Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.16 (calcineurin)
 17,112 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Acetyl-CoA carboxylase from liver exhibits a linear inverse relationship between the ratio of enzymic activities at 0 and 2 mM citrate and the extent of phosphorylation by its kinase, and this citrate activity ratio method was used to examine the effect of nutritional conditions on the phosphorylation state of the enzyme. This method showed that the calculated phosphorylation state, being the extent of phosphorylation at sites accessible to carboxylase kinase, was highest in the livers of starved rats, lower in those fed normally, and lower still in starved rats which had been refed for 48 h on a fat-free diet. The actual values were 0.44, 0.26, and 0 mol of P/subunit, respectively, provided that liver samples were frozen rapidly to liquid nitrogen temperatures and extracted with stopping buffers at temperatures well below freezing. Normal homogenization with stopping buffers (containing inhibitors for protein kinases and phosphatases) resulted in much higher calculated phosphorylation states. The effect of nutritional conditions on the phosphorylation state as estimated reported above was confirmed by purifying the carboxylase from livers of rats, measuring the amount of phosphate which could be incorporated by carboxylase kinase, and comparing this with the phosphorylation state calculated from the citrate activity ratio method or the specific activity. Furthermore, treatment with protein phosphatase of carboxylase from starved rats resulted in the largest increase in specific activity, that from the starved/refed rats in the least. Finally, the effects of hyperglycemia on carboxylase and phosphorylase characteristics in the livers of intact rats were ascertained by taking liver samples and preparing crude extracts by the rapid freezing method described above. Hyperglycemia caused a rapid increase in the activity of the carboxylase and a rapid decrease in its putative phosphorylation state as measured by the citrate activity ratio method. Phosphorylase was also dephosphorylated, as indicated by a decrease in phosphorylase a activity. We conclude that the citrate activity ratio method is a valid test for the phosphorylation state of acetyl-CoA carboxylase in crude extracts of tissue.
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PMID:Phosphorylation state of acetyl-coenzyme A carboxylase. II. Variation with nutritional condition. 287 34

Hepatic glycogen metabolism was investigated in genetically diabetic C57BL/KsJ-db/db mice during their development. Initially, the development of obesity, hyperglycemia, hyperinsulinemia, and hyperglucagonemia in these mice was examined, which illustrated that the diabetes progressed normally. Little difference in hepatic glycogen concentrations was observed, averaging approximately 50 and 60 mg/g liver in diabetic (db/db) and control heterozygote (db/+) mice, respectively. Glycogen synthase activity (total and a-form) was significantly elevated by 5 wk in the diabetic mice relative to controls and reached maximum levels (two-fold higher than controls) around 8-9 wk. This activity then slowly declined during the rest of the 15-wk period examined. Both phosphorylase a and total phosphorylase activities were also elevated by 5 wk, reaching levels twofold higher than controls. These activities did not decline at the end of this 15-wk period, but instead continued to slowly increase. Glycogen synthase a activity showed a positive correlation (r = 0.54, N = 144) with circulating levels of insulin, and a similar correlation was seen for phosphorylase a activity and plasma glucagon levels (r = 0.64, N = 72). Protein kinase and phosphoprotein phosphatase activities were also measured, but no differences were detected between diabetic and control mice. This longitudinal study clarifies some of the changes in hepatic glycogen metabolism that occur during the progression of diabetes in the db/db mouse and indicates a role for circulating insulin and glucagon concentrations on the steady-state activities of glycogen synthase and phosphorylase, respectively.
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PMID:Age-related changes in hepatic glycogen metabolism in the genetically diabetic (db/db) mouse. 298 86

FK506 (tacrolimus) is a strong immunosuppressant: it has been approved as a drug for liver transplantation in Japan, the United States, and the United Kingdom. One of its main adverse effects is hyperglycemia. Thus, in this study, we investigated the mechanism and the reversibility of the hyperglycemia caused by FK506. FK506 did not affect the glucose uptake by insulin into rat strio-muscle cell line, but suppressed insulin production in rat insulinoma cells. Two-week oral administration of FK506 at 10 mg/kg/day suppressed insulin production time-dependently at the transcriptional step in pancreatic beta-cells, while glucagon content in pancreatic alpha-cells was not affected. When FK506 administration was stopped in these rats, insulin mRNA transcription and insulin production returned to normal. This recovery indicates that the adverse effect of FK506 on the pancreas is reversible. A high content of FK506 binding protein-12 (FKBP-12) in the pancreatic beta-cells was confirmed by immunostaining with anti-human FKBP-12 mAb, but the content was less in the pancreatic alpha-cells and almost negligible in the acinar cells. In contrast, a high content of calcineurin in the pancreatic alpha-cells was confirmed by using anti-calcineurin polyclonal antibody, but this content was less in the pancreatic beta-cells and not found in the acinar cells. Thus, as in the case with NF-AT in T cells, these findings point to the reduction of unidentified nuclear factors for insulin mRNA transcription caused by the binding of FK506 to FKBP-12 and a subsequent inhibition of calcineurin in the beta-cells.
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PMID:Transcriptional inhibition of insulin by FK506 and possible involvement of FK506 binding protein-12 in pancreatic beta-cell. 753 60

To test the hypothesis that glucocorticoid-induced insulin resistance might originate from abnormalities in insulin receptor signaling, we investigated the effects of glucocorticoids on in vivo tyrosine phosphorylation of the insulin receptor and the insulin receptor substrate IRS-1 in rat skeletal muscle. Male Sprague-Dawley rats were treated with cortisone (100 mg/kg for 5 d) and compared to pair-fed controls. Cortisone treatment of rats resulted in both hyperglycemia and hyperinsulinemia. Anesthetized animals were injected with 10 U/kg insulin via cardiac puncture and, after 2 min, hindlimb muscles were removed, snap-frozen, and homogenized in SDS. Protein tyrosine phosphorylation was studied by immunoblotting with phosphotyrosine antibody. Insulin receptors and substrate IRS-1 were identified and quantified with specific antibodies. Cortisone treatment increased the amount of insulin receptor protein by 36%, but decreased the total level of receptor tyrosine phosphorylation (69 +/- 4% of control, P < 0.05). The decreased level of receptor phosphorylation was explained by a reduced number of receptors containing phosphorylated tyrosine residues (64.6 +/- 5% of control, P < 0.05). Glucocorticoid excess decreased skeletal muscle IRS-1 content by 50%, but did not significantly alter the total level of IRS-1 tyrosine phosphorylation. The apparent M(r) of IRS-1 was reduced by approximately 10 kD. Treatment with protein phosphatase-2A reduced IRS-1 M(r) in control but not in glucocorticoid-treated muscle indicating that the lower M(r) likely results from lower phosphoserine and/or phosphothreonine content. To investigate the role of hyperinsulinemia in the glucocorticoid response, rats were made insulin-deficient with streptozotocin (100 mg/kg, i.p.). Subsequent treatment with cortisone for 5 d had no effects on insulin levels, tyrosine phosphorylation of insulin receptors or IRS-1, or the M(r) of IRS-1. In conclusion, glucocorticoid-treated skeletal muscle is characterized by: (a) decreased total tyrosine phosphorylation of insulin receptors as a result of a reduction in the pool of receptors undergoing tyrosine phosphorylation; (b) decreased IRS-1 content and reduced serine and/or threonine phosphorylation of IRS-1. Glucocorticoid-induced hyperinsulinemia appears to be essential for the development of these alterations.
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PMID:Glucocorticoid regulation of insulin receptor and substrate IRS-1 tyrosine phosphorylation in rat skeletal muscle in vivo. 768 95

We report the identification of type-1 protein phosphatase activating factor (kinase FA), a unique biologic mediator for both insulin and epidermal growth factors in the human placenta. The activity of kinase F, was found to be extremely labile in the unperfused placenta. Fresh term placentas lost more than 50% of the total kinase FA activity within 6 hours when exposed to air of incubated in medium but not perfused. In contrast, the activity of kinase FA was stable when the human term placenta was dually perfused. This indicates that placental dual perfusion is a useful method for studying protein phosphorylation-dephosphorylation involved in signal transduction. When fresh placentas were perfused with media containing glucose at 141 +/- 10, 242 +/- 12 and 436 +/- 20 mg/dL, kinase FA activity was stimulated several-fold in a glucose concentration-dependent manner when compared with control levels at delivery. The results suggest that hyperglycemia-mediated activation may represent a previously unknown control mechanisms for the regulation of protein kinase FA. The results also suggest that human placental perfusion is a good in vitro system for studying signal transduction mechanisms involved in hormonal actions and metabolic regulation.
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PMID:Hyperglycemia induced activation of type-1 protein phosphatase activator (kinase FA) in perfused human placenta. 864 93

Post-transplant diabetes mellitus, a complication due to corticosteroids and the calcineurin inhibitors, cyclosporine and tacrolimus (FK506), is commonly regarded as a form of type-2 (adult-onset) diabetes mellitus. Diabetic ketoacidosis, which requires relative insulin deficiency to impair fatty acid metabolism, is a complication of type-1 diabetes mellitus. We report three patients who presented with diabetic ketoacidosis post-transplant. All three patients presented with severe hyperglycemia, significant ketosis and metabolic acidosis of variable severity. One patient was a renal transplant recipient on a cyclosporine-based regimen. The other two patients were liver transplant recipients receiving either cyclosporine or tacrolimus-based immunosuppression. Both of the liver transplant recipients were found to have moderate to high serum levels of calcineurin inhibitors on presentation. The liver recipient on cyclosporine (Neoral) had a 4 hour post-dose level of 388 ng/ml and the patient on tacrolimus was found to have a trough level of 21.2 ng/ml. Our experience suggests that post-transplant diabetes mellitus, in association with calcineurin inhibition, may result in ketoacidosis either secondary to relative beta cell dysfunction, peripheral insulin resistance, or a combination of the two effects. Post-transplant diabetes mellitus can be an atypical form of adult-onset diabetes with features of both type I and type II diabetes mellitus.
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PMID:Post-transplant diabetic ketoacidosis--a possible consequence of immunosuppression with calcineurin inhibiting agents: a case series. 1074 93

Glucose is stored in mammalian tissues in the form of glycogen. Glycogen levels are markedly reduced in liver or muscle cells of patients with insulin-resistant or insulin-deficient forms of diabetes, suggesting that impaired glycogen synthesis may contribute to development of hyperglycemia. Recently, interest in this area has been further stimulated by new insights into the spatial organization of metabolic enzymes within cells and the importance of such organization in regulation of glycogen metabolism. It is now clear that a four-member family of glycogen targeting subunits of protein phosphatase-1 (PP1) plays a major role in coordinating these events. These proteins target PP1 to the glycogen particle and also bind differentially to glycogen synthase, glycogen phosphorylase, and phosphorylase kinase, thereby serving as molecular scaffolds. Moreover, the various glycogen-targeting subunits have distinct tissue expression patterns and can influence regulation of glycogen metabolism in response to glycogenic and glycogenolytic signals. The purpose of this article is to summarize new insights into the structure, function, regulation, and metabolic effects of the glycogen-targeting subunits of PP1 and to evaluate the possibility that these molecules could serve as therapeutic targets for lowering of blood glucose in diabetes.
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PMID:Organizing glucose disposal: emerging roles of the glycogen targeting subunits of protein phosphatase-1. 1111 96

Like hyperglycemia, postprandial (diet-induced) hypertriglyceridemia is thought to play crucial roles in the pathogenesis of insulin resistant/metabolic syndrome. Sterol regulatory element-binding protein-1 (SREBP-1) is a key transcription factor to induce postprandial hypertriglyceridemia. We found that insulin-resistant rats fed a diet high in fructose showed an increased proteintyrosine phosphatase 1B (PTP1B) content with strong expression of SREBP-1 mRNA in the liver. To clarify the association of PTP1B with SREBP-1 gene expression, we overexpressed PTP1B in rat hepatocytes, which led to increased mRNA content and promoter activity of SREBP-1a and -1c, resulting in the increased mRNA expression of fatty-acid synthase, one of the SREBP-1-responsive lipogenic genes. Because PTP1B overexpression increased phosphatase 2A (PP2A) activity, we inhibited PP2A activity by expression of its selective inhibitor, SV40 small T antigen and found that this normalized the PTP1B-enhanced SREBP-1a and -1c mRNA expressions through activation of the Sp1 site. These results indicate that PTP1B may regulate gene expression of SREBP-1 via enhancement of PP2A activity, thus mediating hepatic lipogenesis and postprandial hypertriglyceridemia. We demonstrate here a unique serial activation of the PTP1B-PP2A axis as a novel mechanism for the regulation of gene expression in the biosynthesis of triglyceride.
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PMID:Protein-tyrosine phosphatase 1B as new activator for hepatic lipogenesis via sterol regulatory element-binding protein-1 gene expression. 1294 32

The effect of the novel imidazoline compound 2-[2-(4,5-dihydro-1H-imidazol-2-yl)-1-(5-methyl-2,3-dihydrobenzofuran-7-yl)-ethyl]-pyridine (NNC77-0020) on stimulus-secretion coupling and hormone secretion was investigated in mouse pancreatic islets and isolated alpha- and beta-cells. In the presence of elevated glucose concentrations NNC77-0020 stimulated insulin secretion concentration dependently (EC(50) 64 nM) by 200% without affecting the whole-cell K(+) current or cytoplasmic Ca(2+) levels. Capacitance measurements in single mouse beta-cells showed that intracellular application of NNC77-0020 via the recording pipette enhanced Ca(2+)-dependent exocytosis. This action was dependent on protein kinase C (PKC) and cytoplasmic phospholipase A(2) (cPLA(2)) activity and required functional granular ClC-3 Cl(-) channels. In intact islets NNC77-0020 stimulated glucose-dependent somatostatin secretion, an effect that was also dependent on PKC and cPLA(2) activity. NNC77-0020 also inhibited glucagon secretion. In single mouse alpha-cells this action was not associated with a change in spontaneous electrical activity and resulted from a reduction in the rate of Ca(2+)-dependent exocytosis. Inhibition of exocytosis by NNC77-0020 was pertussis toxin sensitive and mediated by activation of the protein phosphatase calcineurin. In conclusion, our data suggest that the imidazoline compound NNC77-0020 modulates pancreatic hormone secretion in a complex fashion, comprising glucose-dependent stimulation of insulin and somatostatin secretion and inhibition of glucagon release. These mechanisms of action constitute an ideal basis for the development of novel imidazoline-containing anti-diabetic compounds.
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PMID:The imidazoline NNC77-0020 affects glucose-dependent insulin, glucagon and somatostatin secretion in mouse pancreatic islets. 1368 90

Calcineurin inhibitors such as cyclosporine A and FK506 have been used for transplant therapy and treatment of autoimmune diseases. However, the inhibition of calcineurin outside the immune system has a number of side effects, including hyperglycemia. In the search for safer drugs, we developed a cell-permeable inhibitor of NFAT (nuclear factor of activated T cells) using the polyarginine peptide delivery system. This peptide provided immunosuppression for fully mismatched islet allografts in mice. In addition, it did not affect insulin secretion, whereas FK506 caused a dose-dependent decrease in insulin secretion. Cell-permeable peptides can thus provide a new strategy for drug development and may eventually be useful clinically.
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PMID:A new cell-permeable peptide allows successful allogeneic islet transplantation in mice. 1477 Jan 76


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