UMLS:C0011860 - FACTA Search

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Query: UMLS:C0011860 (type 2 diabetes)
57,723 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The inhibition of protein-tyrosine phosphatase 1B (PTP1B) is a potential target for treatment of type 2 diabetes. Vanadium and zinc metal coordinated complexes have insulin-enhancing activities, and while vanadium compounds inhibit PTP1B, little is known on the mode of action of zinc compounds. In this study we developed an automated PTP1B inhibition assay that allows for a rapid assessment of the PTP1B inhibition strength of candidate compounds. Synthetic vanadium(IV) and zinc(II) complexes were evaluated: IC50 values for vanadium complexes ranged from 0.06 to 0.8 microM whereas for zinc compounds, values were above 10 microM. Vanadium sulfate, a non-conjugated inorganic salt, had stronger inhibition activity than any of the conjugated metal complexes.
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PMID:Development of an automated protein-tyrosine phosphatase 1B inhibition assay and the screening of putative insulin-enhancing vanadium(IV) and zinc(II) complexes. 1574 40

Several metal ions and their complexes have been known to mimic the action of insulin in in vitro and in vivo systems. We prepared a family of Zn(II) complexes derived from amino ligands with Zn(Nn) (n=3 and 4) coordination modes, the insulinomimetic activity being estimated by an inhibitory effect of free fatty acid release from isolated rat adipocytes treated with epinephrine. In comparison with the positive controls VOSO(4) and ZnSO(4), Zn(II)-amine complexes with stability constants (log beta) lower than 11.5 exhibited higher insulinomimetic activities. Among them, a bis(2-aminomethyl pyridinato)Zn(II) (Zn(2-ampy)(2)(2+)) complex with the highest insulinomimetic activity and a higher stability constant but lower than 11.5 was selected, and subjected to in vivo evaluation in KK-A(y) mice with a genetically type 2 diabetes mellitus. The high blood glucose level of the mice was lowered by daily intraperitoneal injections of Zn(2-ampy)(2)(2+) at a dose of 2 mg Zn/kg body weight for 14 days. Based on the results, Zn(2-ampy)(2)(2+) with Zn(N(4)) coordination mode was proposed to have both a high in vitro insulinomimetic activity and an in vivo blood glucose lowering effect.
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PMID:A family of insulinomimetic zinc(II) complexes of amino ligands with Zn(Nn) (n=3 and 4) coordination modes. 1592 60

Insulin glargine is a biosynthetic human insulin analog which has been developed by Aventis Pharma (formerly Hoechst Marion Roussel, HMR), for the treatment of types I and II diabetes. In April 1999, HMR filed insulin glargine for approval in both Europe and the US [322507]. In April 2000, the FDA approved insulin glargine (as Lantus) for the treatment of adult patients with type II diabetes mellitus, who require basal insulin for the control of hyperglycemia, and for adult and pediatric patients with type I diabetes mellitus [363836]. Aventis expects to launch this product during 2000 [361988]. In June 2000, the EMEA approved insulin glargine for the treatment of both type I and II diabetes [370984]. In April 1999, the FDA recommended that HMR should initially submit 6-month efficacy and safety data, instead of the usual 12- month data, to hasten the FDA approval procedure. The rest of the phase III data would be added to the filing at a later date [279466]. Insulin glargine is in phase III trials in Japan as a substitute for basal insulin in the treatment of Type I diabetes [216445]. Two formulations of insulin glargine with zinc have also been tested in phase I trials. HOE-71/GT15 and GT80 contain 15 and 80 mu g/ml of zinc. These formulations appear to have longer duration of action with a reduced peak insulin effect [177507]. This insulin analog has a lower receptor binding affinity compared with human insulin, but shows equal potency in vivo [320724]. Insulin glargine was designated as a medium priority project by HMR, which means the project had been set tight deadlines which if not achieved, would have resulted in discontinuation [221118]. In April 2000, Novo Nordisk filed a complaint in Germany against Aventis claiming that the production and sale of insulin glargine infringes two German patents held by Novo Nordisk [364362]. In July 2000, Credit Lyonnais Securities Europe predicted that insulin glargine was likely to enjoy a strong competitive position for several years in Europe and the US, following launch in these territories during 2000, while it was predicted that a registration dossier would be submitted in Japn in 2002. Sales were predicted to reach Euro 600 million by 2005. In April 1999, ABN Amro predicted annual sales of DM 75 million in 2000, rising to DM 200 million in 2002 [328676].
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PMID:Insulin glargine (Aventis Pharma). 1604 68

In developing new insulinomimetic zinc(II) complexes with different coordination structures and with a blood glucose-lowering effect to treat type 2 diabetic animals, we found a potent bis(maltolato)zinc(ll) complex, Zn(mal)(2). Using the complex as the leading compound, we examined the in vitro and in vivo structure-activity relationships of Zn(mal)(2) and its related complexes in respect to the inhibition of free fatty acids (FFA) release and the enhancement of glucose uptake in isolated rat adipocytes treated with epinephrine (adrenaline), and hypoglycemic activity. Among the compounds tested, a new Zn(II) complex with allixin that was isolated from garlic, bis(allixinato)Zn(II), Zn(alx)(2), was found to exhibit the highest insulin-mimetic and hypoglycemic activities in type 2 KK-A(y) diabetic mice. On the basis of the results, Zn(alx)(2), complex was proposed to be a potent candidate for the treatment of type 2 diabetes.
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PMID:The pharmacology of the insulinomimetic effect of zinc complexes. 1615 23

Gliclazide is a well known agent used for NIDDM. Present paper reports the synthesis and characterization of its metal complexes with magnesium, calcium, chromium, manganese, iron, nickel, copper, zinc and cadmium. These complexes were characterized through physical characteristics, IR, H(1)-NMR, and atomic absorption spectroscopic studies.
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PMID:Synthesis and characterization of gliclazide complexes of magnesium, calcium, chromium, manganese, iron, nickel, copper, zinc and cadmium salts. 1638 Mar 56

Vascular complications, including ischaemic cardiomyopathy, are the major causes of death in old diabetic patients. Chronic inflammation due to high IL-6 production occurs in type 2 diabetes (NIDDM) and atherosclerosis. High levels of IL-6 are associated with hyperglycaemia, dyslipidemia and provoke insulin resistance. In ageing and inflammation, IL-6 affects Metallothionein (MT) homeostasis, which in turn is involved in zinc turnover. Zinc deficiency is an usual event in ageing, inflammation, type 2 diabetes and atherosclerosis. No genetic study exists on MT polymorphisms in NIDDM-atherosclerotic patients. The aim of the present study is to screen a single nucleotide polymorphism in the promoter region of the MT2A gene in relation to inflammation (IL-6) and plasma zinc in NIDDM-atherosclerotic patients. The -209 A/G MT2A polymorphism is associated with chronic inflammation (higher plasma levels of IL-6), hyperglycaemia, enhanced HbA1c and more marked zinc deficiency in AA than AG genotype carrying patients. Analysing patients and controls subdivided in AA and AG genotypes, significant interactions existed between disease status and genotypes for glucose and zinc. AA patients are more at risk of developing NIDDM in association with atherosclerosis (p=0.0015 odds ratio=2.617) and its complications, such as ischaemic cardiomyopathy (p=0.0050 odds ratio=12.6). In conclusion, high levels of IL-6 unmask the phenotypes (higher insulin resistance and zinc deficiency) in relation to the genotypes with subsequent risk of developing ischaemic cardiomyopathy in NIDDM-atherosclerotic patients carrying AA genotype. Hence, the novel -209A/G MT2A polymorphism may be a further useful tool for the prevention, diagnosis and therapy of these combined pathologies in the elderly.
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PMID:Novel -209A/G MT2A polymorphism in old patients with type 2 diabetes and atherosclerosis: relationship with inflammation (IL-6) and zinc. 1651 2

Insulin degrading enzyme (IDE), a zinc metalloprotease, can specifically recognize and degrade insulin, as well as several amyloidogenic peptides such as amyloid beta (Abeta) and amylin. The disruption of IDE function in rodents leads to glucose intolerance and cerebral Abeta accumulation, hallmarks of type 2 diabetes and Alzheimer's disease, respectively. Using limited proteolysis, we found that human IDE (113kDa) can be subdivided into two roughly equal sized domains, IDE-N and IDE-C. Oligomerization plays a key role in the activity of IDE. Size-exclusion chromatography and sedimentation velocity experiments indicate that IDE-N is a monomer and IDE-C serves to oligomerize IDE-N. IDE-C alone does not have catalytic activity. It is IDE-N that contains the crucial catalytic residues, however IDE-N alone has only 2% of the catalytic activity of wild type IDE. By complexing IDE-C with IDE-N, the activity of IDE-N can be restored to approximately 30% that of wild type IDE. Fluorescence polarization assays using labeled insulin reveal that IDE-N has reduced affinity to insulin relative to wild type IDE. Together, our data reveal the modular nature of IDE. IDE-N is the catalytic domain and IDE-C facilitates substrate recognition as well as plays a key role in the oligomerization of IDE.
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PMID:The C-terminal domain of human insulin degrading enzyme is required for dimerization and substrate recognition. 1657 64

Here we describe a rapid and sensitive zinquin-based fluorometric assay that enables one to monitor levels of labile Zn(II) in body fluids, buffers, and cell-conditioned culture media as well as changes in these pools in disease. Labile pools of Zn(II) are free or loosely bound pools and more tightly bound but zinquin-accessible pools in contrast to the fixed pools of Zn(II) within metalloproteins. In human plasma, mean labile Zn(II) was 8.1 microM (SEM 0.53; n = 81) and constituted about 70% of the total plasma Zn(II) and >90% of human plasma albumin Zn(II). Plasma labile Zn(II) was significantly depleted after 7 days of Zn(II) deprivation in mice, despite only small changes in body weight. Labile Zn(II) concentrations were also measured in the induced sputum plugs, saliva, and urine of normal adults and were 1.30 microM (SEM 0.27; n = 73), 0.11 microM (SEM 0.11; n = 6), and 0.23 microM (SEM 0.08; n = 8), respectively. Urinary labile Zn(II) concentration was significantly increased in some patients with type II diabetes mellitus (overall mean was 0.90 microM, SEM 0.30; n = 12). The technique may be particularly useful in assessing extracellular Zn(II) levels in diseases associated with altered Zn(II) homeostasis, identifying those subjects most in need of Zn(II) supplementation, and defining the optimum concentrations of available Zn(II) in buffers and culture media.
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PMID:Use of a zinc fluorophore to measure labile pools of zinc in body fluids and cell-conditioned media. 1662 98

Glibenclamide is the commonly used hypoglycemic agent in NIDDM. Metal complexes of glibenclamide have been synthesized by reaction with different metals such as magnesium, chromium, cobalt, nickel, zinc and cadmium in the form of their chlorides. These complexes were characterized by their physical characteristics, 1H-NMR, IR and Atomic absorption studies.
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PMID:Synthesis and characterization of glibenclamide complexes of magnesium, chromium, cobalt, nickel, zinc and cadmium salts. 1675 Nov 21

The aim of this study was to compare the nutritional status of zinc and copper in patients with and without diabetes submitted to chronic hemodialysis. Thirty-three patients with type 2 diabetes (DM group), 30 nondiabetic patients (NDM group), and 20 healthy individuals (control group) were studied. Plasma, erythrocyte, and urinary zinc and plasma copper were obtained from atomic absorption spectrophotometry and ceruloplasmin by immunonephelometry. The anthropometric parameters were similar among the groups. Plasma zinc was lower and erythrocyte zinc was higher in the DM and NDM groups in relation to the control group. No difference in urinary zinc was observed comparing the groups. Plasma copper was higher in the DM group when compared to the NDM and control groups. Ceruloplasmin was similar in the three groups. Serum urea was a positive independent determinant of plasma zinc concentrations. The determinants of erythrocyte zinc were MAMC midarm muscle circumference and Kt/V dialysis adequacy. The determinants of plasma copper concentration were serum creatinine and serum glucose. The results of this study demonstrate an alteration in the distribution of zinc in patients with chronic kidney disease (CKD) independently of the presence of DM. Also, the status of copper seems not to be influenced by CKD, but only by the metabolic derangements associated with diabetes.
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PMID:Effect of end-stage renal disease and diabetes on zinc and copper status. 1694 12

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