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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)
Mannan, a ligand for the
mannose
/N-acetylglucosamine (GlcNAc) receptor, induces suppression of oxygen consumption and increases glucose production in the perfused rat liver, and repeated infusion of mannan causes desensitization of the responses. In this study, we examined whether activation of Kupffer cells by endotoxin and phorbol ester alters the glycogenolytic responses to mannan. Infusion of lipopolysaccharide (LPS, 10 micrograms/ ml) in the perfusate failed to inhibit the responses to mannan. Intravenous administration of LPS (1 mg/kg) 6 and 24 h before perfusion did not desensitize the responses to mannan, suggesting that the responses through
mannose
/GlcNAc receptors in the liver are retained even after activation of Kupffer cells by LPS. In contrast, prior infusion of phorbol 12-myristate 13-acetate (PMA, 100 nM) in vitro abolished the glycogenolytic responses to subsequently infused mannan, but not that to norepinephrine (100 nM), while prior infusions of 4-alpha-phorbol 12,13-didecanoate (100 nM), A23187 (50 nM), or forskolin (1 microM) had no effect on the mannan-induced responses. H-7, an inhibitor of
protein kinase C
, reduced the glycogenolytic responses to mannan, while it failed to restore the desensitization. These results suggest that
protein kinase C
may be involved in the process of glycogenolysis by mannan, but is unlikely to be involved in the homologous desensitization of the responses.
...
PMID:Phorbol ester, but not endotoxin, desensitizes mannan-induced glycogenolysis in the perfused rat liver. 890 10
Amphiregulin (AR) can be induced at the mRNA level by 17-beta-estradiol (E2) or the phorbol ester tumor promoter 12-O-tetradecanoylphorbol-13-acetate (TPA). This study compares the effects of TPA and E2 on the regulation of processing of AR isoforms and on subcellular localization in human MCF-7 breast cancer cells. AR was localized in the nucleus of MCF-7 cells after E2 treatment, whereas it was predominantly secreted after TPA treatment. AR isoforms of 28, 18, and 10 kDa and an additional species of approximately 55-60 kDa were detected in the cellular conditioned media after TPA stimulation. Expression of this unusual AR isoform was inhibited by
protein kinase C
(
PKC
) inhibitors such as bryostatin or H-7. The biochemical properties of this isoform are consistent with it being an N-linked glycosylated form of the AR precursor that contains unprocessed
mannose
residues. The size of this large isoform is reduced to approximately 40 kDa after treating the TPA-induced MCF-7 cells with tunicamycin or treating the conditioned media of such cells with N-glycosidase F or with endoglycosidase H. Moreover, this isoform is able to blind several lectins with specificity for
mannose
residues. The 55-60 kDa glycosylated AR isoform, like lower Mr AR isoforms, is able to bind to heparin and to stimulate the growth of MCF-10A cells by interacting with the EGF receptor. These data suggest that TPA activation of
PKC
may be involved in post-translational modifications of AR, such as glycosylation, and in alteration of its subcellular routing to predominantly a secretory pathway.
...
PMID:Characterization of a novel amphiregulin-related molecule in 12-O-tetradecanoylphorbol-13-acetate-treated breast cancer cells. 895 99
We studied the modulation of the inducible nitric oxide synthase (iNOS) in cultured rat smooth muscle cells using high concentrations of glucose. A dose-dependent decrease in the nitric oxide production induced by IL-1beta was observed when cell cultures were pretreated with high glucose. In addition, the down-regulation of nitric oxide production was also time- and dose-dependent. The decrease of nitric oxide production paralleled the decrease in the expression of iNOS. Protein kinase C inhibitor ameliorated the down-regulation of cytokine-induced nitric oxide production by high concentrations of glucose. Hyperosmolar concentrations of
mannose
had no effect on nitric oxide production. These findings suggest that high glucose in combination with stimulation by IL-1beta decreases iNOS expression and nitric oxide production, and
protein kinase C
activation may be playing a role in the inhibition of nitric oxide production by high glucose.
...
PMID:Glucose-induced down-regulation of NO production and inducible NOS expression in cultured rat aortic vascular smooth muscle cells: role of protein kinase C. 895 84
Na+/glucose cotransporters (SGLTs) are expressed in the small intestine and the proximal renal tubule, where they play a central role in the absorption of glucose and
galactose
from food and the reabsorption of glucose from the glomerular filtrate. The regulation of intestinal sugar absorption occurs over two distinct time scales, one over days and the other over minutes. This review focuses on the mechanisms involved in the shorter-term regulation. Recent studies of the mouse intestine in vitro demonstrated that Na+/glucose cotransport is increased two- to eightfold within minutes by the application of forskolin, an agent that increases intracellular cyclic AMP levels. Here we explore how cyclic AMP may upregulate Na+/glucose cotransport. Our strategy was to express cloned SGLT1s in Xenopus laevis oocytes and then use electrophysiological methods to measure (i) the kinetics of Na+/glucose cotransport, (ii) the number of cotransporters in the plasma membrane, and (iii) the net rate of exo- and endocytosis before and after activation of protein kinases. To evaluate the role of cotransporter phosphorylation, we have examined the effect of protein kinase activation on various SGLT1 isoforms and other cotransporters. In oocytes expressing rabbit SGLT1, the activation of protein kinase A (PKA) increased the maximum rate of Na+/glucose cotransport by 30%, and the activation of
protein kinase C
(
PKC
) decreased the maximum rate of transport by 60%. Changes in maximum transport rates were accompanied by proportional changes in the number of cotransporters in the plasma membrane and by changes in the area of the membrane. We conclude that PKA and
PKC
regulate rabbit SGLT1 activity by modulating the number of cotransporters in the plasma membrane and that this occurs through regulation of exocytosis and endocytosis. Given the size of intracellular transport vesicles containing SGLT1, 100-120 nm in diameter, and the density of cotransporters in these vesicles, 10-20 per vesicle, we estimate that the net rate of SGLT1 vesicle exocytosis is about 10,000 s-1 and that this rate increases 100-fold after activation of PKA. The effect of PKA is independent of the presence or absence of consensus sites for phosphorylation on SGLT1. Surprisingly, the effects of PKA or
PKC
depend critically on the sequence of the contransporter being expressed in the oocyte, e.g. activation of
PKC
inhibited rabbit and rat SGLT1, but stimulated human SGLT1. This dependency suggests that the regulation of vesicle trafficking by protein kinases depends upon the structure of the cotransporter expressed in the oocyte. Similar considerations apply to other classes of cotransporters, such as the neurotransmitter and dipeptide cotransporters. Our working hypothesis is that the regulation of cotransporter expression by protein kinases occurs largely by regulated exo- and endocytosis, and that the effect of the protein kinases is indirect and determined by critical domains in the cotransporter.
...
PMID:Regulation of Na+/glucose cotransporters. 905 Feb 36
In cultured mesangial cells (MC), capacitative Ca2+ influx via store-operated channels (SOC) is potentiated by agents that release Ca2+ from intracellular stores, and inhibited by
protein kinase C
(
PKC
). Cells grown under high glucose conditions, as a model of the diabetic microenvironment, display reduced Ca2+ signalling in response to vasoconstrictors, probably due to downregulation by elevated
PKC
activity. Since SOC might be relevant to this phenomenon, we assessed Ca2+ influx by microfluorometry of fura-2-loaded rat MC cultured for 5 days in normal (5.5 mmol/l, NG) or high glucose (30 mmol/l, HG). The addition of 1-10 mmol/l Ca2+ to NG cells equilibrated in Ca(2+)-free media induced an immediate Ca2+ influx with a free cytosolic Ca2+ ([Ca2+]i) plateau of 155 +/- 50 and 318 +/- 114 nmol/l, respectively. Basal influx was reduced to 88 +/- 8 and 145 +/- 17 nmol/l [Ca2+]i (1-10 mmol/l Ca2+, p < 0.01) by 30 mmol/l
D-glucose
. This effect of HG was confirmed by Mn2+ quenching of fura-2, indicating reduced entry of divalent cations via the capacitative pathway. Equimolar L-glucose had no effect on Ca2+ influx, consistent with a non-osmotic mechanism. Arginine vasopressin (10 mumol/l) elicited weaker release of stored Ca2+ and subsequent influx in HG cells (191 +/- 33 vs 153 +/- 24 nmol/l, 400 +/- 76 vs 260 +/- 33 nmol/l, 1-10 mmol/l Ca2+, NG/HG, p < 0.05). To examine the involvement of
PKC
in the effect of HG on capacitative Ca2+ influx, the enzyme was activated or downregulated by treatment with 0.1 mumol/l phorbol myristate acetate (PMA) for 3 min or 24 h, respectively. PMA acutely inhibited Ca2+ influx in NG cells, while
PKC
downregulation restored it in HG cells. Similarly, the
PKC
inhibitors staurosporin or H-7 normalized SOC activity in HG cells. In summary, impairment of Ca2+ influx via SOC by HG is one mechanism of the reduced MC [Ca2+]i responsiveness to vasoconstrictors. This event is mediated by
PKC
and may contribute to the glomerular haemodynamic changes in the initial stages of diabetes mellitus.
...
PMID:High glucose level inhibits capacitative Ca2+ influx in cultured rat mesangial cells by a protein kinase C-dependent mechanism. 916 19
We studied the hypothesis that, in energy-depleted endothelial cells, Ca(2+)-dependent activation of
protein kinase C
(
PKC
) causes phosphorylation of vinculin and that this effect is involved in the early loss of endothelial barrier function. Vinculin localization and phosphorylation,
PKC
activity, and albumin permeability were studied in cultured coronary endothelial monolayers from rats. Ten minutes after the onset of metabolic inhibition by 5 mM potassium cyanide and 5 mM 2-deoxy-
D-glucose
, immunofluorescence of vinculin at cell-to-cell and cell-to-matrix contacts faded, whereas total cellular vinculin content remained unchanged. During the same time period, vinculin phosphorylation at tyrosine and serine sites increased by 3.9- and 3.5-fold, respectively. Vinculin phosphorylation was related to activation of
PKC
and an unidentified tyrosine kinase and was elicited by a rise in cytosolic Ca2+ within energy-depleted endothelial cells. Conditions inhibiting vinculin phosphorylation also reduced monolayer permeability induced by energy depletion. These data indicate that vinculin phosphorylation is involved in the progression of hyperpermeability during energy depletion in coronary endothelial monolayers.
...
PMID:Vinculin phosphorylation and barrier failure of coronary endothelial monolayers under energy depletion. 927 75
Hyperglycemia is an independent risk factor for the development of diabetic microvascular disease. Vascular permeability factor (VPF)/vascular endothelial growth factor (VEGF) is a potent cytokine family that induces angiogenesis and markedly increases endothelial permeability. VPF is produced by many cell types, including vascular smooth muscle (VSM) cells, and has been implicated in the pathogenesis of neovascularization and endothelial dysfunction in diabetes. This study used cultured human VSM cells to study the regulation of VPF production and determine whether elevated glucose concentrations, per se, are a sufficient stimulus for increased VPF production by human cells. In human VSM cells, high extracellular glucose concentrations (20 mmol/l) increased VPF mRNA expression within 3 h (3-fold vs. glucose 5 mmol/l) and significantly increased VPF peptide production within 24 h (1.5-fold) in a time- and glucose concentration-dependent manner. The high glucose-induced increase in VPF mRNA expression was rapidly reversed after normalizing the extracellular glucose concentration and was specific for a high
D-glucose
concentration, as these effects were not reproduced by osmotic control media containing elevated concentrations of mannitol or L-glucose. High glucose concentrations activate
protein kinase C
(
PKC
) in human VSM cells, and
PKC
inhibitors (H-7 or chelerythrine chloride) or
PKC
downregulation each prevented the glucose-induced increases in VPF mRNA expression by human VSM cells. In conclusion, high glucose concentrations directly increase VPF mRNA expression and peptide production by human VSM cells via a
PKC
-dependent mechanism. These results demonstrate a cellular mechanism, whereby hyperglycemia could directly contribute to the development of endothelial dysfunction and neovascularization in diabetes.
...
PMID:Glucose-induced protein kinase C activation regulates vascular permeability factor mRNA expression and peptide production by human vascular smooth muscle cells in vitro. 928 52
We have investigated the effect of glucose on insulin-like growth factor II (IGF-II) binding to, and intracellular phosphorylation of, the IGF-II/
mannose
6-phosphate (M6P) receptor in the insulin-secreting cell line RINm5F. Glucose, at a concentration of 3 mM, significantly increased binding of IGF-II to the cells. A further increase of the binding was observed at a glucose concentration of 10 mM. Scatchard analysis showed that the increased binding was caused by an increased number of the receptors rather than changes in affinity. This effect of glucose was also demonstrated in another insulin-secreting cell line HIT as well as in the human erythroleukemia cell line K562. Affinity cross-linking of the RINm5F cells, using 125I-IGF-II, revealed increased binding to the IGF-II/M6P receptor induced by glucose. The effect of glucose on IGF-II binding was mimicked by fructose (10 mM), but not by 3-O-methylglucose (10 mM), and was abolished by the
protein kinase C
(
PKC
) inhibitor calphostin C, or down-regulation of
PKC
, but not by the protein phosphatase inhibitor, okadaic acid. Glucose dose dependently stimulated phosphorylation of the IGF-II/M6P receptor, an effect that was inhibited by down-regulation of
PKC
activity. This study suggests that the distribution of the IGF-II/M6P receptor in insulin-secreting cells can be regulated by glucose-induced phosphorylation, a mechanism mediated by
PKC
.
...
PMID:Glucose increases both the plasma membrane number and phosphorylation of insulin-like growth factor II/mannose 6-phosphate receptors. 929 13
Hypertrophy of mesangial cells is an early hallmark of diabetic nephropathy. We have previously shown that murine mesangial cells (MMC), cultured in high-glucose medium, are arrested in the G1 phase of the cell cycle and undergo hypertrophy. This study was undertaken to test whether high glucose-containing medium influences the expression of p27Kip1, an inhibitor of G1 phase active cyclin-dependent kinases (CDK). Incubation of MMC, in the absence of other factors for 48-96 h, in medium containing high
D-glucose
(450 mg/dl), stimulated p27Kip1 protein expression but failed to influence mRNA abundance. These effects were independent of the osmolarity of the medium. High glucose-stimulated expression of p27Kip1 involved activation of
protein kinase C
and was partly dependent on induction of transforming growth factor-beta (TGF-beta). Immunoprecipitation experiments revealed that only small amounts of p27Kip1 protein from MMC grown in high-glucose medium preferentially associates with CDK2 but not with CDK4. The p27Kip1 antisense, but not missense, oligonucleotides inhibited high glucose-stimulated total protein synthesis and facilitated G1 phase exit. Our data showed for the first time that expression of p27Kip1 protein is pivotal in mesangial cell hypertrophy induced by high ambient glucose. These findings may be important in the deciphering of molecular processes causing diabetic glomerular hypertrophy.
...
PMID:High glucose stimulates expression of p27Kip1 in cultured mouse mesangial cells: relationship to hypertrophy. 932 7
Thickening and reduplication of the tubular basement membrane has been reported as an early event in diabetic nephropathy. In the current study we examined the effects of elevated
D-glucose
concentrations on human proximal tubular (HPTC) type IV collagen and fibronectin turnover. Incubation of confluent growth arrested HPTC with 25 mM
D-glucose
led to accumulation of both type IV collagen and fibronectin. This effect was maximal at 48 hours and represented a sevenfold increase for fibronectin (N = 4, P = 0.04), and a threefold increase for type IV collagen (N = 3, P = 0.03) over cells exposed to 5 mM
D-glucose
controls. This increase was not dependent on new gene transcription for either protein. Tissue inhibitor of metalloproteinases (TIMP 1 + TIMP 2) were induced following addition of 25 mM
D-glucose
, but not when cells were exposed to 5 mM
D-glucose
. Twenty-four hours after the addition of 25 mM
D-glucose
there was an eightfold increase in TIMP 1 (P = 0.009, N = 4), and a tenfold increase in TIMP 2 levels (P = 0.003, N = 4), over the control values for both inhibitors. The increase in both TIMP 1 and TIMP 2 in response to 25 mM
D-glucose
was abrogated in a dose dependent manner by the aldose reductase inhibitor sorbinil. Gelatin-substrate gel zymography showed increased activity of gelatinase A, but not of gelatinase B in response to the addition of 25 mM
D-glucose
to HPTC. The induction of gelatinase A was accompanied by increased gelatinase A mRNA expression, which was inhibited both by
protein kinase C
(
PKC
) depletion using PMA pre-treatment, and by the addition of a
PKC
inhibitor. These data demonstrate that the glucose-induced accumulation of type IV collagen and fibronectin is unrelated to increased gene transcription, but may involve alterations in the degradative pathway of these basement membrane constituents. Furthermore, the data demonstrate that glucose may simultaneously activate two intracellular pathways (the polyol pathway and a
PKC
dependent activation pathway), which are involved in mediating separate, complementary effects on cell function.
...
PMID:Exposure of human renal proximal tubular cells to glucose leads to accumulation of type IV collagen and fibronectin by decreased degradation. 932 36
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