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)

Calcium-tolerant rabbit cardiomyocytes were isolated using retrograde aortic perfusion with a nominally calcium-free, collagenase buffer. In vitro ischemic preconditioning was induced by a 10-min episode of ischemic pelleting, followed by a 15-min post-incubation and a prolonged period of ischemic pelleting. Injury was assessed by determination of cell contracture and trypan blue permeability following hypotonic swelling and correlated with metabolic assays of lactate and adenine nucleotides. The protein phosphatase PP1/2A inhibitor calyculin A and PP2A-selective fostriecin protected isolated rabbit cardiomyocytes from lethal injury after a 10-min pre-incubation and when added late into ischemic pellets after a delay of 75 min. At the time of late drug addition, cells were severely ATP-depleted and in rigor contracture. Protection with Calyculin A from 1 nM to 1 microM was dose-related. Cells pre-incubated with 10 nM to 10 microM fostriecin 10 min prior to ischemic pelleting were protected with an EC50 approximating 71 nM, implying protection at a PP2A-selective dose. The selective protein kinase C inhibitor, calphostin C, blocked ischemic preconditioning protection but not protection from 1 microM calyculin A. Protection of severely ischemic cardiomyocytes following protein phosphatase inhibition appears not to require PKC activity or ATP conservation. Pre-incubation of cells with calyculin A induced high levels of phosphorylation in p38 mitogen activated protein kinase (MAPK), as compared to the ischemia-induced phosphorylation observed in the untreated group only at 30 min of ischemia, providing evidence of protein phosphatase activity in cardiomyocytes. Pharmacological protection in late ischemia has been demonstrated, but the mechanism of protection is undetermined.
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PMID:Protein phosphatase inhibitors calyculin A and fostriecin protect rabbit cardiomyocytes in late ischemia. 950 Aug 65

Recent studies indicate that vitamin D metabolites exert rapid effects on growth plate chondrocytes via changes in PG production and protein kinase C (PKC) activity. This suggests that these two products of vitamin D action may be interrelated. To test this hypothesis, we examined the effect of PGE2 on rat costochondral resting zone and growth zone cartilage cells and determined whether the effects of PGE2 are mediated by changes in the level of cAMP and/or PKC activity, whether there is a relationship between cAMP production and PKC activity, and whether cell maturation-specific effects are involved. Confluent, fourth passage resting zone and growth zone cartilage cell cultures were incubated in DMEM containing 10% FBS, 50 microg/ml vitamin C, and 1% antibiotics. The PGE2 concentration was varied from 0.007-15 ng/ml. Low concentrations of PGE2 caused a dose-dependent increase in cell number and [3H]thymidine incorporation and stimulated alkaline phosphatase specific activity. These effects were comparable in resting zone and growth zone cartilage cells at the same PGE2 concentrations. At higher concentrations, PGE2 caused a general increase in the synthesis of collagenase-digestible protein and noncollagenase-digestible protein in resting zone cartilage cells and of collagenase-digestible protein in growth zone cartilage cells, resulting in a net increase in the percent collagen synthesis for both cell types. cAMP production was increased over the entire range of chondrocyte response. Prevention of cAMP metabolism with the protein kinase A inhibitors H-8 and H-89 blocked the PGE2-dependent inhibition of PKC in resting zone cartilage cells in a dose-dependent manner. H-8 alone had no effect on PKC in resting zone cartilage cells, but stimulated PKC activity in growth zone cartilage cells; H-89 alone stimulated PKC activity in resting zone cartilage cells. These results suggest that low levels of PGE2 promote differentiation, whereas high doses promote an anabolic response; PGE2 increases cAMP production and PKC activity in a cell maturation-dependent manner; PGE2 exerts its effects via cAMP production and PKC activity; and regulation of PGE2-dependent PKC is via cAMP.
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PMID:The effect of prostaglandin E2 on costochondral chondrocyte differentiation is mediated by cyclic adenosine 3',5'-monophosphate and protein kinase C. 952 68

Collagenase-1 (matrix metalloproteinase-1 (MMP-1)) degrades the extracellular matrix and enhances the invasive phenotype of tumor cells. v-src activated MMP-1 transcription through a series of elements in the proximal promoter, including the E2BP (nt -172), polyoma virus enhancer A3 (PEA3) (nt -94), activator protein-1 (AP-1) (nt -72), and signal transducer and activator of transcription (STAT) (nt -57) consensus sites. Of these sites, PEA3 and STAT contributed specifically to induction by v-src, whereas the remaining elements were also involved in induction by the phorbol ester phorbol myristate acetate (PMA). However, in contrast to MMP-1 induction by PMA, an AP-1 site located at nt -186 did not contribute to v-src induction. These results suggest divergence of the tyrosine kinase- and protein kinase C-dependent pathways with respect to MMP-1 transcription. v-src induced MMP-1 through mitogen-activated protein kinases, with extracellular signal-regulated kinases playing a larger role than c-jun N-terminal kinase. Retinoic acid, which inhibits the progression of certain cancers, repressed v-src-induced MMP-1 transcription. Constitutive expression of retinoic acid receptors (RARs) alpha or beta, but not gamma, or of retinoid X receptor alpha, repressed v-src-induced collagenase-1 transcription. We concluded that oncogenic induction of MMP-1 by v-src depends on signaling pathways and cis-acting sequences that are distinct from those involved in phorbol ester activation. Furthermore, v-src induction of MMP-1 may, by acting in concert with other genes, enhance matrix degradation and tumor progression, and retinoic acid and RARs may antagonize this induction in an RAR type-specific manner.
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PMID:v-src activation of the collagenase-1 (matrix metalloproteinase-1) promoter through PEA3 and STAT: requirement of extracellular signal-regulated kinases and inhibition by retinoic acid receptors. 953 51

Collagenase-3 (MMP-13) is a matrix metalloproteinase (MMP) originally identified in breast carcinomas which is also produced at significant levels during fetal ossification and in arthritic processes. In this work, we have found that transforming growth factor beta1 (TGF-beta1), a growth factor widely assumed to be inhibitory for MMPs, strongly induces collagenase-3 expression in human KMST fibroblasts. In contrast, this growth factor down-regulated the expression in these cells of collagenase-1 (MMP-1), an enzyme highly related to collagenase-3 in terms of structure and enzymatic properties. The positive effect of TGF-beta1 on collagenase-3 expression was dose- and time-dependent, but independent of the effects of this growth factor on cell proliferation rate. Analysis of the signal transduction mechanisms underlying the up-regulating effect of TGF-beta1 on collagenase-3 expression demonstrated that this growth factor acts through a signaling pathway involving protein kinase C and tyrosine kinase activities. Functional analysis of the collagenase-3 gene promoter region revealed that the inductive effect of TGF-beta1 is partially mediated by an AP-1 site. Comparative analysis with the promoter region of the collagenase-1 gene which contains an AP-1 site at equivalent position, confirmed that TGF-beta1 did not have any effect on CAT activity levels of this promoter. Finally, by using electrophoretic mobility shift assays and antibody supershift analysis, we propose that c-Fos, c-Jun, and JunD may play major roles in the collagenase-3 activation by TGF-beta1 in human fibroblasts.
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PMID:Differential effects of transforming growth factor-beta on the expression of collagenase-1 and collagenase-3 in human fibroblasts. 954 14

The receptor-mediated activation of phospholipase D (PLD) is a major signaling pathway in several cell systems. This study determined the effects of epidermal growth factor (EGF) on PLD activity in normal rat osteoblastic cells. Primary cultures were obtained from fetal rat calvaria by sequential collagenase digestion and seeded in BGJb media supplemented with 10% fetal calf serum. PLD activity was assayed by the transphosphatidylation reaction in [H3]myristic acid (5 microCi/ml)-labeled cells treated with EGF in the presence of 5% ethanol and measuring the production of phosphatidylethanol (PEtOH). Lipids were extracted and separated by thin-layer chromatography, detected by iodine staining, and the areas of interest were scraped off and transferred to vials for scintillation counting. EGF significantly increased PEtOH production in a dose-dependent manner and at short (10-60 s) and long (up to 30 minutes) incubation periods (p < 0.05). Phosphatidic acid levels were also significantly increased (p < 0.05) compared with unstimulated controls, but the levels were approximately 60% less than those of PEtOH. 4b-phorbol 12-myristate, 13-acetate (PMA) also produced a significant increase in PEtOH levels when compared with unstimulated control cultures, but when PMA was added together with EGF, the production of PEtOH was reduced about 30%. Pretreatment of cells with the protein kinase C (PKC) inhibitor H-7 caused a significant increase in PEtOH levels, compared with cells stimulated with EGF alone. Preincubation of cells with pertussis toxin produced a partial decrease in PEtOH levels. This study demonstrates that EGF activates the PLD signaling cascade in normal rat osteoblastic cells and that the pathway appears to involve, at least in part, a PKC- and Gi protein-dependent mechanism.
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PMID:Activation of phospholipase D signaling pathway by epidermal growth factor in osteoblastic cells. 979 79

It has been shown that glomerular angiotensin II (ANG II) receptors are downregulated and protein kinase C (PKC) is activated under diabetic conditions. We, therefore, investigated ANG II receptor and PKC isoform regulation in glomerular mesangial cells (MCs) under normal and elevated glucose concentrations. MCs were isolated from collagenase-treated rat glomeruli and cultured in medium containing normal or high glucose concentrations (5.5 and 25.0 mM, respectively). Competitive binding experiments were performed using the ANG II antagonists losartan and PD-123319, and PKC analysis was conducted by Western blotting. Competitive binding studies showed that the AT1 receptor was the only ANG II receptor detected on MCs grown to either subconfluence or confluence under either glucose concentration. AT1 receptor density was significantly downregulated in cells grown to confluence in high-glucose medium. Furthermore, elevated glucose concentration enhanced the presence of all MC PKC isoforms. In addition, PKCbeta, PKCgamma and PKCepsilon were translocated only in cells cultured in elevated glucose concentrations following 1-min stimulation by ANG II, whereas PKCalpha, PKCtheta, and PKClambda were translocated by ANG II only in cells grown in normal glucose. Moreover, no changes in the translocation of PKCdelta, PKCiota, PKCzeta, and PKCmu were detected in response to ANG II stimulation under euglycemic conditions. We conclude that MCs grown in high glucose concentration show altered ANG II receptor regulation as well as PKC isoform translocation compared with cells grown in normal glucose concentration.
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PMID:Regulation of angiotensin II receptors and PKC isoforms by glucose in rat mesangial cells. 1033 51

Total protein kinase C (PKC) activity in human skin fibroblasts increases during in vivo aging as a function of the donor's age. During in vitro aging protein kinase C activity is also increased, as a function of cell passage number. Using PKC isoform specific antibodies, we demonstrate that the increase in total PKC activity is mainly due to the PKC a isoform. PKC alpha protein expression increased up to 8 fold during in vivo aging. Collagenase (MMP-1) gene transcription and protein expression also increased with age, concomitant with the increase in protein kinase C alpha. Furthermore, alpha-tocopherol, which inhibits protein kinase C activity, is able to diminish collagenase gene transcription without altering the level of its natural inhibitor, tissue inhibitor of metalloproteinase, TIMP-1. We propose that an aging program leads to increased protein kinase C alpha expression and activity. This event would induce collagenase overexpression followed by increased collagen degradation. Our in vitro experiments with skin fibroblasts suggest that alpha-tocopherol may protect against skin aging by decreasing the level of collagenase expression, which is induced by environmental insults and by aging.
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PMID:Age-dependent increase of collagenase expression can be reduced by alpha-tocopherol via protein kinase C inhibition. 1051 76

The changes in total Mg were compared with changes in cytosolic free Mg(2+) during metabolic stimulation of collagenase-dispersed rat cardiac myocytes or Langendorff-perfused rat hearts. In myocytes the addition of agents leading to cAMP increase or protein kinase C activation results in a loss or gain of more than 5% of total Mg content within 3 min (i.e., 3-4 nmol Mg/mg protein). Under the same conditions, changes in cytosolic free Mg(2+) measured with fluorescent indicator are small and result in changes of cytosolic free Mg(2+) equivalent to 90-140 microM. In perfused hearts, beta-adrenergic stimulation results in a loss of total Mg larger than 0.5 micromol per gram of heart corresponding to 9% loss of total Mg content of the heart (estimated to be 5.8 micromol). Under these conditions there is no change in cytosolic free Mg(2+) or the major buffer of cytosolic Mg(2+), ATP, as measured by (31)P NMR. These data suggest that a major redistribution of total Mg occurs in intracellular organelles or in cytosolic buffers in order to maintain cytosolic free Mg(2+) relatively unchanged during the observed cellular massive translocation of total Mg. Hence, Mg(2+) may regulate metabolic functions not within the cytosol but in locations where its concentration oscillates, such as extracellular fluid and intracellular compartments.
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PMID:Relationship between total and free cellular Mg(2+) during metabolic stimulation of rat cardiac myocytes and perfused hearts. 1066 23

Vitamin E was originally considered a dietary factor of animal nutrition especially important for normal reproduction. The significance of vitamin E has been subsequently proven as a radical chain breaking antioxidant that can protect the integrity of tissues and play an important role in life processes. More recently alpha-tocopherol has been found to possess functions that are independent of its antioxidant/radical scavenging ability. Absorption in the body is alpha-tocopherol selective and other tocopherols are not absorbed or are absorbed to a lesser extent. Furthermore, pro-oxidant effects have been attributed to tocopherols as well as an anti-nitrating action. Non-antioxidant and non-pro-oxidant molecular mechanisms of tocopherols have been also described that are produced by alpha-tocopherol and not by beta-tocopherol. alpha-Tocopherol specific inhibitory effects have been seen on protein kinase C, on the growth of certain cells and on the transcription of some genes (CD36, and collagenase). Activation events have been seen on the protein phosphatase PP2A and on the expression of other genes (alpha-tropomyosin and Connective Tissue Growth Factor). Non-antioxidant molecular mechanisms have been also described for gamma-tocopherol, delta-tocopherol and tocotrienols.
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PMID:Vitamin E: non-antioxidant roles. 1079 17

Islets from fed and 24-h-fasted rats were studied immediately after collagenase isolation. (1) After a 24-h fast, the insulin secretory responses to 8 mM glucose measured during perifusion were reduced by more than 90% from islets of fasted donors. (2) Increasing glucose to 11 or 27.5 mM resulted in enhanced insulin secretion from islets of fasted animals. (3) Fasting did not reduce islet insulin content. (4) Responses to 8 or 27.5 mM glucose were not affected if fatty acid-free albumin was used during the perifusion. (5) Inclusion of alpha-ketoisocaproate (5 mM), monomethyl succinate (10 mM) or carbachol (10 microM) significantly amplified insulin release from fasted islets in the simultaneous presence of 8 mM glucose. (6) Phospholipase C activation by glucose, carbachol or their combination was not adversely affected by fasting. (7) The response to the protein kinase C activator, phorbol 12-myristate 13-acetate (500 nM), was reduced by about 60% after fasting. (8) Extending the fast to 48 h resulted in a severe decline in response to 11 mM glucose; however, the further addition of 10 microM carbachol still enhanced release from these islets. The results confirm that caloric restriction impairs islet sensitivity to glucose stimulation and that protein kinase C may be involved in the reduction of glucose-induced insulin release from these islets. The activation of phospholipase C by cholinergic stimulation may contribute to the maintenance of insulin secretion from calorically restricted animals. These results also demonstrate that free fatty acids are not essential for glucose to evoke secretion from isolated islets of fasted donors.
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PMID:Glucose-induced insulin secretion from islets of fasted rats: modulation by alternate fuel and neurohumoral agonists. 1085 89


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