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)

Somatomedin-1 binding protein-3 [insulin-like growth factor-1 binding protein-3, SomatoKine] is a recombinant complex of insulin-like growth factor-1 (rhIGF-1) and binding protein-3 (IGFBP-3), which is the major circulating somatomedin (insulin-like growth factor) binding protein; binding protein-3 regulates the delivery of somatomedin-1 to target tissues. Somatomedin-1 binding protein-3 has potential as replacement therapy for somatomedin-1 which may become depleted in indications such as major surgery, organ damage/failure and traumatic injury, resulting in catabolism. It also has potential for the treatment of osteoporosis; diseases associated with protein wasting including chronic renal failure, cachexia and severe trauma; and to attenuate cardiac dysfunction in a variety of disease states, including after severe burn trauma. Combined therapy with somatomedin-1 and somatomedin-1 binding protein-3 would prolong the duration of action of somatomedin-1 and would reduce or eliminate some of the undesirable effects associated with somatomedin-1 monotherapy. Somatomedin-1 is usually linked to binding protein-3 in the normal state of the body, and particular proteases clip them apart in response to stresses and release somatomedin-1 as needed. Therefore, somatomedin-1 binding protein-3 is a self-dosing system and SomatoKine would augment the natural supply of these linked compounds. Somatomedin-1 binding protein-3 was developed by Celtrix using its proprietary recombinant protein production technology. Subsequently, Celtrix was acquired by Insmed Pharmaceuticals on June 1 2000. Insmed and Avecia, UK, have signed an agreement for the manufacturing of SomatoKine and its components, IGF-1 and binding protein-3. CGMP clinical production of SomatoKine and its components will be done in Avecia's Advanced Biologics Centre, Billingham, UK, which manufactures recombinant-based medicines and vaccines with a capacity of up to 1000 litres. In 2003, manufacturing of SomatoKine is planned to move to Avecia's larger facility with a capacity of 10 000 litres. Somatomedin-1 binding protein-3 was originally licenced to Welfide for Japan. On October 1 2001, Welfide Corporation merged with Mitsubishi-Tokyo Pharmaceuticals to form Mitsubishi Pharma Corporation. The new company is a subsidiary of Mitsubishi Chemical. In April 2003 Insmed initiated a named patient programme in Europe, that will make available somatomedin-1 binding protein-3 for the treatment of growth hormone insensitivity syndrome (GHIS)--Laron syndrome. The treatment of patients was initiated in Scandinavia, with authorisation pending in several other European countries. Somatomedin-1 binding protein-3 will be made available to those GHIS patients who, in the opinion of their doctor, may benefit from IGF-1 therapy. At precommercial scale quantities, the drug will be available on a limited basis. Safety data generated from the named patient programme will be used to support marketing applications in 2004. A phase II dose-ranging study in children with GHIS was completed at Saint Bartholomew's and the Royal London School of Medicine, London, UK. A single dose of somatomedin-1 binding protein-3 delivered the same amount of IGF-1 as two daily injections of unbound IGF-1. There were no adverse events reported. GHIS is a genetic condition in which patients do not produce adequate quantities of IGF because of a failure to respond to the growth hormone signal. This results in a slower growth rate and short stature. Insmed has acquired an exclusive licence to Pharmacia's regulatory filings concerning yeast-derived IGF-1. These filings were used by Pharmacia to receive marketing approvals in several European countries and also in the investigational New Drug Application with the US FDA. This licence will facilitate the development of SomatoKine for the treatment of children with GHIS. In January 2003, Insmed announced positive results from a double-blind, placebo-controlled, dose-ranging study of SomatoKine in adolescent patients with type 1 diabetes mellitus redolescent patients with type 1 diabetes mellitus receiving insulin therapy. The study was conducted at the University of Cambridge, Cambridge, UK, under the supervision of Professor D. Dunger. It has also been granted orphan drug status for the treatment of GHIS--Laron syndrome in the US and in Europe. Celtrix has been granted 11 US patents for its recombinant protein production technology, which it used for developing somatomedin-1 binding protein-3. Subsequently, Celtrix was acquired by Insmed Pharmaceuticals on June 1 2000. Following the acquisition, Insmed announced that it intends to maintain the US rights to Celtrix's products portfolio. These US patents will expire between 2010 through 2017. Insmed is holding a US patent (expires in 2019) for the use of SomatoKine in the treatment of both type 1 and type 2 diabetes mellitus.
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PMID:Somatomedin-1 binding protein-3: insulin-like growth factor-1 binding protein-3, insulin-like growth factor-1 carrier protein. 1449 68

Insulin receptor substrate-2(IRS-2) belongs to a family of cytoplasmic adaptor proteins, which link insulin, insulin-like growth factor-1(IGF-1), and cytokine receptor tyrosine kinases to signaling pathways regulating metabolism, growth, differentiation, reproduction, and homestasis. Deficiency of IRS-2 in mice causes type 2 diabetes mellitus (T2DM), suggesting that abnormal structure and dysfunction of the IRS-2 gene may contribute to the pathogenesis of T2DM. Variations in the open reading frame (ORF) and promoter region of IRS-2 gene in patients with T2DM have been reported over the past few years. These genetic variations are from ethnically different patients, confounding any analysis of the contribution of IRS-2 gene variations to the development of T2DM. The 3'-untranslated region(3'-UTR) of IRS-2 gene variation may be contribute to the T2DM. So far, the relationship between 3'-UTR of IRS-2 gene variations and T2DM have not been investigated. Based on the 3'-UTR of eukaryotic gene plays an important role in the eukaryotic gene regulation, we investigated abnormalities of IRS-2 gene 3'-UTR and their relation with T2DM in the Chinese population. Genomic DNA was extracted from leukocyte of 128 patients with T2DM and 125 control subjects in Hunan, China. A segment of IRS-2 gene 3'-UTR was scanned by polymerase chain reaction (PCR)-denaturing high-performance liquid chromatography (DHPLC). All PCR products with abnormal DHPLC pattern were submitted to DNA sequence analysis. A T-->C mutation at 4064 bp of IRS-2 gene 3'-UTR was found in 18 patients with T2DM, while it was only found in 5 control subjects. The incidence of the mutation in patients with T2DM were much higher than that in contol subjects (14.1% vs 4.0%, x2 = 7.748, P = 0.005). These results indicate that the T4064-->C in IRS-2 gene 3'-UTR may be related to Chinese patients with T2DM.
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PMID:[Variation of insulin receptor substrate-2 gene 3'-untranslated region in patients with type 2 diabetes mellitus]. 1468 50

The issue of a possible relationship between type 2 diabetes and cancer is still debated. Such chronic diseases show a high incidence in the general population. In their pathophysiology both genetic and environmental factors are involved, inducing important modifications of metabolism. Diabetes is associated to profound metabolic alterations, such as hyperinsulinemia and insulin resistance, which are common in various diseases, i.e. obesity, hypertension, dyslipidemia and hyperuricemia. Those illnesses form the so-called metabolic syndrome. Insulin resistance, hyperestrinism and the associated hyperandrogenism may play a role in the onset of some malignancies, such as endometrium cancer, breast cancer and prostate cancer. Low plasma levels of IGF-1 are able to reduce the risk of cancer in type 2 diabetes patients. This goal can be obtained with preventive measures, as physical activity, diet and drugs that can reduce insulin resistance (metformin and thiazolidinediones).
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PMID:Evidence for a putative relationship between type 2 diabetes and neoplasia with particular reference to breast cancer: role of hormones, growth factors and specific receptors. 1503 27

A central component of type 2 diabetes and the metabolic syndrome is insulin resistance. Insulin exerts a multifaceted and highly integrated series of actions via its intracellular signaling systems. Generation of mice carrying null mutations of the genes encoding proteins in the insulin signaling pathway provides a unique approach to determining the role of individual proteins in the molecular mechanism of insulin action and the pathogenesis of insulin resistance and diabetes. The role of the four major insulin receptor substrates (IRS1-4) in insulin and IGF-1 signaling have been examined by creating mice with targeted gene knockouts. Each produces a unique phenotype, indicating the complementary role of these signaling components. Combined heterozygous defects often produce synergistic or epistatic effects, although the final severity of the phenotype depends on the genetic background of the mice. Conditional knockouts of the insulin receptor have also been created using the Cre-lox system. These tissue specific knockouts have provide unique insights into the control of glucose homeostasis and the pathogenesis of type 2 diabetes, and have led to development of new hypotheses about the nature of the insulin action and development of diabetes.
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PMID:Knockout mice challenge our concepts of glucose homeostasis and the pathogenesis of diabetes. 1506 45

Abstract Insulin-like growth factors (IGFs) have been implicated in normal growth, and especially foetal pancreas beta-cell development. As low birth weight has been implicated in the development of obesity and type 2 diabetes, much research has evolved into the importance of IGF and their signalling pathways for pancreas beta-cell development, and for type 2 diabetes. Insulin-like growth factor-I signalling has a lot in common with insulin signalling, and is involved in diverse cellular effects such as antiapoptosis, protein synthesis, cell growth and mitogenesis. Insulin-like growth factor-II can be bound by the insulin receptor A subtype and the IGF-1 receptor, which may explain its antiapoptotic effect. Various knock-out model studies indicate that absence of IGF-I or the IGF-1 receptor is critical for foetal and postnatal growth. Similarly, knock-out models of post-receptor molecules (such as IRS-2) point to the physiological role of IGFs for pancreas beta-cell development. A beta-cell-specific IGF-1 receptor knock out model indicates the importance of IGF-I for beta-cell function. The Goto-Kakizaki (GK) rat, a model for diabetes, has insufficient beta-cell development, which may be related to its defective IGF-II synthesis. As normal pancreas beta cells adapt to the prevailing insulin resistance with increasing beta-cell function, it is possible that insulin resistance interacts with IGF signalling in pancreas beta cells.
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PMID:Insulin-like growth factors and pancreas beta cells. 1508 55

Studies on skeletal involvement in patients with diabetes mellitus have generated conflicting results, largely because of the pathogenetic complexity of the condition. Several mechanisms may contribute to skeletal damage, including the increased urinary excretion coupled with the lower intestinal absorption of calcium, the inappropriate homeostatic response in terms of parathyroid hormone secretion, and also the complex alteration of vitamin D regulation. Decreased or increased insulin and IGF-1 concentrations and the effects of the accumulation of glycation endproducts on the bone tissue could also play a role. A possible genetic predisposition is also currently under investigation. Finally, the role of fat tissue in type 1 and type 2 diabetes and that of diabetic complications also deserve note. As far as bone mass is concerned, in adult patients with type 1 diabetes a moderately reduced bone mineral density has been shown in both axial and appendicular skeleton. On the contrary, patients with type 2 diabetes seem to have higher bone mineral density in respect to healthy control subjects, especially when overweight women are considered. No clear relationship between bone mass measurements and biochemical parameters of mineral metabolism has been shown in the different types of diabetes. Cohort studies recently carried out on large samples indicate that diabetic patients (with both type 1 and type 2 disease) have a higher risk for fracture, in particular for hip fracture, the most dangerous osteoporotic complication. This seems to be dependent both on qualitative and quantitative alterations of the bone, as well as on extra-skeletal factors due to the neuropathic and microangiopathic complications of the disease.
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PMID:Skeletal involvement in patients with diabetes mellitus. 1513 50

The chronic hyperglycemia that occurs in type 2 diabetes may cause deterioration of beta-cell function and insulin resistance in peripheral tissues. Mice that express a dominant-negative IGF-1 receptor, specifically in skeletal muscle (MKR mice), exhibit severe insulin resistance, hyperinsulinemia, dyslipidemia, and hyper-glycemia. To determine the role of hyperglycemia in the worsening of the diabetes state in these animals, MKR mice were treated with phloridzin (PHZ), which inhibits intestinal glucose uptake and renal glucose reabsorption. Blood glucose levels were decreased and urine glucose levels were increased in response to PHZ treatment in MKR mice. PHZ treatment also increased food intake in MKR mice; however, the fat mass was decreased and lean body mass did not change. Serum insulin, fatty acid, and triglyceride levels were not affected by PHZ treatment in MKR mice. Hyperinsulinemic-euglycemic clamp analysis demonstrated that glucose uptake in white adipose tissue was significantly increased in response to PHZ treatment. Despite the reduction in blood glucose following PHZ treatment, there was no improvement in insulin-stimulated whole-body glucose uptake in MKR mice and neither was there suppression of endogenous glucose production by insulin. These results suggest that glucotoxicity plays little or no role in the worsening of insulin resistance that occurs in the MKR mouse model of type 2 diabetes.
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PMID:Phloridzin improves hyperglycemia but not hepatic insulin resistance in a transgenic mouse model of type 2 diabetes. 1550 71

Insulin signalling at target tissues results in a large array of biological responses. These events are essential for normal growth and development, and for normal homeostasis of glucose, fat and protein metabolism. Elucidating the intracellular events following activation of the insulin receptor and the interactions between the insulin and IGF-1 signalling systems has been the main focus of a large number of investigators, and for excellent reasons. Improved understanding of the signalling pathways involved in insulin action and the impact of IGF-1 on these processes could lead to a better understanding of the pathophysiology of insulin resistance associated with obesity and type 2 diabetes and the identification of key molecules that could lead to newer and more effective therapeutic agents for treating these common disorders that are already an uprising epidemic of the 21st century. This chapter will summarize our current understanding of the molecular basis of insulin action, beginning with outlining key elements that constitute the insulin signalling pathways. Then, impairments in insulin signalling pathways and new paradigms regarding the molecular basis of insulin and IGF-1 resistance will be analysed.
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PMID:Molecular basis of insulin action. 1556 22

Diabetes mellitus and osteoporosis are chronic diseases with an elevated and growing incidence in the elderly. Recent epidemiological studies have demonstrated an elevated risk of hip, humerus and foot fractures in elder diabetic subjects. While type 1 diabetes is generally associated with a mild reduction in bone mineral density (BMD), type 2 diabetes, more prevalent in old subjects, is frequently linked to a normal or high BMD. Studies on experimental models of diabetes have suggested an altered bone structure that may help to explain the elevated risk of fractures observed in these animals and may as well help to explain the paradox of an incremented risk of fractures in type 2 diabetic elderly in the presence of normal or elevated BMD. In addition, diabetic elderly have an increased risk of falls, consequent at least in part to a poor vision, peripheral neuropathy, and weaken muscular performance. Diabetes may affect bone tissue by different mechanisms including obesity, hyperinsulinemia, deposit of advanced glycosilation end products in collagen fibre, reduced circulating levels of IGF-1, hypercalciuria, renal function impairment, microangiopathy and chronic inflammation. A better understanding of these mechanisms may help implement the prevention of fractures in the growing population of mature diabetics.
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PMID:[Osteoporosis and diabetes]. 1564 75

The levels of the liporegulatory hormone leptin are increased in obesity, which contributes to the metabolic syndrome; the latter is associated with elevated cardiovascular risk and morbidity. Leptin may play a role in the metabolic syndrome since correlations have been observed between serum leptin levels and several components of the metabolic syndrome. The association of leptinemia and hypertension or diabetes is inconsistent. Leptin levels are higher in females versus males and obese versus lean individuals. We investigated if correlations exist between leptin levels and several indices of the metabolic syndrome in obese and lean Moroccan subjects with (63 males, 129 females) and without (123 males, 234 females) diabetes and/or hypertension. Plasma glucose and insulin and systolic and diastolic blood pressures were higher in obese versus lean individuals. Obesity had no effect on lipid profile, plasma IGF-1, or C-peptide levels. Leptin levels were higher in females versus males and in obese versus lean individuals. The levels correlated significantly with body mass index. Serum leptin concentration did not correlate with either systolic or diastolic blood pressure, although there was a trend for higher blood pressure with increased leptin levels in females. There was no significant difference in leptin levels between NIDDM patients and healthy controls. However, in hypertensive patients, leptin levels were significantly higher in both lean males and females with diabetes as compared to those without diabetes. Similarly, the higher leptin levels paralleled elevated insulin levels in obese nondiabetic males and females, and in male and female diabetics with hypertension. Correlations were observed between leptin levels and C-peptide (an estimate of endogenous insulin secretion), but not with serum IGF-1. The calculated values of HOMA-IR, a marker of insulin resistance, were somewhat higher, parallel with elevated leptin levels, in obese male and female individuals compared to their lean counterparts. There was no relationship between leptin levels and serum lipids. There was a trend for increased serum uric acid levels with higher leptin concentrations. Thus, leptinemia is related to some components of metabolic syndrome, and in turn, it may contribute to the syndrome. This study is novel in that relationships were determined between leptin levels and various indices of metaboli syndrome in a large population of the same ethnic/regional background.
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PMID:Gender-specific leptinemia and its relationship with some components of the metabolic syndrome in Moroccans. 1592 Oct 74

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