UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Changes of morphometrical, biochemical, histochemical and immunohistochemical parameters were investigated in the alloxan diabetes in the dog. Samplings of material for electron microscopical and histochemical examinations were performed in 3 month period (4 times). A significant thickening of capillary basement membranes in the striated muscle (vastus lateralis) was ascertained even in the dog with glucose intolerance only. In this mentioned case a decrease of glucoso-6-phosphatase activity was observed. Evaluation of different types of muscle fibres assigned an increase of slow twitch fibres or intermediate ones respectively.
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PMID:Morphometrical histochemical and biochemical parameters in the dog alloxan diabetes. 816 4

The authors analyse the results of surgical treatment in 105 elderly and old-aged patients who were admitted to the clinic for acute cholecystitis and concomitant diabetes mellitus of various severity. The results of clinical, biochemical, morphological, and cytochemical (salkaline phosphatase of neutrophilic leukocytes, HCT test, myeloperoxidase) studies revealed "the syndrome of mutual aggravation" of the pathological process. The authors conclude that an early (during the first 3 days after the onset of the disease and the severity of the "syndrome of mutual aggravation") operative intervention must be undertaken on this category of patients.
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PMID:[Surgical methods in acute cholecystitis in old and elderly patients with diabetes mellitus]. 817 72

Sugar-3-phosphates are related to aspects of diabetes which depend on protein glycosylation events. Sorbitol-3-phosphate and fructose-3-phosphate occur in normal and diabetic individuals, and glucose-3-phosphate is a potential intermediate in their biosynthesis. Almost nothing is known about enzyme pathways for their metabolic turnover. We have found that part of the phosphohydrolytic activity on glucose-3-phosphate in rat liver supernatants corresponds to a specific, Mg(2+)-dependent, glucose-3-phosphatase much less or not active on other phosphate esters, including glucose-1-phosphate, glucose-6-phosphate, fructose-1-phosphate, fructose-6-phosphate and p-nitrophenyl-phosphate. This finding opens a route to a better understanding of the metabolism and role of sugar-3-phosphates.
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PMID:Detection of specific glucose-3-phosphatase activity in rat liver. 831 79

The specific effect of hyperglycemia on the reported decrease in liver glycogen synthase phosphatase activity was studied in STZ-induced diabetic rats with normal fasting insulinemia. Four groups of animals were investigated: control (nondiabetic), diabetic hyperglycemic (STZ), diabetic normoglycemic (STZ followed by 3-day phloridzin treatment), and a diabetic normoglycemic group injected with glucose to reinstate hyperglycemia. None of the treatments significantly altered fasting plasma insulin and glucagon concentrations. We found that hepatic synthase phosphatase activity decreased in STZ-induced diabetic rats and was further markedly reduced when glycemia was normalized in the diabetic animals. This additional decrease in phosphatase activity was almost fully reversed when hyperglycemia was restored by acute glucose infusion of the normoglycemic diabetic rats. In parallel, the levels of liver G6P and F6P were markedly reduced in the diabetic normoglycemic rats and restored with reinstatement of hyperglycemia. In contrast, liver microsomal glucose-6-phosphatase activity was enhanced and glucokinase activity was lowered in all diabetic groups, regardless of glycemia. Our results indicate that hyperglycemia per se counteracts part of the loss of hepatic synthase phosphatase in diabetic animals and provokes the stable conversion of synthase phosphatase from a less active to a more active form.
Diabetes 1993 Feb
PMID:Opposite effects of hyperglycemia and insulin deficiency on liver glycogen synthase phosphatase activity in the diabetic rat. 838 Oct 96

Since the discovery of insulin and its receptor, the downstream elements responsible for the pleiotropic insulin signal have been difficult to define. The recently discovered insulin receptor substrate, IRS-1, provides an innovative and simple way to think about this problem: IRS-1 may mediate the control of various cellular processes by insulin. Overexpression of IRS-1 enhances insulin-stimulated DNA synthesis in Chinese hamster ovary cells, and microinjection of IRS-1 protein potentiates the maturation of Xenopus oocytes. We suspect that insulin signals are enabled when the activated insulin receptor kinase phosphorylates specific tyrosine residues in IRS-1. These phosphorylated sites associate with high affinity to cellular proteins that contain SH2 (src homology-2) domains. This association is specific and depends on the amino acid sequence surrounding the phosphotyrosine residue and the isoform of the SH2 domain. A growing number of SH2 domain-containing proteins have been identified, and we suspect that IRS-1 has the potential to simultaneously regulate many of them. We have only begun to identify the specific proteins that associate with phosphorylated IRS-1. One of them, the phosphatidylinositol 3'-kinase, is activated when the SH2 domains in its 85,000-M(r) regulatory subunit bind to phosphorylated IRS-1. IRS-1 also interacts with other proteins such as SHPTP2, a novel SH2 domain-containing Tyr phosphatase, and GRB-2/sem-5, a protein that is implicated in p21ras signaling. The interaction between phosphorylated IRS-1 and multiple SH2 domain-containing proteins may ultimately explain the pleiotropic effects of insulin.
Diabetes 1993 May
PMID:The new elements of insulin signaling. Insulin receptor substrate-1 and proteins with SH2 domains. 838 37

A sensitive microtiter well-based assay for the measurement of insulin activation of insulin receptor kinase in intact human circulating mononuclear cells has been developed and characterized. Mononuclear cells from 100-150 ml blood were incubated with various insulin concentrations to activate the receptor kinase. The cells were then solubilized in the presence of phosphatase and kinase inhibitors and the receptors immobilized to microwells coated with anti-insulin receptor antibody (efficiency of receptor immobilization > 85%). Receptor kinase activity and binding activity were then consecutively measured in the same wells. Insulin incubation of the cells increased the kinase activity three- to fourfold with a half-maximal effect at 5 nM and a maximal effect at 87 nM. In mononuclear cells from 16 subjects with NIDDM, the insulin effect on receptor kinase activation was significantly reduced compared with 16 nondiabetic control subjects (0.135 +/- 0.016 vs. 0.195 +/- 0.024 fmol P.fmol binding activity-1 x min-1, respectively; P < 0.05). We conclude that; 1) it is possible to determine insulin activation of receptor kinase in intact cells in this easily accessible human tissue; 2) insulin activation of insulin receptor kinase is impaired in intact mononuclear cells from patients with NIDDM; and 3) the finding that kinase activation in NIDDM is reduced in a tissue that, according to the literature, contains only the A isoform of the insulin receptor, suggests that mechanisms other than a different abundance of the A and B insulin receptor isoforms must exist that contribute to the decreased kinase activity in NIDDM.
Diabetes 1993 Jun
PMID:A microtiter well assay system to measure insulin activation of insulin receptor kinase in intact human mononuclear cells. Decreased insulin effect in cells from patients with NIDDM. 838 42

Membrane-associated tyrosine phosphatase activities were studied in two distinct states of insulin resistance: diabetes and pregnancy. Using a novel immunoenzymatic assay with intact insulin-like growth factor-I (IGF-I) and insulin receptors as substrates, we show that phosphotyrosine-protein phosphatases (PTP-ases) from normal rat tissues induce a decrease in tyrosine phosphorylation of both receptors. Membrane fractions from kidney, brain, and liver contain the highest PTP-ase activity toward the insulin receptor. After 20-day streptozotocin-induced diabetes, PTP-ase activities are increased by 70% in the placenta, reduced by 40-50% in liver and skeletal muscle, and remained unchanged in the nonclassical insulin target tissues, kidney and brain. In general, the dephosphorylation of IGF-I receptor follows a pattern similar to that of insulin receptor except in red skeletal muscle in which it is not modified. Pregnancy also induces alterations of liver PTP-ases similar to those elicited by diabetes with a 50% reduction of insulin and IGF-I receptor dephosphorylation. This effect of pregnancy is further potentiated by diabetes. The alterations in the activity of hepatic PTP-ases from diabetic and pregnant rats are associated with a decreased autophosphorylation of the insulin receptor, suggesting that the diminution of phosphatase activity might be associated to the state of receptor phosphorylation and activation. Our data demonstrate that alterations of PTP-ases in insulin target tissues are found in two insulin-resistant states, one characterized by hyperinsulinemia, pregnancy and one by insulinopenia, streptozotocin-diabetes. These observations suggest a possible relationship between the defective activity of receptor tyrosine kinases and membrane-associated phosphatases from insulin responsive tissues.
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PMID:Alteration of phosphotyrosine phosphatase activity in tissues from diabetic and pregnant rats. 841 48

The pyruvate dehydrogenase (PDH) complex undergoes reversible phosphorylation catalyzed by a PDH kinase (inactivating) and a PDH phosphatase (activating). In skeletal muscle, a decreased proportion of active PDH (PDHa) complex limits glucose oxidation in insulin-deficient states. The time-course for reactivation of the PDH complex by insulin in skeletal muscle of diabetic rats is important to understanding the potential mode of the action of insulin in regulating glucose metabolism. A single injection of insulin (1 U/kg) completely reversed the effects of alloxan-diabetes on PDHa activity within 1 hour. The normalization of the effects of diabetes on PDHa activity by insulin was maintained for a minimum of 6 hours. The increase in PDHa activity occurred before an insulin-induced decrease in plasma free fatty acids levels, demonstrating a dissociation between the antilipolytic effects of insulin and its ability to activate the PDH complex. PDH kinase activity was not normalized to control values following a single injection of insulin. Therefore, acute (1 to 6 hours) insulin-mediated activation of the PDH complex does not result from a decrease in PDH kinase activity. However, longer-term insulin therapy (1 U/kg body weight; twice daily) restored both PDHa and PDH kinase activities. The results are consistent with the hypothesis that activation of the PDH complex immediately following insulin administration is not mediated by a decreased PDH kinase activity. However, with daily insulin therapy in diabetes, activation of the PDH complex results from decreased PDH kinase activity.
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PMID:Insulin-induced activation of pyruvate dehydrogenase complex in skeletal muscle of diabetic rats. 849 17

Cloning of the cDNA encoding a novel human protein- tyrosine phosphatase (PTP) called islet cell antigen-related PTP (IAR) predicts a receptor-like molecule with an extracellular domain of 614 amino acids containing a hydrophobic signal peptide, one potential N-glycosylation site, and an RGDS peptide which is a possible adhesive recognition sequence. The 376-amino acid intracellular region contains a single catalytic domain. Recombinant IAR polypeptide has phosphatase activity. Northern blot analysis shows tissue-specific expression of two IAR transcripts of 5.5 and 3. 7 kilobases, which are most abundant in brain and pancreas. The IAR PTP is homologous in its intracellular region to IA-2, a putative PTP that is an insulin-dependent diabetes mellitus (IDDM) autoantigen. IAR is also reactive with IDDM patient sera. IAR and IA-2 may distinguish different populations of IDDM autoantibodies since they identify overlapping but nonidentical sets of IDDM patients. Thus IAR is likely to be an islet cell antigen useful in the preclinical screening of individuals for risk of IDDM.
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PMID:Cloning and characterization of islet cell antigen-related protein-tyrosine phosphatase (PTP), a novel receptor-like PTP and autoantigen in insulin-dependent diabetes. 879 55

An insulin granule membrane protein, phogrin (phosphatase homologue of granules from rat insulinoma), with homology to islet cell antigen (ICA) 512/IA-2 has recently been cloned from an insulinoma cDNA expression library with antigranule membrane sera. We have developed a radioimmunoassay for detecting antiphogrin autoantibodies using in vitro transcribed and translated phogrin and have established the sensitivity and specificity of this assay. Thirty-two of 57 (56%) new-onset patients with type I diabetes and 26 of 44 (59%) first-degree relatives followed to diabetes had anti-phogrin antibody levels exceeding the 99th percentile of 108 normal control subjects. Levels of antiphogrin autoantibodies correlated with ICA512/IA-2 autoantibodies (r = 0.82, P < 0.0001), but minimally with insulin autoantibodies (r = 0.20, P = 0.05) and not with GAD65 autoantibodies (r = 0.16, P = 0.12). Ninety-eight percent (57 of 58) of patients positive for anti-phogrin autoantibodies were also positive for autoantibodies against ICA512/IA-2. Nine percent (9 of 101) of new-onset patients and relatives followed to diabetes were ICA512/IA-2 autoantibody-positive but anti-phogrin autoantibody-negative. Preincubation of sera with recombinant ICA512/IA-2 protein completely for the majority and partially for a minority inhibited binding to in vitro translated phogrin. In three relatives in which ICA512/IA-2 autoantibodies converted to positivity with sequential follow-up, anti-phogrin autoantibodies developed at the same time. These results suggest that anti-phogrin and ICA512/IA-2 autoantibodies are related subsets of anti-islet autoantibodies.
Diabetes 1996 Oct
PMID:Autoantibodies to protein tyrosine phosphatase-like proteins in type I diabetes. Overlapping specificities to phogrin and ICA512/IA-2. 882 69

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