Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011849 (diabetes)
 277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rat synthetic amidated islet amyloid polypeptide (IAPP) was infused into conscious Long-Evans rats chronically instrumented for the measurement of regional hemodynamics. Rat IAPP (0.25-2.5 nmol.kg-1.min-1) had dose-dependent tachycardiac and hypotensive effects. Renal blood flow increased at all dose levels in association with incremental rises in renal vascular conductances. Hindquarters blood flow and vascular conductance increased at the higher dose levels, but mesenteric blood flow fell with mean arterial blood pressure (i.e., there was no change in mesenteric vascular conductance). Concurrent infusion of 25 nmol.kg-1.min-1 human alpha-calcitonin gene-related peptide (CGRP) (8-37) abolished the hypotensive, tachycardiac, and renal and hindquarters vasodilator effects of rat IAPP, and during administration of both peptides, there was a transient renal and sustained mesenteric vasoconstriction. When the infusion of human alpha-CGRP (8-37) was stopped, the effects of the continued infusion of rat IAPP were reestablished. The results indicate that the reported ability of IAPP to induce insulin resistance cannot be due to decreased skeletal muscle blood flow. In addition, human alpha-CGRP (8-37) is an effective antagonist of the hemodynamic actions of rat IAPP. Because it has been shown previously that human alpha-CGRP (8-37) antagonizes the hemodynamic effects of human alpha-CGRP, these results, collectively, indicate that human alpha-CGRP and rat IAPP might act on the same receptor at which human alpha-CGRP (8-37) is an effective antagonist or that the latter is a nonselective antagonist of separate receptors on which human alpha-CGRP and rat IAPP act.
Diabetes 1991 Aug
PMID:Antagonistic effect of human alpha-calcitonin gene-related peptide (8-37) on regional hemodynamic actions of rat islet amyloid polypeptide in conscious Long-Evans rats. 186 May 59

In this study, we administered constant intravenous infusions of human islet amyloid polypeptide (hIAPP) to conscious dogs during euglycemic glucose-clamp studies. The doses of hIAPP used (5 and 50 pmol.kg-1.min-1) raised the circulating IAPP levels approximately 12- and 50-fold above basal levels, respectively. Studies were conducted at two different insulin infusion rates, resulting in steady-state plasma insulin levels of approximately 600 and 2800 pM. According to our results, the hIAPP infusions did not lead to any measurable change in the insulin-stimulated glucose disposal rate at either insulin infusion rate. Additionally, we observed no effect of IAPP on hepatic glucose production. Although we did not observe any effect of hIAPP on any of the aspects of glucose or insulin metabolism measured, we did find a consistent hypocalcemic effect of this peptide at the 50-pmol.kg-1.min-1 infusion rate. Shortly after the onset of hIAPP infusion, serum calcium levels fell by 10-15% and remained at these levels throughout the course of the hIAPP infusion. In summary, 1) infusion of hIAPP at doses of 5 or 50 pmol.kg-1.min-1 in conscious dogs raised the circulating IAPP level 12- to 50-fold above basal; 2) during these infusion studies, no effect of hIAPP was observed on any of the aspects of glucose or insulin homeostasis measured; 3) 50 pmol.kg-1.min-1 hIAPP lead to a prompt reduction in plasma calcium concentrations with intravenous administration.
Diabetes 1991 Aug
PMID:Lack of effect of islet amyloid polypeptide in causing insulin resistance in conscious dogs during euglycemic clamp studies. 186 May 64

Islet amyloid polypeptide is a normal constituent of islet Beta cells and is derived from a larger precursor by removal of flanking peptides at the carboxy (C) and amino (N) terminals. The role of these flanking peptides in the formation of amyloid in Type 2 (non-insulin-dependent) diabetes mellitus and in insulinomas is unknown. The C-terminal flanking peptide of islet amyloid polypeptide was localised by immunocytochemistry in human and monkey pancreatic islets from Type 2 diabetic and non-diabetic individuals by use of specific polyclonal antisera. Immunoreactivity for the C-terminal peptide was found in insulin-containing cells in both diabetic and non-diabetic tissue: no antibody binding was detected in islet amyloid of Type 2 diabetic man or of monkeys although a positive reaction occurred with antisera for islet amyloid polypeptide. The C-terminal peptide was localised by immunogold electron microscopy in the insulin granules in both diabetic and non-diabetic individuals but, unlike islet amyloid polypeptide, was not detected in lysosomes. The absence of immunoreactivity for the C-terminal peptide in amyloid suggests that incomplete cleavage of this flanking peptide from islet amyloid polypeptide is not a factor in the formation of islet amyloid.
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PMID:Localisation of islet amyloid polypeptide and its carboxy terminal flanking peptide in islets of diabetic man and monkey. 188 3

Family studies suggest a strong genetic component in the aetiology of non-insulin dependent diabetes (NIDDM), with evidence for a major gene of co-dominant or dominant effect. A gene-dosage effect, whereby diabetes develops earlier in people with two susceptibility genes than in those with one susceptibility gene is likely. The search for the diabetes gene has led to the cloning and characterization of many genes involved in controlling glucose homeostasis. These include the insulin, insulin receptor, glucose transporter, amylin and glucokinase genes. Molecular techniques have permitted rapid screening of these genes in NIDDM patients and controls. There is now a rather contradictory genetic literature for NIDDM, with weak disease associations reported and refuted for most candidate genes. However, pedigree analyses and DNA sequencing of available candidate genes and their regulatory regions have failed to implicate any of these in the common form of diabetes, NIDDM. Methodical application of random clones in well-defined NIDDM families may be the strategy of choice in finding the NIDDM genes, given the wide range of genes potentially involved in the glucose and lipoprotein metabolic disturbances seen in NIDDM.
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PMID:Genetics of non-insulin dependent diabetes mellitus in 1990. 189 73

Diabetes mellitus in the adult population consists of a group of etiologically heterogeneous disease processes, the common outcome of which is derangement of carbohydrate metabolism. New knowledge in the areas of insulin receptors, insulin action, glucose transport, pancreatic amylin, and pancreatic autoimmunity is likely to lead to the development of disease-process-specific treatment modalities.
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PMID:An approach to the heterogeneity of diabetes in adults. 194 13

Amylin, a peptide, which was isolated from the islet amyloid of type II diabetics, might play a potential role in the pathogenesis of type II diabetes mellitus. In in vitro and in vivo studies it has been shown that amylin has an effect on insulin secretion as well as on insulin sensitivity. From measurements of plasma amylin levels it is known that amylin is cosecreted with insulin and patients with hyperinsulinemia have also elevated amylin levels. In patients with impaired glucose tolerance and type II diabetes amylin levels are decreased compared to insulin. A secretory defect of amylin and its local accumulation in the islets of type II diabetics might be a cause for the insulin secretory defect in type II diabetes. Additionally, amylin can induce peripheral insulin resistance, which might also be a cause for type II diabetes mellitus. Amylin is a new pancreatic peptide, which might play an important role in the pathogenesis of diabetes mellitus.
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PMID:[Role of amylin in the pathogenesis of type II diabetes mellitus]. 195 Mar 79

Amylin has been co-secreted from pancreatic islet beta-cells in constant proportion with insulin in some studies. We measured basal and glucose-stimulated amylin and insulin secretion from isolated perfused pancreases of normal and diabetic fatty Zucker rats. Glucose concentrations in the perfusion buffer were increased then decreased in small steps to mimic physiologic changes occurring after a meal. The absolute rate of amylin secretion and the molar ratio of amylin to insulin secreted from diabetic pancreases increased dramatically when infused glucose concentrations fell. Similar changes also occurred in normal pancreases, although the absolute change in amylin secretion was smaller. These studies provide the first evidence that (i) there is a mechanism within the pancreas whereby independent secretion of amylin and insulin can occur; (ii) the molar ratio of amylin to insulin secreted from both normal and diabetic pancreases can vary over a wide range; and (iii) there are important differences in the kinetics of amylin and insulin secretion or their coupling to stimulation by glucose between the isolated pancreases of normal rats and those with genetically transmitted insulin resistance and diabetes mellitus.
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PMID:Amylin secretion from the perfused pancreas: dissociation from insulin and abnormal elevation in insulin-resistant diabetic rats. 195 51

We determined islet amyloid polypeptide (IAPP) response in plasma to oral and intravenous glucose administration and intravenous insulin injection in nondiabetic subjects. Moreover, we studied the effect of somatostatin analogue SMS 201-995 on glucose-induced IAPP secretion in nondiabetic subjects. Plasma IAPP concentration was determined by radioimmunoassay. Oral administration of 75 g glucose (n = 8) significantly increased plasma IAPP levels from 4.5 +/- 0.7 to 14.0 +/- 1.7 pM (P less than 0.01) 60 min after administration. Intravenous administration of 10 g glucose (n = 7) also caused a significant increase in plasma IAPP from 5.0 +/- 0.4 to 11.6 +/- 0.9 pM (P less than 0.01) 5 min after injection. Plasma IAPP significantly decreased from 5.1 +/- 0.4 to 2.9 +/- 0.4 pM (P less than 0.01) 60 min after intravenous insulin injection (n = 8). Pretreatment with SMS 201-995 completely abolished IAPP and insulin secretion to intravenous glucose injection. A significant correlation was found between plasma IAPP and insulin levels in oral and intravenous glucose administration and between plasma IAPP and C-peptide levels during insulin-induced hypoglycemia. These results suggest that IAPP is cosecreted with insulin in response to a glucose load and secretion of IAPP is inhibited by hypoglycemia and somatostatin. IAPP may serve as a novel pancreatic hormone to control carbohydrate metabolism.
Diabetes 1990 May
PMID:Islet amyloid polypeptide response to glucose, insulin, and somatostatin analogue administration. 197 May 40

The role of islet amyloid polypeptide, also known as amylin, in insulin resistance and in the etiology of diabetes has been a subject of debate. Increased plasma amylin levels have been observed in both obese and type II diabetic patients. However, data on endogenous amylin levels with relation to pharmacological interventions have not been reported. In this study, chronic treatment of obese-diabetic viable yellow mice with ciglitazone was shown to significantly alter various parameters. Blood glucose and plasma insulin, triglyceride, and amylin levels were reduced and glucose tolerance in the presence of exogenous insulin was improved. Insulin/amylin ratios which were found to be significantly elevated in diabetic mice as compared to normal controls, were decreased after ciglitazone treatment. However, observed decreases in both amylin and insulin concentrations due to ciglitazone treatment and their subsequent increases upon withdrawal of treatment were correlated, suggesting cosecretion.
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PMID:Effects of ciglitazone on endogenous plasma islet amyloid polypeptide and insulin sensitivity in obese-diabetic viable yellow mice. 199 Feb 40

In 1960, immunoassays of insulin first demonstrated significant quantities of circulating hormone in non-insulin-dependent (type II) diabetes and for 30 yr have fostered debate as to whether a beta-cell abnormality plays an etiological role in this syndrome. Early efforts to determine the adequacy of islet beta-cell function showed that obesity and its associated insulin resistance were major confounding variables. Subsequently, it was recognized that glucose not only directly regulated insulin synthesis and secretion but moderated all other islet signals, including other substrates, hormones, and neural factors. When both obesity and glucose are taken into account, it becomes clear that patients with fasting hyperglycemia all have abnormal islet function. Type II diabetes is characterized by a defect in first-phase or acute glucose-induced insulin secretion and a deficiency in the ability of glucose to potentiate other islet nonglucose beta-cell secretagogues. The resulting hyperglycemia compensates for the defective glucose potentiation and maintains nearly normal basal insulin levels and insulin responses to nonglucose secretagogues but does not correct the defect in first-phase glucose-induced insulin release. Before the development of fasting hyperglycemia, only first-phase glucose-induced insulin secretion is obviously defective. This is because progressive islet failure is matched by rising glucose levels to maintain basal and second-phase insulin output. The relationship between islet function and fasting plasma glucose is steeply curvilinear, so that there is a 75% loss of beta-cell function by the time the diagnostic level of 140 mg/dl is exceeded. This new steady state is characterized by glucose overproduction and inefficient utilization. Insulin resistance is also present in most patients and contributes to the hyperglycemia by augmenting the glucose levels needed for compensation. Decompensation and absolute hypoinsulinemia occur when the renal threshold for glucose is exceeded and prevents further elevation of circulating glucose. The etiology of the islet beta-cell lesion is not known, but a hypothesis based on basal hyperproinsulinemia and islet amyloid deposits in the pancreas of type II diabetes is reviewed. The recent discovery of the islet amyloid polypeptide (IAPP) or amylin, which is the major constituent of islet amyloid deposits, is integrated into this hypothesis. It is suggested that pro-IAPP and proinsulin processing and mature peptide secretion normally occur together and that abnormal processing, secondary to or in conjunction with defects in hormone secretion, lead to progressive accumulation of intracellular IAPP and pro-IAPP, which in cats, monkeys, and humans form intracellular fibrils and amyloid deposits with a loss of beta-cell mass.(ABSTRACT TRUNCATED AT 400 WORDS)
Diabetes 1991 Feb
PMID:Banting lecture 1990. Beta-cells in type II diabetes mellitus. 199 68


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