Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0028754 (obesity)
 124,988 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Current strategies to treat type 2 diabetes (DMT2) include reducing insulin resistance using glitazones, supplementing with exogenous insulin, increasing endogenous insulin production with sulfonylureas and meglitinides, reducing hepatic glucose production through biguanides, and limiting postprandial glucose absorption with alpha-glucosidase inhibitors. In all of these areas, new generations of molecules with improved efficacy and safety profiles, are being investigated. Promising biological targets are rapidly emerging such as the role of lipotoxicity as a cause of glucometabolic insulin resistance, leading to a host of new molecular drug targets such as AMP-activated protein kinase (AMPK) activators, recombinant adiponectin derivatives, and fatty acid synthase (FAS) inhibitors. Insulin action can be enhanced in muscle, liver and fat, with small-molecule activators of the insulin receptor or inhibitors of protein tyrosine phosphatase (FTP)-IB. Defective glucose-stimulated insulin secretion by pancreatic B-cells could be alleviated with recombinant glucagon-like peptide (GLP-1) or agonists to the GLP-1 receptor. This review presents a new approach for obesity and DMT2 drug discovery through pharmacogenomics. Several compounds have already been validated through genetic engineering in animal models or the preliminary use of therapeutic compounds in humans.
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PMID:[Molecular targets for new drug discovery to treat type 2 diabetes and obesity]. 1848 61

Type 2 diabetes mellitus and obesity share a pathogenic relationship, and both have rapidly increased in prevalence over the past decade. This review evaluates the effects of antidiabetes therapies on weight and glycemic control in the type 2 diabetes mellitus population. A PubMed search was conducted to identify randomized controlled trials that reported the weight effects of antidiabetes treatments. The search focused on the newer incretin-based therapies, including dipeptidyl peptidase-4 (DPP-4) inhibitors and glucagon-like peptide-1 (GLP-1) agonists. Antiobesity drugs and treatment options potentially available to patients with type 2 diabetes mellitus, including bariatric surgery, were also examined. Most of the established antidiabetes therapies (eg, sulfonylureas, thiazolidinediones) promote weight gain, thereby exacerbating insulin resistance and glucose intolerance. Dipeptidyl peptidase-4 inhibitors exhibit a weight-neutral profile, however, and GLP-1 receptor agonists (eg, exenatide, liraglutide) have achieved significant body weight reductions in spite of improved glycemic control, which is often accompanied by weight gain. Antiobesity drugs, such as orlistat and sibutramine, are effective weight-lowering agents in patients with type 2 diabetes mellitus, but safety and tolerability concerns may limit their use. Bariatric surgery in obese patients is associated with improved glycemic values and decreased mortality. Clinical evidence substantiating the weight-neutral effects of DPP-4 inhibitors and the weight-loss effects of GLP-1 agonists is promising, offering an expansion of therapeutic options for overweight and obese patients with type 2 diabetes mellitus. Evidence on the clinical utility of antiobesity drugs is more equivocal, and more data are needed to evaluate the safety and tolerability of these agents.
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PMID:The effects of pharmacologic agents for type 2 diabetes mellitus on body weight. 1865 64

More than 20 million people in the United States, or 7% of the population, have diabetes, with health care and work-related costs estimated to be $174 billion in 2007. Obesity constitutes one of the major driving factors behind this epidemic. Most drugs currently used to treat diabetes address the primary metabolic defects in type 2 diabetes mellitus, which are insulin resistance and pancreatic islet dysfunction. Incretin augmentation therapies, such as glucagon-like peptide-1 receptor agonists and dipeptidyl peptidase IV inhibitors, restore glucose homeostasis by addressing some of the unmet needs in diabetes therapies related to alpha-cell dysfunction and chronic beta-cell dysfunction. This new group of drugs offers certain advantages because its use is characterized by a low incidence of hypoglycemia and the absence of weight gain. Moreover, the use of fixed-dose combinations of dipeptidyl peptidase IV inhibitors with other oral antidiabetic agents seems very attractive to patients because of their reduced pill intake and minimized financial burden, which may improve adherence. An efficient strategy to slow down the epidemic of diabetes must include these emerging therapies and regimens, coupled with intensive patient education that includes information on treatment benefits and adverse effects, medication costs, and medication regimen complexity.
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PMID:Multidisciplinary interventions: mapping new horizons in diabetes care. 1866 11

Exendin 4 (Ex4) is a glucagon-like peptide-1 receptor (GLP- 1R) agonist which is available as a short-acting injectable treatment for type 2 diabetes. Our aim was to characterize the long-term effects of elevated steady-state levels of Ex4 provided by in vivo gene therapy. We constructed a helper-dependent adenoviral (HDAd) vector for long-term expression of Ex4 in vivo. A high-fat diet (HFD)-induced obesity (DIO) mouse model was chosen to approximate the metabolic derangements seen in obese patients. Mice were treated with a single injection of HDAd-Ex4 and were monitored for 15 weeks. Both hepatic Ex4 RNA and plasma Ex4 were detectable at the end of the study. HDAd-Ex4 treatment improved glucose homeostasis without increasing insulin levels. However, there was evidence of enhanced insulin action and decreased gluconeogenic enzyme expression. HDAd-Ex4 caused decreased weight gain without detectable changes in food intake, in part, due to increases in energy expenditure (EE). HDAd-Ex4 DIO mice also had reduced hepatic fat and an improved adipokine profile. In the liver, there was decreased expression of genes that were involved in de novo fatty acid synthesis. These observations are important in considering the development of longer acting GLP-1R agonists for the treatment of type 2 diabetes.
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PMID:Gene therapy for diabetes: metabolic effects of helper-dependent adenoviral exendin 4 expression in a diet-induced obesity mouse model. 1878 Nov 41

In insulin-resistant status such as obesity, failure of pancreatic islets to increase insulin secretion leads to diabetes. We sought to screen for the islet genes that facilitate islet adaptation to obesity by comparing gene expression profiles between two strains of obesity-prone inbred mice with different propensities for hyperglycemia. C57BL/6J and AKR/J were fed regular rodent chow or high-fat diet, after which islet morphology, secretory function, and gene expression were assessed. AKR/J had lower blood glucose and higher insulin levels compared with C57BL/6J mice on regular rodent chow or high-fat diet. Insulin secretion was 3.2-fold higher in AKR/J than C57BL/6J mice following intraperitoneal glucose injection. Likewise, glucose-stimulated insulin secretion from isolated islets was higher in AKR/J. Additionally, islet mass was 1.4-fold greater in AKR/J compared with C57BL/6J. To elucidate the factors associated with the differences in islet function, we analyzed the gene expression profiles in islets in AKR/J and C57BL/6J mice. Of 14,000 genes examined, 202 were upregulated and 270 were downregulated in islets from diet-induced obese AKR/J mice compared with C57BL/6J mice. Key genes involved in islet signaling and metabolism, e.g., glucagon-like peptide-1 receptor, sterol Co-A desaturase 1 and 2, and fatty acid desaturase 2 were upregulated in obese AKR/J mice. The expression of multiple extracellular matrix proteins was also increased in AKR/J mice, suggesting a role in modulation of islet mass. Functional analyses of differentially regulated genes hold promise for elucidating factors linking obesity to alterations in islet function.
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PMID:Analysis of gene expression in pancreatic islets from diet-induced obese mice. 1885 71

For humans and animal models alike there is general agreement that the central nervous system processing of gastrointestinal (GI) signals arising from ingested food provides the principal determinant of the size of meals and their frequency. Despite this, relatively few studies are aimed at delineating the brain circuits, neurochemical pathways and intracellular signals that mediate GI-stimulation-induced intake inhibition. Two additional motivations to pursue these circuits and signals have recently arisen. First, the success of gastric-bypass surgery in obesity treatment is highlighting roles for GI signals such as glucagon-like peptide-1 (GLP-1) in intake and energy balance control. Second, accumulating data suggest that the intake-reducing effects of leptin may be mediated through an amplification of the intake-inhibitory effects of GI signals. Experiments reviewed show that: (1) the intake-suppressive effects of a peripherally administered GLP-1 receptor agonist is mediated by caudal brainstem neurons and that forebrain-hypothalamic neural processing is not necessary for this effect; (2) a population of medial nucleus tractus solitarius (NTS) neurons that are responsive to gastric distention is also driven by leptin; (3) caudal brainstem-targeted leptin amplifies the food-intake-inhibitory effects of gastric distention and intestinal nutrient stimulation; (4) adenosine monophosphate-activated protein kinase (AMPK) activity in NTS-enriched brain lysates is elevated by food deprivation and reduced by refeeding and (5) the intake-suppressive effect of hindbrain-directed leptin is reversed by elevating hindbrain AMPK activity. Overall, data support the view that the NTS and circuits within the hindbrain mediate the intake inhibition of GI signals, and that the effects of leptin on food intake result from the amplification of GI signal processing.
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PMID:The nucleus tractus solitarius: a portal for visceral afferent signal processing, energy status assessment and integration of their combined effects on food intake. 1936

Incretin-based therapies address the progressive nature of type 2 diabetes mellitus, not only by addressing glucose control but also with weight-neutral (i.e., dipeptidyl peptidase-4 inhibitors sitagliptin and vildagliptin) and weight-reducing effects (i.e., glucagonlike peptide-1 [GLP-1] receptor agonists exenatide and liraglutide). Preclinical data suggest that incretin-based therapies may also preserve beta-cell function, holding promise of a truly disease-modifying therapy. This article examines clinical trial data and accepted algorithms with a view toward elucidating the application of these agents in routine clinical practice. We propose a systematic approach to treatment, addressing (1) patient selection, (2) optimal treatment combinations, and (3) timing and guidance for both initiation and intensification of therapy. The GLP-1 receptor agonists, for example, could be particularly beneficial in patients whose weight significantly increases cardiovascular risk. Early use of these agents may be effective in preventing diabetes in those at risk, or in halting or retarding disease progression in patients with frank diabetes. Additional clinical investigation will be required to test such hypotheses. Given the ever-increasing incidence of diabetes worldwide, the link between obesity and the development of type 2 diabetes, and the need for more effective, weight-focused, convenient and sustainable treatments, the data from such studies will be invaluable to further clarify the role of the incretins in the management of patients with type 2 diabetes.
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PMID:Clinical application of incretin-based therapy: therapeutic potential, patient selection and clinical use. 1946 27

Available therapies for type 2 diabetes are not always satisfactory because they do not address the problems of overweight/obesity and the progressive deterioration of cell function. GLP-1 analogues or agonists of the GLP-1 receptor are a new therapeutic option which offer promises; they indeed improve glycemic control, decrease weight by 2-3 kg/year and may stabilize or improve cell function by favoring cell proliferation and inhibiting apoptosis. Their use in patients who are not sufficiently controlled by metformin and sulfonylurea compares favourably to insulin treatment.
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PMID:[Role and indication of GLP-1 analogues in the treatment of type 2 diabetes]. 1957 21

Incretin-based therapies address the progressive nature of type 2 diabetes mellitus, not only by addressing glucose control but also with weight-neutral (i.e., dipeptidyl peptidase-4 inhibitors sitagliptin and vildagliptin) and weight-reducing effects (i.e., glucagonlike peptide-1 [GLP-1] receptor agonists exenatide and liraglutide). Preclinical data suggest that incretin-based therapies may also preserve beta-cell function, holding promise of a truly disease-modifying therapy. This article examines clinical trial data and accepted algorithms with a view toward elucidating the application of these agents in routine clinical practice. We propose a systematic approach to treatment, addressing (1) patient selection, (2) optimal treatment combinations, and (3) timing and guidance for both initiation and intensification of therapy. The GLP-1 receptor agonists, for example, could be particularly beneficial in patients whose weight significantly increases cardiovascular risk. Early use of these agents may be effective in preventing diabetes in those at risk, or in halting or retarding disease progression in patients with frank diabetes. Additional clinical investigation will be required to test such hypotheses. Given the ever-increasing incidence of diabetes worldwide, the link between obesity and the development of type 2 diabetes, and the need for more effective, weight-focused, convenient and sustainable treatments, the data from such studies will be invaluable to further clarify the role of the incretins in the management of patients with type 2 diabetes.
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PMID:Clinical application of incretin-based therapy: therapeutic potential, patient selection and clinical use. 1958 Sep 52

The prevalence of type 2 diabetes mellitus, which is directly associated with overweight/obesity and increased cardiovascular disease risk, is projected to continue to increase during the next few decades. Traditionally, treatment has focused primarily on glycemic control, but accumulating evidence suggests that the clinical management of patients with type 2 diabetes requires a more comprehensive approach to minimize associated morbidity and mortality. Because the majority (80%-90%) of patients with type 2 diabetes are overweight or obese, effective glucose control and weight loss are the cornerstones of initial management. Both effective glucose control and therapy to reduce cardiovascular risk factors, including overweight/obesity, are needed to prevent the complications of type 2 diabetes. Most conventional antidiabetes agents, including sulfonylureas, thiazolidinediones, and insulin, improve glycemic control but are associated with weight gain or, as with metformin, are weight-neutral or weight-sparing. The incretin-based therapies, such as the glucagon-like peptide-1 (GLP-1) receptor agonists and the dipeptidyl peptidase-4 inhibitors, have been shown to be safe and effective in lowering glucose while eliciting favorable effects on weight (ie, weight-reducing and weight-neutral, respectively). The effects of these agents on other parameters of cardiovascular risk are also being studied. Advances in GLP-1 receptor agonist therapy include development of agents with longer durations of activity allowing for more convenient dosing of therapies for patients with type 2 diabetes, which should lead to better patient compliance, adherence, and overall clinical outcomes.
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PMID:Beyond glycemic control: treating the entire type 2 diabetes disorder. 1982 Feb 76


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