased, respectively, the DEX-dependent expression of pMMTV-CAT. TPA and/or H-7 did not affect CAT activity from either pMMTV-CAT in the absence of DEX or from CAT gene under the control of the SV40 promoter. Similar glucocorticoid receptor sites and binding affinities were observed in T24-NIH-3T3 or TPA-treated NIH-3T3 cells compared to wild-type untreated cells. Our data suggest that activation of PKC is involved in the reduced transcriptional regulatory activity of glucocorticoid hormone induced by overexpressed Ha-ras oncogene in NIH-3T3 fibroblasts.
Mol Endocrinol 1989 Oct
PMID:Tumor-promoting phorbol ester and ras oncogene expression inhibit the glucocorticoid-dependent transcription from the mouse mammary tumor virus long terminal repeat. 255

As judged by Western blot analysis, phorbol 12-myristate 13-acetate (PMA) and phorbol 12,13-dibutyrate (PDBU) induce the rapid and dose-dependent appearance of slower mobility CD5 molecular forms from peripheral blood mononuclear cell (PBMC) and thymus cell lysates. This phenomenon was inhibited by staurosporine, suggesting that it can be mediated by PKC activation. Furthermore, under our experimental conditions, neither Concanavalin A, nor Phytohaemagglutinin P or the calcium ionophore A23187 were able to reproduce the phorbol ester-induced changes in the CD5 electrophoretic mobility. When immunoprecipitated from phorbol ester-stimulated P32 labelled PBMC lysates, the slower mobility of CD5 molecules was associated to important phosphorylation. This special electrophoretic behaviour after phorbol ester-stimulation makes CD5 different from other lymphocyte surface glycoproteins and may have important implications in the elucidation of the biological role of this molecule as discussed below.
Mol Immunol 1989 Dec
PMID:Heterogeneity in the electrophoretic mobility of CD5 molecules after phorbol ester stimulation. 263 49

Protein kinase C (PK-C) has been implicated in the action of LHRH because LHRH-induced release of LH is partially mimicked by phorbol esters which activate PK-C, and reduced in magnitude by inhibitors of PK-C. We have used a reverse haemolytic plaque assay for LH to visualize and compare the direct effects on individual rat gonadotrophs of (1) a 2-h exposure to a range of concentrations of LHRH and phorbol 12-myristate 13-acetate (PMA) and (2) a single maximally stimulatory dose (10 nM) of LHRH or PMA, or LHRH in the presence of inhibitors of PK-C (retinal and isoquinolone sulphonamide; H7) over six consecutive 30-min intervals. Quantitative analysis of the size and number of haemolytic plaques indicated that LHRH induced a dose- and time-dependent increase in the amount of LH release by individual gonadotrophs, with no evidence of the priming effect of LHRH. Stimulation by 10nM LHRH induced recruitment of actively secreting gonadotrophs which reached maximum levels by 90 min. There was a delay of 90-120 min before 10 nM PMA caused a significant release of LH, as assessed by both the size and number of plaques. During the first 30 min of exposure, the presence of 10 microM retinal or H7 augmented LHRH-induced secretion of LH, with the absence of any inhibition of the effects of LHRH until 90-120 min, when both the size and number of plaques were reduced compared with those formed in the presence of LHRH alone.(ABSTRACT TRUNCATED AT 250 WORDS)
J Mol Endocrinol 1989 Jan
PMID:Heterogeneity of responses to LH-releasing hormone and phorbol ester among rat gonadotrophs: a study using a reverse haemolytic plaque assay for LH. 266 9

PKC activation has been shown to mimic the biophysical consequences of classical conditioning in both rabbit hippocampus and Hermissenda type B cells. Furthermore, conditioning in rabbits results in the 24 h translocation of PKC from cytosol to membrane, which is probably responsible for mediating the biophysical consequences of conditioning. A model has been presented that suggests that long-term translocation of PKC occurs via the synergistic activation of a DG dependent pathway that activates PKC and a calcium dependent pathway that activates CaM kinase. Translocation of PKC to the plasma membrane, by altering ion channel properties, could subserve memory lasting for days, whereas translocation to the nuclear membrane could induce cellular change, by genomic regulation, lasting beyond days. We are, therefore, suggesting that protein kinase C may play a critical role in the formation of short, intermediate, and long-term associative memory.
Mol Neurobiol
PMID:Learning-induced activation of protein kinase C. A molecular memory trace. 267 67


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