Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011860 (type 2 diabetes)
 57,723 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Calcitonin gene related peptide (CGRP), a potent vasoactive and cardiotonic peptide, interacts with specific G-protein-coupled receptors. CGRP is synthesized and released from small, capsaicin-sensitive sensory nerves. This extensive network of sensory nerves, found in virtually all organs, suggest a potential role for CGRP in diverse physiologic and pathophysiologic processes. The potent vasodilation elicited by CGRP in the cerebral, coronary, and peripheral vasculature has led to its therapeutic evaluation in the treatment of cerebral vasospasm following subarachnoid hemorrhage, stable angina, and Raynaud's phenomenon. The potential inotropic action and coronary vasodilation have also led to a potential beneficial effect in congestive heart failure. The enriched localization of CGRP in trigeminal sensory ganglia may indicate a role in the neurogenic inflammation associated with migraine. Thus, CGRP antagonists may represent a novel therapeutic approach to the treatment of migraine. In addition, CGRP and amylin (homologous pancreatic peptide) reduce the tissue--glucose response to insulin. It has been suggested that a CGRP antagonist may therefore improve insulin sensitivity in non-insulin-dependent diabetes, NIDDM. This brief review provides a preliminary exploration of the potential therapeutic opportunities surrounding CGRP and CGRP antagonists. Future advances are dependent on a better understanding of the structure and function of CGRP receptor(s) and the concomitant identification of selective and potent agonists and antagonists useful for addressing therapeutic hypotheses.
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PMID:Clinical perspectives of calcitonin gene related peptide pharmacology. 884 3

Islet amyloid polypeptide (IAPP) gives rise to islet amyloid fibrils in NIDDM. Islet amyloid tends to replace islet cells, especially beta-cells and may act as a diffusion barrier. It has also been proposed that IAPP amyloid fibrils are beta-cell cytotoxic. The pathogenesis of islet amyloid is not clear and several factors are probably necessary for amyloid formation. One factor is an amyloidogenic amino acid sequence of IAPP and a second is probably a high local concentration of IAPP. Islet amyloid is not seen in the normal human pancreas and has not been described in the pancreata of transgenic mice over-expressing human IAPP. However, islet amyloid is rapidly deposited in in vitro cultivated islets from these transgenic animals and in isolated normal human islets transplanted into nude mice. Consequently, besides an amyloidogenic structure and high production of IAPP, further factors are necessary for islet amyloid formation in NIDDM.
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PMID:Islet pathology of non-insulin-dependent diabetes mellitus (NIDDM). 889 81

To search for a possible relationship between islet amyloid polypeptide (IAPP)/amylin and the pathophysiology of non-insulin-dependent (type 2) diabetes mellitus (NIDDM), we examined the changes in IAPP contents in the pancreata of genetically obese and diabetic mice (C57BL/6J ob/ob and C57BL/KsJ db/db mice). In the male ob/ob mice, IAPP and insulin contents began to increase at 16 weeks and continued to increase. In the male db/db mice, IAPP content began to increase at 8 weeks of age and insulin content at 4 weeks. Both contents continued to increase until 16 weeks, but drastically decreased at 24 weeks. Immunohistochemical studies using anti-IAPP8-17 antibody showed the increase of islet cell mass and the heterogeneous immunoreactivity for IAPP in islet cells in the ob/ob mice at 24 weeks of age. In the db/db mice at the same age, the immunoreactivity was heterogeneous and weak in many islet cells. These results suggest that genetic factors that are important in the manifestation of NIDDM influence the capacity of beta-cells to synthesize and secrete IAPP, and that IAPP synthesis and secretion change in the course of the disease.
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PMID:Islet amyloid polypeptide/amylin contents in pancreas change with increasing age in genetically obese and diabetic mice. 892 36

In subjects with type 2 diabetes, both defects of insulin secretion and insulin resistance contribute to the development of hyperglycaemia. The major goals of treatment are to optimise blood glucose control, and normalise the associated lipid disturbances and elevated blood pressure. Pharmacologic treatment is often necessary. This paper discusses new forms of oral treatment for subjects with type 2 diabetes. These include a new sulphonylurea compound glimepiride (Amaryl), which binds to a different protein of the putative sulphonylurea receptor than glibenclamide, and seems to have a lower risk of hypoglycaemia. A new class of drugs with insulin secretory capacity, of which repaglinide (NovoNorm) is the leading compound, is now in phase III clinical trials. Alpha-glucosidase inhibitors reversibly inhibit alpha-glucosidase enzymes in the small intestine, which delays cleavage of oligo- and disaccharides to monosaccharides. This leads to a delayed and reduced blood glucose rise after a meal. Two compounds are in development or have been marketed, ie, miglitol and acarbose (Glucobay). Another new class of drugs is the thiazolidine-diones, which seem to work by enhancing insulin action. The 'insulin sensitising' effects of the leading compounds, troglitazone and BRL 49653C, do not involve any effect on insulin secretion. These drugs also seem to beneficially influence serum cholesterol and triglyceride levels. Oral antihyperglycaemic agents can be used only during a limited period of time in most patients, after which the diabetic state 'worsens' and insulin therapy has to be started. In this light, two new forms of treatment which require subcutaneous injections are also discussed: the synthetic human amylin analogue AC137 (pramlintide) and glucagon-like peptide-1 (7-36)-amide, a strong glucose-dependent stimulator of insulin secretion. It remains to be seen whether these compounds can be developed further for clinical use in patients with diabetes.
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PMID:New treatments for patients with type 2 diabetes mellitus. 894 6

The syndrome of insulin resistance comprises the following H-phenomena: 1. Hyperinsulinism compensating the inborn postreceptor insulin resistance, 2. Hyperglycaemia-non-insulin-dependent diabetes mellitus, 3. Hyperlipoproteinaemia with android obesity, 4. Hypertension, 5. Hirsutism with the syndrome of polycystic ovaries as a manifestation of a hyperandrogenic situation in the female organism. Molecular syndromes of this syndrome of insulin resistance are obscure. They are the subject of intensive studies because H-phenomena are an aggregation of the main risk factors of atherogenesis. Recently attention is focused also on amylin--a 37 amino acid peptide with a 50% homologous amino acid sequence with a calcitonin-gene--related peptide (CGRP), which is the product of a gene made up of three introns on the 12th chromosome. Amylin acts in the beta-cells of the pancreas as a co-secretion of insulin. If in excess, it is deposited in the form of an amyloid in the beta-cells. In the early stage of NIDDM it alters the physiological response of the beta-cell to glycaemic stimuli and food, in later stages of the disease, after accumulation, it causes apoptosis of the beta-cell and reduces thus the secretory capacity of the Langerhans islets. It is excreted in the urine and thus, if the glomerular filtration is reduced, it cumulates in the blood stream and thus enhances insulin resistance already in the early stages of chronic renal insufficiency, or in diabetic nephropathy. In type II diabetes similarly as insulin levels also amylin levels are elevated, while in type I diabetes with early autoimmune destruction of the beta-cells the insulin and amylin levels are reduced or even zero. Amylin reduces in the muscle, probably by inhibition of glycogen synthase, the insulin stimulated non-oxidative utilization of glucose into muscle glycogen and conversely by stimulation of phosphorylase it stimulates glycogenolysis and thus also lactate production and gluconeogenesis in the liver which all are anti-insulin effects which intensify the insulin resistance of the main target tissues. Amylin, similarly as CGRP or calcitonin, reduces Ca blood levels and has a vasodilatating effect; it reduces the BP but in different minimal and maximal doses and by a different mechanism and via special receptors because the link of amylin to calcitonin receptors is 100 times lower and does not produce a rise of cAMP in the target cell. The effect on the enhancement of insulin resistance in muscle was proved also by direct measurements using an hyperinsulinaemic euglycaemic clamp. After prolongation of the clamp to more than two hours the effect on insulin resistance disappeared, although the hypocalcinaemic effect persisted. Amylin is able by its biological action to modify the secretion as well as the effectiveness of insulin to pathological values. These two characteristics are typical for impaired glucose tolerance in type II diabetes. Studies are under way to find out whether the effect of amylin is involved directly also in the pathogenesis of the other H-phenomena or only via accentuation of hyperinsulinism. In any case amylin is a new link the role of which in the pathogenesis of NIDDM and the syndrome of insulin resistance awaits evaluation. Due to its effect on gastric evacuation it participates also in the postprandial glycaemic control in particular in type I diabetes where it it begins to be used in therapy. Perhaps it will be possible to administer it in these patients along with insulin to improve diabetes compensation.
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PMID:[Amylin as an additional possible pathogenic factor in NIDDM and the insulin resistance syndrome]. 896 27

The objective was to evaluate the effect of insulin treatment on circulating islet amyloid polypeptide (IAPP). Twelve patients with NIDDM and secondary failure were studied on oral agents and then switched to insulin treatment. Fasting and postprandial IAPP concentrations were measured on oral treatment and on insulin treatment. In 5 of the patients no postprandial concentrations were determined. In the 7 patients who were investigated both fasting and postprandially the fasting IAPP concentration was 6.5 +/- 1.2 pmol l(-1) (mean +/- SEM) during oral treatment with a rise to 13.5 +/- 3.1 90 min after breakfast (p = 0.028). On insulin treatment HbA1c decreased from 8.6 +/- 0.5 to 7.5 +/- 0.4% (p< 0.03) and plasma C-peptide concentration was significantly lowered (p< 0.01). There was a close correlation using simple regression between the per cent change of IAPP concentration and the per cent change of C-peptide concentration during this period (r = 0.88; p< 0.01). In the total patient material of 12 patients there was a significant correlation using simple regression analysis between per cent change of IAPP concentration and per cent change of C-peptide concentration using all 48 measurements available (r = 0.58: p< 0.001). These data suggest that secretion of IAPP is lowered when endogenous insulin secretion is lowered by administration of exogenous insulin in patients with NIDDM. Thus, if IAPP secretion has a pathogenetic role in the development of beta cell failure in NIDDM, insulin treatment might delay this deterioration.
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PMID:Effect of insulin treatment on circulating islet amyloid polypeptide in patients with NIDDM. 921 13

In order to define the islet amyloid polypeptide (IAPP) levels in gestational diabetes mellitus (GDM) and their interrelationship with the insulin levels, we studied (1) the placental RNA from 10 women (5 with GDM and 5 normals) for IAPP expression by Northern blotting and (2) 10 women with GDM during a 100-gram oral glucose tolerance test and compared these with 11 normal women matched for obesity and age. Plasma levels of glucose, IAPP, insulin, and C peptide were determined. No IAPP expression was detected in any of the placentae after a long exposure. We could not demonstrate any differences in plasma IAPP levels (basal or stimulated) between the two groups of pregnant women. However, in women with GDM we found a lower IAPP/insulin ratio (p < 0.05) and a lower maximal IAPP/maximal insulin response ratio during the oral glucose tolerance test (p < 0.05) than in normal women. Therefore, IAPP does not appear to be directly involved in the development of GDM. The peripheral levels of IAPP relative to insulin are lower in GDM, a finding similar to that described in type 2 diabetes mellitus (non-insulin-dependent diabetes mellitus). This observation further confirms that GDM resembles the early stages of type 2 diabetes mellitus.
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PMID:Islet amyloid polypeptide (amylin) does not seem to be directly involved in the development of gestational diabetes mellitus. 925 46

Non-insulin-dependent diabetes mellitus (NIDDM, type 2 diabetes) is a heterogeneous disease resulting from a dynamic interaction between defects in insulin secretion and insulin action. There are various pharmacological approaches to improving glucose homeostasis, but those currently used in clinical practice either do not succeed in restoring normoglycaemia in most patients or fail after a variable period of time. For glycaemic regulation, 4 classes of drugs are currently available: sulphonylureas, biguanides (metformin), alpha-glucosidase inhibitors (acarbose) and insulin, each of which has a different mode and site of action. These standard pharmacological treatments may be used individually for certain types of patients, or may be combined in a stepwise fashion to provide more ideal glycaemic control for most patients. Adjunct treatments comprise a few pharmacological approaches which may help to improve glycaemic control by correcting some abnormalities frequently associated with NIDDM, such as obesity (serotoninergic anorectic agents) and hyperlipidaemia (benfluorex). There is intensive pharmaceutical research to find new drugs able to stimulate insulin secretion (new sulphonylurea or nonsulphonylurea derivatives, glucagon-like peptide-1), improve insulin action (thiazolidinediones, lipid interfering agents, glucagon antagonists, vanadium compounds) or reduce carbohydrate absorption (miglitol, amylin analogues, glucagon-like peptide-1). Further studies should demonstrate the superiority of these new compounds over the standard antidiabetic agents as well as their optimal mode of administration, alone or in combination with currently available drugs.
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PMID:Drug treatment of non-insulin-dependent diabetes mellitus in the 1990s. Achievements and future developments. 927

Amylin or islet amyloid polypeptide (IAPP) is the protein component of amyloid deposits commonly seen in pancreatic islets of patients with type 2 diabetes mellitus. In in vitro and in animal studies amylin has been shown to decrease insulin secretion and induce insulin resistance. Amylin is stored in the beta-cells and released together with insulin. Circulating amylin is increased in obesity, hypertension and pregnancy, while it is absent in type 1 diabetes mellitus. In type 2 diabetes mellitus the secretion of amylin is impaired prior to that of insulin. Infusion of amylin in man in doses leading to pharmacological levels did not cause any decrease of insulin sensitivity but an impairment of insulin secretion occurred. The recent availability of an amylin antagonist confirmed the effect of amylin on the decrease of insulin secretion in man. The kinetic pattern of amylin, which is presumably excreted by the kidneys, closely resembles that of C-peptide. Subcutaneous administration of the amylin agonist, pramlintide, delays gastric emptying in patients with type 1 diabetes mellitus and, thus, reduces postprandial hyperglycemia. In summary, there is evidence that amylin is able to regulate insulin secretion and gastric emptying in man, but further proof is required.
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PMID:[Amylin/IAPP (islet amyloid polypeptide)--physiology and clinical significance]. 928 Dec 27

Non-insulin-dependent diabetes mellitus (NIDDM) is associated histopathologically with islet amyloid deposits of which a major component is islet amyloid polypeptide (IAPP)/amylin. We examined whether endogenous IAPP controls insulin secretion via a local effect within pancreatic islets and whether overexpression of this peptide contributes to pancreatic beta-cell dysfunction in this disease. Transgenic mice expressing human IAPP in pancreatic beta cell were used in this study. Human IAPP expression did not influence the mouse proinsulin mRNA level and insulin content. Glucose-induced insulin secretion was decreased in the isolated pancreatic islets of transgenic mice. MIN6, a glucose-responsive pancreatic beta-cell line, was transfected with human IAPP cDNA by a lipofectin method. Human IAPP expression was confirmed by RNA blot and immunohistochemical analysis. In two transfectants expressing the largest amount of human IAPP, insulin secretion was increased in response to glucose stimulation; however, the magnitude of the insulin response in cells transfected with human IAPP was smaller than in control clones. Insulin content was not influenced by the expression. We conclude that endogenous IAPP inhibits insulin secretion via an autocrine effect within pancreatic islets, and that the impaired insulin secretion in this disease may be partly caused by overexpression of IAPP.
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PMID:Expression of human islet amyloid polypeptide/amylin impairs insulin secretion in mouse pancreatic beta cells. 928 94


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