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)

Insulin degradation is a regulated process that plays a role in controlling insulin action by removing and inactivating the hormone. Abnormalities in insulin clearance and degradation are present in various pathological conditions including type 2 diabetes and obesity and may be important in producing clinical problems. The uptake, processing, and degradation of insulin by cells is a complex process with multiple intracellular pathways. Most evidence supports IDE as the primary degradative mechanism, but other systems (PDI, lysosomes, and other enzymes) undoubtedly contribute to insulin metabolism. Recent studies support a multifunctional role for IDE, as an intracellular binding, regulatory, and degradative protein. IDE increases proteasome and steroid hormone receptor activity, and this activation is reversed by insulin. This raises the possibility of a direct intracellular interaction of insulin with IDE that could modulate protein and fat metabolism. The recent findings would place intracellular insulin-IDE interaction into the insulin signal transduction pathway for mediating the intermediate effects of insulin on fat and protein turnover.
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PMID:Insulin degradation: progress and potential. 979 60

Peroxisome proliferator-activated receptor alpha (PPARalpha) is a member of the steroid hormone receptor super family involved in the control of cellular lipid utilization. This makes PPARalpha a candidate gene for type 2 diabetes and dyslipidemia. The aim of this study was to investigate whether genetic variation in the human PPARalpha gene can influence the risk of type 2 diabetes and dyslipidemia among French Canadians. We therefore first determined the genomic structure of human PPARalpha, and then designed intronic primers to sequence the coding region and the exon-intron boundaries of the gene in 12 patients with type 2 diabetes and in 2 nondiabetic subjects. Sequence analysis revealed the presence of a L162V missense mutation in exon 5 of one diabetic patient. Leucine 162 is contained within the DNA binding domain of the human PPARalpha gene, and is conserved among humans, mice, rats, and guinea pigs. We subsequently screened a sample of 121 patients newly diagnosed with type 2 diabetes and their age and sex-matched nondiabetic controls, recruited from the Saguenay-Lac-St-Jean region of Northeastern Quebec, for the presence of the L162V mutation by a PCR-RFLP based method. There was no difference in L162 homozygote or V162 carrier frequencies between diabetics and nondiabetics. However, whether diabetic or not, carriers of the V162 allele had higher plasma apolipoprotein B levels compared to noncarriers (P 5 0.05). To further this association, we screened another sample of 193 nondiabetic subjects recruited in the greater Quebec City area. Carriers of the V162 allele compared with homozygotes of the L162 allele had significantly higher concentrations of plasma total and LDL-apolipoprotein B as well as LDL cholesterol (P </= 0.02). These results suggest an association between the PPARalpha V162 allele and the atherogenic/hyperapolipoprotein B dyslipidemia.
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PMID:Molecular scanning of the human PPARa gene: association of the L162v mutation with hyperapobetalipoproteinemia. 1082 87

Insulin resistance is a fundamental feature of type 2 diabetes and is also associated with increased cardiovascular risk. The thiazolidinediones are insulin sensitizing agents which improve insulin resistance by combining with an intranuclear hormone receptor. They have been shown in human studies to both reduce insulin resistance and improve pancreatic beta-cell function. They are effective both as monotherapy and in combination with sulphonylureas or metformin in improving glycaemia, with evidence of improvement in other features of metabolic syndrome. They are generally well tolerated, do not cause hypoglycaemia and have the potential to provide sustained diabetic control and reduce cardiovascular risk. They appear to be an important advance in diabetes management but further work is still required to determine their true potential.
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PMID:Insulin-sensitizing agents--thiazolidinediones (glitazones). 1236 17

Nektar Therapeutics (formerly Inhale Therapeutic Systems) has developed a pulmonary drug delivery system for insulin [HMR 4006, Exubera]. The rationale behind developing a pulmonary drug delivery system is to ensure that insulin powder is delivered deep into the lungs, where it is easily absorbed into the bloodstream, in a hand-held inhalation device. The device converts the insulin powder particles into an aerosol cloud for the patient to inhale. No propellants are used. The inhaler requires no power source and the clear chamber ensures that the patient knows immediately when all the insulin has been inhaled. Nektar Therapeutics, developers of the inhalation device and formulation process, has licensed the system to Pfizer. Under the terms of the agreement, Pfizer will lead the clinical development of inhaled insulin, while working with Nektar Therapeutics to develop the technology required for packaging the product. Pfizer has an agreement with Hoechst Marion Roussel (now Aventis Pharma) for developing, manufacturing and promoting inhaled insulin. Under the terms of the collaboration, Aventis Pharma will supply recombinant insulin to Nektar Therapeutics to process it into dry powder for incorporation into the inhaler device. Nektar Therapeutics will receive royalties on sales of inhaled insulin marketed by Pfizer and Aventis Pharma, and milestone payments and research support from Pfizer. Aventis Pharma's codename for the product is HMR 4006.Profil, a CRO in Germany, is cooperating with Pfizer/Aventis Pharma in the development of inhaled insulin. In March 2004, Pfizer and Aventis announced that the European Medicines Evaluation Agency (EMEA) accepted the filing of the MAA for inhaled insulin (Exubera) for the treatment of type 1 and type 2 diabetes mellitus. The two companies are working with the US FDA to determine the timing for the submission of the NDA in the US. Pfizer completed five pivotal phase III clinical trials with inhaled insulin in patients with type 1 and type 2 diabetes mellitus in 120 centres worldwide, and will use a fourth prototype inhaler device that is half the size of the first prototype, and has reduced manufacturing costs. Pfizer and its partner, Aventis Pharma, are conducting additional long-term pulmonary safety data studies in patients with type 1 and type 2 diabetes. Pfizer is also conducting phase III clinical trials with inhaled insulin in paediatric patients aged 6-17 years. Nektar Therapeutics is using its Advanced PEGylation technology to develop a dry powder-inhaled polyethylene glycol (PEG) formulation for delivering peptides efficiently across the lungs and to promote prolonged serum concentration of the peptide. PEG is a neutral, water-soluble, nontoxic polymer comprising any number of repeating units of ethylene oxide. PEGylation is designed to increase the size of the active molecule and ultimately improve drug performance by optimising pharmacokinetics, increasing bioavailability, and decreasing immunogenicity and dosing frequency. The investigation has begun with inhaled, long-acting (PEGylated) insulin [inhaled PEG-insulin, PEGylated insulin--Nektar], and is funded by Pfizer. Preclinical results of a dry powder formulation of inhaled PEG-insulin presented at the 63rd Scientific Sessions of the American Diabetes Association (ADA-2003) [June 2003, New Orleans, LA, USA] demonstrated prolonged systemic activity of insulin in dogs. Nektar Therapeutics was granted US patent 5,997,848 on a method for delivering inhalable insulin. The patent covers a method for delivering of 0.5-15 mg of aerosol dry powder insulin per dosing session in 1-4 individual dosages into the deep lung for systemic absorption. The patent does not specify the formulation of insulin or aerosol delivery device. Nektar Therapeutics estimated in June 2002 that Exubera could earn the company potential revenues of >200 million US dollars.
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PMID:Insulin inhalation--Pfizer/Nektar Therapeutics: HMR 4006, inhaled PEG-insulin--Nektar, PEGylated insulin--Nektar. 1513 80

Vascular reactivity to nitric oxide (NO) is mediated by NO-sensitive soluble guanylyl cyclase (sGC). Since a diminished activity of vascular sGC has been reported in an animal model of type 2 diabetes, the sGC activity was assayed in vitro in internal mammary artery specimens obtained during bypass surgery from patients with and without type 2 diabetes. The sensitivity of sGC to NO, which is dependent on Fe(2+)-containing heme, was measured in vitro using stimulation with diethylamine NONOate (DEA/NO). In addition, the novel cyclic guanosine monophosphate-elevating compound HMR-1766 was used to test the stimulation of the oxidized heme-Fe(3+)-containing form of sGC. Basal activity of sGC and its sensitivity to stimulation by DEA/NO and HMR-1766 were not different between control and type 2 diabetic patients: maximum stimulation by DEA/NO amounted to 475 +/- 67 and 418 +/- 59 pmol. mg(-1). min(-1) in control and type 2 diabetic patients, respectively. The maximum effects of HMR-1766 were 95 +/- 18 (control subjects) and 83 +/- 11 pmol. mg(-1). min(-1) (type 2 diabetic patients). Hypertension, hyperlipidemia, drug treatment with statins, ACE inhibitors, or nitrates had no effect on sGC activity. In conclusion, the present findings do not support the hypothesis that desensitization of sGC contributes to the pathogenesis of diabetic vascular dysfunction in humans.
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PMID:Nitric oxide-sensitive soluble guanylyl cyclase activity is preserved in internal mammary artery of type 2 diabetic patients. 1544 95

Glucagon-like peptide-1(7-36)amide (GLP-1) and glucose-dependent insulinotropic polypeptide (GIP) are gastrointestinal insulin-releasing hormones involved in the regulation of postprandial nutrient homeostasis. These two incretin hormones are glucose-dependent stimulators of pancreatic beta-cell function, exhibiting a spectrum of secondary extrapancreatic activities, which favour the efficient control of blood glucose homeostasis. Such actions of GLP-1 and GIP have generated considerable interest in their possible exploitation as novel agents for the treatment of type 2 diabetes. Despite the many attributes of GLP-1 and GIP as possible future antidiabetic agents, their rapid degradation in the circulation by dipeptidyl peptidase IV (DPP IV) to inactive truncated forms GLP-1(9-36)amide and GIP(3-42), severely limits their therapeutic usefulness. This review will consider recent developments in the design and effectiveness of synthetic DPP IV-resistant analogues of GLP-1 and GIP. Consideration will be given to the effects of N-terminal modification and amino acid substitution of GLP-1 and GIP either side of the DPP IV cleavage site on (i) susceptibility to enzymatic degradation, (ii) binding to native hormone receptor, (iii) ability to elevate intracellular cyclic AMP, (iv) potency as insulin secretagogues, and (v) antihyperglycaemic activity in type 2 diabetes. It will be shown that structural modification can produce a varied set of biological activities, ranging from more efficacious analogues to those which antagonise the activity of the native hormone. The antidiabetic properties of the best GLP-1 and GIP analogues indeed promise to provide the basis for novel, effective and long-acting drugs for type 2 diabetes therapy. This approach is currently being pursued actively by the pharmaceutical industry.
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PMID:Structurally modified analogues of glucagon-like peptide-1 (GLP-1) and glucose-dependent insulinotropic polypeptide (GIP) as future antidiabetic agents. 1557 61

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

Type 2 diabetes mellitus is associated with increased incidence and inferior outcome of various malignancies. The aim of this study was to explore the impact of type 2 diabetes on breast cancer characteristics at presentation. The study population included 79 diabetic and 158 age-matched non-diabetic patients. Parity, country of birth, co-morbidity other than diabetes, and mode of diagnosis were similar in both groups. Mean body mass index (BMI) was higher among diabetic patients. Tumour stage and size were higher among diabetic patients and the differences remained significant after adjustment for BMI. Moreover, after adjustment for BMI, breast cancer among diabetic patients was more often hormone receptor negative. Our results show that diabetes mellitus is associated with negative prognostic factors at breast cancer presentation.
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PMID:Association between diabetes mellitus and adverse characteristics of breast cancer at presentation. 1657 4

Glycerol kinase (GK) is at the interface of fat and carbohydrate metabolism and has been linked to obesity and type 2 diabetes mellitus (T2DM). The purpose of this study was to investigate the role of GK in fat metabolism and insulin signaling in skeletal muscle (an important end organ tissue in T2DM). Microarray analysis determined that there were 525 genes that were differentially expressed (1.2-fold, p value<0.05) between knockout (KO) and wild-type (WT) mice. Quantitative PCR (qPCR) confirmed the differential expression of genes including glycerol kinase (Gyk), phosphatidylinositol 3-kinase regulatory subunit, polypeptide 1 (p85 alpha) (Pik3r1), insulin-like growth factor 1 (Igf1), and growth factor receptor bound protein 2-associated protein 1 (Gab1). Network component analysis demonstrated that transcription factor activities of myogenic differentiation 1 (MYOD), myogenic regulatory factor 5 (MYF5), myogenin (MYOG), nuclear receptor subfamily 4, group A, member 1 (NUR77) are decreased in the Gyk KO whereas the activity of paired box 3 (PAX3) is increased. The activity of MYOD was confirmed using a DNA binding assay. In addition, myoblasts from Gyk KO had less ability to differentiate into myotubes compared to WT myoblasts. These findings support our previous studies in brown adipose tissue and demonstrate that the role of Gyk in muscle is due in part to its non-metabolic (moonlighting) activities.
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PMID:Transcriptomic and network component analysis of glycerol kinase in skeletal muscle using a mouse model of glycerol kinase deficiency. 1912 67

It has been suggested that type 2 diabetes mellitus may affect breast cancer prognosis, possibly due to increased diabetes-related comorbidity, or direct effects of insulin resistance and/or hyperinsulinemia. The aim of this study was to determine the impact of diabetes on disease-free survival (DFS) following mastectomy for breast cancer patients. The cases included in this retrospective study were selected from breast cancer women who had undergone mastectomy and completed adjuvant chemotherapy from 1998 to 2010. Patients were classified into two groups: diabetic and non-diabetic. Patients' age, sex, menopausal status, body mass index (BMI), histopathological features, tumor size, lymph node involvement, hormone receptor and HER2-neu status, and treatment types were recorded. There were 483 breast cancer patients included in the study. Postmenopausal patients' rate (53.7% vs. 36.8%, P = 0.016) and mean BMI levels were statistically higher (32.2 vs. 27.9, P = 0.007) in diabetic patients. There was no statistical difference for histological subgroup, grade, ER and PR positivity, HER2-neu overexpression rate, and tumor size between the diabetic and non-diabetic group. Lymph node involvements were statistically higher in diabetic patients compared with non-diabetic patients (P = 0.013). Median disease-free survival is 81 months (95% CI, 61.6-100.4) in non-diabetic patients and 36 months (95% CI, 13.6-58.4) in diabetic patients (P < 0.001). The odds ratio of recurrence was significantly increased in those with HER2-neu overexpression and lymph node involvement and decreased with PR-positive tumors. Our results suggest that diabetes is an independent prognostic factor for breast cancer.
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PMID:Type 2 diabetes mellitus and prognosis in early stage breast cancer women. 2208 54

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