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Query: UMLS:C0011849 (
diabetes
)
277,896
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We evaluated whether insulin-receptor tyrosine kinase activity is required for activation of PDH, insulin-induced hydrolysis of PIG and generation of IG and 1,2-
DAG
. For the analysis, we used stable-transfected CHO cell lines expressing wild-type human insulin receptor (CHO-wt cells) or the mutant receptor (Val996) that lacks tyrosine kinase activity (CHO-mut cells) (1,2). Insulin stimulated PDH activity in three CHO cell lines in a dose-dependent manner. Half-maximal concentrations of insulin to activate PDH was 7 x 10(-11) M in the CHO-wt cells, 10(-9) M in the parental cells, and 8 x 10(-9) M in the CHO-mut cells. Insulin stimulated hydrolysis of PIG and generation of IG and
DAG
in three CHO cell lines in a dose-dependent manner. Half-maximal concentrations of insulin to induce generation of IG was 8 x 10(-11) M in the CHO-wt cells, 10(-9) M in the parental CHO cells, and 10(-8) M in the CHO-mut cells. ED50 for the stimulation of
DAG
generation was 7 x 10(-11) M in the CHO-wt cells, 10(-9) M in the parental cells, and 10(-8) M in the CHO-mut cells. It is concluded that insulin-dependent PDH activation, PIG hydrolysis, and IG and
DAG
generation are mediated by the wild-type but not by the mutated insulin receptor of Val996. This study suggests that tyrosine kinase activity of the insulin receptor might be a prerequisite for insulin-stimulated generation of IG and
DAG
.
Diabetes
1992 Nov
PMID:Mutated insulin receptor Val996 reduces insulin-dependent generation of inositol glycan and diacylglycerol. 132 26
Because retinal pericytes have contractile properties and are affected by
diabetes
, we have studied the responsiveness of pericytes to ET-1, a potent vasoconstrictor, in the presence of various concentrations of glucose. Cultured calf retinal pericytes were exposed to glucose levels of 5.5 or 25 mM for up to 8 days. Radioreceptor studies that used [125I]ET-1 showed that pericytes contained high-affinity binding sites with Kd of 3 x 10(-10) M, and these binding affinities were unaffected by glucose concentration. Receptor number appears to be elevated, but this increase was NS. Responsiveness of pericytes to ET-1 was studied with respect to stimulation of
DAG
and IP3 levels and PKC activities. In contrast to receptor binding, exposure to 25 mM glucose for > 6 days blunted pericyte responsiveness to ET-1. The time course of ET-1 stimulation as measured by [3H]glycerol labeling, and IP3 level showed a 98% increase in [3H]
DAG
at 10 min and a fourfold increase for IP3, respectively. Cells exposed to 25 mM glucose only had a 32% increase for
DAG
, and no increase for IP3 was observed. Dose-response studies on the stimulation of [3H]
DAG
increase showed the range of ET-1's effect to be between 10(-9) and 10(-7) M. At maximum, cells exposed to 5.5 mM glucose had a 70% increase versus only a 30% increase in those exposed to 25 mM glucose. Similarly, ET-1 only increased the total
DAG
levels in pericytes exposed to 5.5 mM glucose by 41%. PKC activity also was measured because
DAG
is one of its cellular activators.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes
1992 Dec
PMID:Induction of resistance to endothelin-1's biochemical actions by elevated glucose levels in retinal pericytes. 144 93
Diabetic retinopathy is one of the leading causes of vision loss in industrialized countries. Despite recent advances, the biochemical basis for the development of this diabetic complication is uncertain. Although retinal circulation is unique in that it is readily observable noninvasively, retinal tissue is extremely difficult to study in humans because of the problems inherent in obtaining fresh, appropriate biopsy material. Moreover, because of the difficulties in working with animal models of diabetic retinopathy, such as the dog, many investigators have turned to cell-culture models, especially those using primary cultures of retinal capillary endothelial cells and pericytes. Diabetic retinopathy involves both morphological and functional changes in the retinal capillaries. Morphological changes include basement membrane thickening and pericyte disappearance; functional changes include one important early change--increased permeability--which may be attributable to endothelial cell changes and basement membrane leakiness. Investigators have described major biochemical changes in cellular signaling pathways, including myo-inositol, inositol phosphates, and
DAG
metabolism, as well as decreased Na(+)-K(+)-ATPase and increased PKC activity. These defects may be related to the way endothelial cells and pericytes synthesize and interact with the extracellular matrix. Abnormalities in endothelial cell or pericyte interaction with the basement membrane may in turn lead to functional abnormalities, such as increased permeability.
Diabetes
Care 1992 Dec
PMID:Current hypotheses for the biochemical basis of diabetic retinopathy. 146 44
Retinal capillary pericyte is a cell type selectively lost in early diabetic retinopathy. The physiological function of pericytes is not yet clearly identified, although it probably has contractile properties. We determined the specific binding of endothelin 1, a 21-amino acid peptide with potent vasoconstrictive action, and the stimulation of diacylglycerol/protein kinase C (
DAG
/PKC) pathway in cultured retinal capillary pericytes by endothelin. A single specific binding site for 125I-labeled endothelin was identified, with an apparent Kd of 1.3 nM and a maximal binding capacity of approximately 1-2 x 10(5) sites/cell. Endothelin (100 nM) increased total cellular
DAG
content by 15% at 5 min and 24% at 10 min. When pericytes were labeled isotopically with [3H]glycerol, endothelin stimulated [3H]
DAG
formation by 100% at 10 min and 88% at 30 min. After 10 min of endothelin treatment, PKC activities were increased by 60 and 100% in the membranous and cytosolic pools, respectively. We conclude that bovine retinal capillary pericytes possess numerous high-affinity specific binding sites for endothelin that mediate the action of endothelin by the stimulation of the
DAG
/PKC pathway in pericytes. These findings suggest that endothelin is a regulator of the contractile properties of pericytes, which may be adversely affected in diabetic retinopathy.
Diabetes
1989 Dec
PMID:Characterization of endothelin receptors and effects of endothelin on diacylglycerol and protein kinase C in retinal capillary pericytes. 839 Feb 75
Insulin binding to its receptor has been known to induce hydrolysis of phosphatidylinositol-glycan and release inositol-glycan and diacylglycerol, two putative second messengers of insulin actions. We metabolically labeled and purified PIG in rat cultured adipocytes. The treatment of [3H]glycerol-labeled PIG with phosphatidylinositol-specific phospholipase C released [3H]glycerol-labeled
DAG
and [3H]glycerol-labeled 1-alkyl,2-acyl-glycerol, suggesting that PIG has not only PIG but also plasmanylinositol-glycan moiety. Insulin induced hydrolysis of PIG/PMIG and generation of IG,
DAG
, and AAG in a dose-dependent manner. This report shows the first demonstration of insulin-sensitive PMIG in rat adipocytes. These results provide evidence that insulin-induced generation of IG,
DAG
, and AAG might be early events in the insulin-signaling mechanism in rat adipocytes, and insulin-releasable AAG seems to mediate some actions of insulin.
Diabetes
1993 Jul
PMID:Insulin stimulates hydrolysis of plasmanylinositol-glycan and phosphatidylinositol-glycan in rat adipocytes. Insulin-induced generation of inositol glycan, alkylacylglycerol, and diacylglycerol. 839 Mar 76
D-glucose induces a rise in pancreatic islet beta-cell cytosolic [Ca2+] by processes requiring both glucose metabolism and Ca2+ entry from the extracellular space, and this Ca2+ signal is thought to be critical to the induction of insulin secretion. Insulin secretagogues also induce phospholipid hydrolysis and accumulation of phospholipid-derived mediators in islets, including the lipid messengers
DAG
, nonesterified arachidonic acid, and arachidonate 12-LO products. This study offers the following viewpoints on potential roles of these lipid messengers in insulin secretion as working hypotheses: 1) the Ca2+ signal provided to the beta-cell by D-glucose induces insulin secretion only in the context of amplifying background signals provided by the beta-cell content of messengers including
DAG
; 2) muscarinic receptor agonists amplify glucose-induced insulin secretion in part by altering the beta-cell content of
DAG
; 3) the Ca2+ signal provided by metabolism of D-glucose is amplified by the level of nonesterified arachidonic acid in beta-cell membranes, which acts to facilitate Ca2+ entry; 4) metabolism of glucose induces accumulation of nonesterified arachidonate in beta-cells via activation of a recently identified ASCI-PLA2 enzyme, which may be a component of the beta-cell fuel sensor apparatus; and 5) arachidonate 12-LO metabolites are potential candidates as adjunctive modulators of beta-cell K(+)-channel activity.
Diabetes
1993 Mar
PMID:Amplification of insulin secretion by lipid messengers. 843 6
A serious insulin resistance characterizes pancreatic cancer-associated
diabetes mellitus
. Elsewhere, we demonstrated that MIA PaCa2 cultured cells secrete a soluble factor responsible for reduced glucose tolerance induced in SCID mice. The intracellular mechanism of insulin resistance was investigated in isolated and perfused rat hepatocytes incubated with MIA PaCa2 conditioned medium. Lactate production was reduced compared to hepatocytes incubated with control medium while 1,2-
DAG
was increased and PKC was activated in the hepatocytes incubated with MIA PaCa2 conditioned medium. This behavior was not reproduced treating the hepatocytes with the growth factors EGF, interleukin Ibeta, interleukin-6, and TGF-beta1. In an attempt to make a biochemical identification of the hypothesized tumor associated-diabetogenic factors we observed a low molecular weight protein in the conditioned medium, absent in the nonconditioned one, that may be responsible for the described behaviors.
...
PMID:Glucose metabolic alterations in isolated and perfused rat hepatocytes induced by pancreatic cancer conditioned medium: a low molecular weight factor possibly involved. 1019 61
The mechanisms of insulin resistance in the obese Zucker rat have not been clearly established but increased diacylglycerol-protein kinase C (DAG-PKC) signalling has been associated with decreased glucose utilisation in states of insulin resistance and non-insulin-dependent
diabetes mellitus
. The purpose of this study was to characterise tissue- and isoform-selective differences in
DAG
-PKC signalling in insulin-sensitive tissues from obese Zucker rats, and to assess the effects of feeding on
DAG
-PKC pathways. Groups of male obese (fa/fa, n=24) and lean (fa/-, n=24) Zucker rats were studied after baseline measurements of fasting serum glucose, triglycerides, insulin and oral glucose tolerance tests. Liver, epididymal fat and soleus muscle samples were obtained from fed and overnight-fasted rats for measurements of
DAG
, PKC activity and individual PKC isoforms in cytosol and membrane fractions. Obese rats were heavier (488+/-7 vs 315+/-9 g) with fasting hyperglycaemia (10.5+/-0.8 vs 7.7+/-0.1 mM) and hyperinsulinaemia (7167+/-363 vs 251+/-62 pM) relative to lean controls. In fasted rats, PKC activity in the membrane fraction of liver was significantly higher in the obese group (174+/-16 vs 108+/-12 pmol/min/mg protein, P<0.05) but there were no differences in muscle and fat. The fed state was associated with increased
DAG
levels and threefold higher PKC activity in muscle tissue of obese rats, and increased expression of the major muscle isoforms, PKC-theta and PKC-epsilon: e.g. PKC activity in the membrane fraction of muscle from obese animals was 283+/-42 (fed) vs 107+/-20 pmol/min/mg protein (fasting) compared with 197+/-27 (fed) and 154+/-21 pmol/min/mg protein (fasting) in lean rats. In conclusion, hepatic PKC activity is higher in obese rats under basal fasting conditions and feeding-induced activation of
DAG
-PKC signalling occurs selectively in muscle of obese (fa/fa) rats due to increased
DAG
-mediated activation and/or synthesis of PKC-theta and PKC-epsilon. These changes in PKC are likely to exacerbate the hyperglycaemia and hypertriglyceridaemia associated with obesity-induced
diabetes
.
...
PMID:Tissue and isoform-selective activation of protein kinase C in insulin-resistant obese Zucker rats - effects of feeding. 1042 58
We have reported that d-alpha-tocopherol can prevent hyperglycemia-induced activation of
DAG
and PKC levels in vascular tissues as well as normalizing retinal blood flow and renal hyperfiltration. The mechanism of this effect, however, is not clear. Aside from alpha-tocopherol's principal role as an antioxidant agent, it has also been shown to act as a membrane stabilizer. Another possibility is that the effect of alpha-tocopherol is focused on the activation of
DAG
kinase, which is a key enzyme in the metabolism of
DAG
. Therefore, in this study, we examined the effect of alpha-tocopherol on the
DAG
kinase activity in vascular smooth muscle cell. We have also examined the effect of alpha-tocopherol, its analogues, and probucol on
DAG
kinase activities and expression. The present study showed that d-alpha-tocopherol's inhibitory effect on
DAG
-PKC pathway is by increasing
DAG
kinase activity in rat and human vascular smooth muscle cell (VSMC). Total
DAG
level was increased by 40 +/- 10% (mean +/- S.E.) (P < 0.05) in human VSMC, after exposure to 22 vs 5 mM glucose. This increase was normalized by d-alpha-tocopherol treatment in a concentration-dependent manner. In parallel,
DAG
kinase activation by d-alpha-tocopherol was also induced in a time- and dose-dependent manner.
DAG
kinase activity was increased by 57 +/- 19% (P < 0.05) in human VSMC and 112 +/- 35% (P < 0.05) in rat VSMC after 24 h of incubation with d-alpha-tocopherol (100 microg/ml). Another lipophilic antioxidant, probucol, also increased
DAG
kinase activity by 124 +/- 34%, but other vitamin E analogues with much less antioxidant potencies were ineffective. Western blots of various
DAG
kinase isoforms were not changed by d-alpha-tocopherol treatment. These results provide strong and detailed evidence that d-alpha-tocopherol can prevent hyperglycemia induced
DAG
-PKC activation by enhancing
DAG
kinase activity, probably through an antioxidant effect.
Diabetes
Res Clin Pract 1999 Sep
PMID:d-Alpha-tocopherol prevents the hyperglycemia induced activation of diacylglycerol (DAG)-protein kinase C (PKC) pathway in vascular smooth muscle cell by an increase of DAG kinase activity. 1058 71
Heart disease is one of the major cause of death in diabetic patients, but the pathogenesis of diabetic cardio-myopathy remains unclear. In this experiment, to assess the significance of G protein signaling pathways in the pathogenesis of diabetic cardiomyopathy, we analyzed the expression of G proteins and the activities of second messenger dependent protein kinases: cAMP-dependent protein kinase (PKA),
DAG
-mediated protein kinase C (PKC), and calmodulin dependent protein kinase II (CaM kinase II) in the streptozotocin induced diabetic rat heart. The expression of Galphaq was increased by slightly over 10% (P<0.05) in diabetic rat heart, while Galphas, Galphai, and Gbeta remained unchanged. The PKA activity in the heart did not change significantly but increased by 27% (P<0.01) in the liver. Insulin treatment did not restore the increased activity in the liver. Total PKC activity in the heart was increased by 56% (P<0.01), and insulin treatment did not restore such increase. The CaM kinase II activity in the heart remained at the same level but was slightly increased in the liver (14% increase, P<0.05). These findings of increased expression of Galphaq in the streptozotocin-diabetic rat heart that are reflected by the increased level of PKC activity and insensitivity to insulin demonstrate that alteration of Galphaq may underlie, at least partly, the cardiac dysfunction that is associated with
diabetes
.
...
PMID:Increased expression of Galphaq protein in the heart of streptozotocin-induced diabetic rats. 1063 Mar 71
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