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)

Obesity is one of the most significant risk factors for hypertension, coronary heart disease, and NIDDM (Frayn KN, Coppack SW: Insulin resistance, adipose tissue and coronary heart disease. Clin Sci 82:1-8, 1992; Kaplan NM: The deadly quartet: upper-body obesity, glucose intolerance, hypertriglyceridemia, and hypertension. Arch Intern Med 149:1514-1520, 1989). While family segregation, adoption, and twin studies have indicated that degree of adiposity has a significant genetic component (Stunkard AJ, Harris JR, Pedersen NL, McClearn GE: The body-mass index of twins who have been reared apart. N Engl J Med 322:1483-1487, 1990; Bouchard C, Despres J-P, Mauriege P: Genetic and nongenetic determinants of regional fat distribution. Endocr Rev 14:72-93, 1993), the genes and predisposing mutations remain poorly understood. This is in contrast to several well-defined genetic models for obesity in rodents, particularly the mouse obese (ob) gene, in which loss-of-function mutations cause severe obesity. Recent studies have demonstrated a substantial reduction in body fat when recombinant ob protein (leptin) is administered to mice. To test the relevance of these observations to human obesity, the location of the human homologue (OB) was established by radiation hybrid mapping and eight microsatellite markers spanning the OB gene region (7q3l.3) were genotyped in 101 obese French families. Affected-sib-pair analyses for extreme obesity, defined by BMI >35 kg/m2, revealed suggestive evidence for linkage to three markers located within 2 cM of the OB gene (D7S514, D7S680, and D7S530). The OB gene is therefore a candidate for genetic predisposition to extreme obesity in a subset of these families.
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PMID:Indication for linkage of the human OB gene region with extreme obesity. 862 Oct 24

This study was undertaken to investigate the changes in obesity (OB) gene expression and production of leptin in response to insulin in vitro and in vivo under euglycemic and hyperglycemic conditions in humans. Three protocols were used: 1) euglycemic clamp with insulin infusion rates at 40, 120, 300, and 1,200 mU / m / min carried out for up to 5 h performed in 16 normal lean individuals, 30 obese individuals, and 31 patients with NIDDM; 2) 64-to 72-h hyperglycemic (glucose 12.6 mmol/l) clamp performed on 5 lean individuals; 3) long-term (96-h) primary culture of isolated abdominal adipocytes in the presence and absence of 100 nmol/l insulin. Short-term hyperinsulinemia in the range of 80 to > 10,000 microU/ml had no effect on circulating levels of leptin. During the prolonged hyperglycemic clamp, a rise in leptin was observed during the last 24 h of the study (P < 0.001). In the presence of insulin in vitro, OB gene expression increased at 72 h (P < 0.01), followed by an increase in leptin released to the medium (P < 0.001). In summary, insulin does not stimulate leptin production acutely; however, a long-term effect of insulin on leptin production could be demonstrated both in vivo and in vitro. These data suggest that insulin regulates OB gene expression and leptin production indirectly, probably through its trophic effect on adipocytes.
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PMID:Acute and chronic effects of insulin on leptin production in humans: Studies in vivo and in vitro. 862 Oct 27

Leptin, the product of the OB gene, is increased in obese individuals, suggesting resistance to its effect. We questioned whether subjects with NIDDM have an altered regulation of serum leptin levels. We used a radioimmunoassay to measure serum leptin levels in three groups from the San Antonio Heart Study: 1) 50 Mexican-Americans with NIDDM; 2) 50 nondiabetic Mexican-Americans matched by age and sex to the diabetic Mexican-Americans; and 3) 50 nondiabetic Mexican-Americans matched by age, sex, and BMI to the diabetic Mexican-Americans. Leptin concentrations did not differ significantly by diabetic status. Leptin concentrations were significantly correlated with BMI in all groups (NIDDM women: r = 0.637; nondiabetic women: r = 0.772; NIDDM men: r = 0.849; and nondiabetic men: r = 0.686; all P < 0.001). Leptin levels were higher in women than in men regardless of diabetic status. We concluded that the leptin concentrations were not different in diabetic and nondiabetic subjects and that the association of leptin with obesity was similar in diabetic and nondiabetic subjects.
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PMID:Leptin concentrations in diabetic and nondiabetic Mexican-Americans. 863 60

Leptin, the product of the ob gene, is a hormone secreted by adipocytes. Animals with mutations in the ob gene are obese and lose weight when given leptin, but little is known about the physiological role of leptin in humans. Obese subjects have higher concentrations of leptin than lean subjects, the strongest correlation being with percentage body fat. Thus, it appears that obese subjects are resistant to the effects of endogenously secreted leptin. We have also shown that insulin stimulates leptin production, chronically but not acutely, presumably through its trophic effect on adipocytes. Troglitazone is an insulin-sensitizing thiazolidinedione, which improves hepatic and skeletal muscle insulin resistance in NIDDM and obesity. This study was undertaken to investigate the effects of troglitazone on leptin production in vitro and in vivo. In the presence and absence of 100 nmol/l insulin and 10 umol/l troglitazone, 72-h primary cultures of isolated abdominal adipocytes were studied. Insulin led to an almost twofold increase in leptin in vitro, and this increase was completely abolished by coincubation with troglitazone. Incubation with troglitazone alone led to a 40% decrease in leptin production. In obese patients administered troglitazone 200 mg twice daily for 12 weeks, there was no significant change in fasting plasma leptin concentrations, despite a 40-50% reduction in fasting and postmeal plasma insulin concentrations. Troglitazone treatment led to a significant increase in insulin sensitivity, and there was a positive correlation between the change in insulin sensitivity and the change in plasma leptin concentration in these subjects. In conclusion, troglitazone treatment had no net effect on plasma leptin concentrations, possibly because of improvement in insulin sensitivity and reduction in plasma insulin concentrations.
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PMID:Effect of troglitazone on leptin production. Studies in vitro and in human subjects. 877 34

We have recently demonstrated the nocturnal increase in leptin secretion in humans. In the present study we have examined the pulsatile pattern of leptin secretion using two different experimental protocols. The first protocol utilized blood samples withdrawn at 30 minute intervals immediately after meals, at 1 hour intervals between meals, and at 2 hour intervals during the night from 4 lean, 11 obese, and 5 obese NIDDM subjects. Analysis of circulating leptin levels by ULTRA algorithmic program and using matched intra-assay coefficient of variations demonstrated 1 to 7 ultradian oscillations with a mean of 3.25 +/- 0.36 (SEM) pulses per 24 hour period (period: 10.0 +/- 1.5 hours; mean relative amplitude: 0.52 +/- 0.06, n = 20). Significant positive correlations were observed for changes in absolute amplitude with body mass index (p < 0.025) and fasting leptin levels (< 0.0001). In the second series of experiments utilizing 15 minute blood sampling from 10 overnight fasted obese subjects (BMI 35.9 +/- 2.0 kg/m2), ultradian oscillations for leptin were more frequent, i.e., 2 to 7 oscillations (4.20 +/- 0.59), over a 12 hour duration (period: 3.44 +/- 0.49; mean relative amplitude: 0.28 +/- 0.03). The number of oscillations over a 12 hour period correlated significantly with BMI (p < 0.001), fasting leptin levels (p < 0.01), and absolute amplitude (p < 0.005) in a 15 minute sampling protocol. In summary, similar to other hormones, ultradian oscillations of leptin are observed in humans, although the physiological significance in relation to obesity or feeding behavior is not yet understood.
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PMID:Ultradian oscillations of leptin secretion in humans. 894 46

A highly conserved protein called 'leptin' was recently discovered to play a role in regulation of the energy balance in humans and rodents. This 167-amino-acid-containing protein is only produced and secreted by mature adipocytes. Absence of the protein in mutant ob/ob mice and resistance to its effects in db/db mice lead to extreme obesity and type II diabetes mellitus. No mutation of the ob-gene encoding for leptin has been found in obese humans so far. ob mRNA in adipocytes and serum leptin levels are positively related to adipose tissue mass. Receptors for leptin have been found in the choroid plexus and hypothalamus. A feedback inhibition of leptin on hypothalamic neuropeptide Y (NY) production is postulated, as hypothalamic NY concentrations are increased in ob/ob mice and NY induces food intake, insulin secretion and autonomic nervous system activity. Insulin increases triglyceride stores in fat cells and could thereby stimulate leptin secretion. The ultimate intracellular pathway within the adipocyte that stimulates or shuts off ob mRNA expression and consequent leptin production and secretion remains to be elucidated. Whether leptin will ever come to play a role in the treatment of human obesity remains an unanswered question at the present time.
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PMID:Leptin. 899 Aug 65

Plasma leptin levels in normal-weight and spontaneously obese male rhesus monkeys, and the relationships of circulating leptin to beta-cell basal secretion, glucose-stimulated responsiveness and peripheral insulin sensitivity, were determined. Basal leptin in normal lean adult monkeys averaged 6.0 +/- 1.3 ng/ml and in the obese monkeys averaged 22.6 +/- 2.9 ng/ml. In all monkeys, plasma leptin concentration was significantly related to body weight, body fat, fasting plasma insulin, acute insulin response to intravenous glucose, and peripheral insulin sensitivity but not to fasting glucose or glucose tolerance. Body fat and plasma insulin concentration were the best predictors of circulating leptin levels (R2 = 62.6%) independent of peripheral insulin sensitivity. Four of 17 obese monkeys had plasma leptin concentrations in the normal range, a finding that may be related to the heterogeneity of obesity. The close association of plasma leptin to body fat and plasma insulin (both basal and glucose-stimulated) support the possibility of a role of leptin in the link between obesity and beta-cell hypersecretion. However, the potential role of leptin in the development of peripheral insulin resistance, hyperglycemia and type 2 diabetes will require further study.
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PMID:Hyperleptinemia: relationship to adiposity and insulin resistance in the spontaneously obese rhesus monkey. 901 40

Obesity plays a central role in the development of skeletal muscle insulin resistance. The molecular mechanism causing skeletal muscle insulin resistance in obese people is still poorly understood. It has been speculated that circulating factors derived from adipose tissue impair insulin signalling in the skeletal muscle cell. TNF-alpha and leptin, which are overproduced in fat tissue of obese insulin resistant animal models and in obese humans, might mediate such an inhibitory effect on insulin signalling in skeletal muscle. The aim of the present study was to evaluate whether circulating TNF-alpha and leptin correlates to the individual skeletal muscle insulin sensitivity in individuals with different degrees of obesity and insulin resistance. We measured circulating TNF-alpha and leptin values in non diabetic offsprings of NIDDM patients. 36 German and 47 Finnish subjects participated in the study. The GDR of each participant was determined by the euglycemic hyperinsulinemic clamp technique, a range between 1.37 to 14.01 mg/kg LBM x min was observed. Percent of desirable body weight (PDW) covered also a wide range (87.58% to 197.06%). Although linear regression analysis suggested a dependence between TNF-alpha and GDR (Germany group: r = -0.37, p < 0.05, Finnish group: r = -0.32, p < 0.05) and a dependence between TNF and PDW (German group: r = 0.46, p < 0.05, Finnish group: r = 0.38, p < 0.05), in multiple linear regression analysis only the correlation with PDW was significant. Leptin levels were measured from 29 German and 36 Finnish subjects and a strong association was found between leptin and PDW (German group: r = 0.55, p < 0.05, Finnish group: r = 0.73, p < 0.05). In contrast, leptin levels did not correlate with GDR and TNF-alpha. In summary, even though, in a few insulin resistant subjects, higher circulating TNF-alpha or leptin levels with the individual insulin sensitivity can be demonstrated, the data suggest that the circulating pool of TNF-alpha and leptin in blood is unlikely to be a major contributing factor for obesity induced insulin resistance in the vast majority of individuals at high risk to develop NIDDM.
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PMID:Circulating TNF-alpha and leptin levels in offspring of NIDDM patients do not correlate to individual insulin sensitivity. 901 54

Obesity is a major predisposing factor for the development of several chronic diseases including non-insulin dependent diabetes mellitus (NIDDM) and coronary heart disease (CHD). Leptin is a serum protein which is secreted by adipocytes and thought to play a role in the regulation of body fat. Leptin levels in humans have been found to be highly correlated with an individual's total adiposity. We performed a genome-wide scan and conducted multipoint linkage analysis using a general pedigree-based variance component approach to identify genes with measurable effects on quantitative variation in leptin levels in Mexican Americans. A microsatellite polymorphism, D2S1788, mapped to chromosome 2p21 (approximately 74 cM from the tip of the short arm) and showed strong evidence of linkage with serum leptin levels with a lod score of 4.95 (P = 9 x 10(-7)). This locus accounted for 47% of the variation in serum leptin levels, with a residual additive genetic component contributing an additional 24%. This region contains several potential candidate genes for obesity, including glucokinase regulatory protein (GCKR) and pro-opiomelanocortin (POMC). Our results show strong evidence of linkage of this region of chromosome 2 with serum leptin levels and indicate that this region could contain an important human obesity gene.
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PMID:A major quantitative trait locus determining serum leptin levels and fat mass is located on human chromosome 2. 905 40

In the genetic mutant mouse models ob/ob or db/db, leptin deficiency or resistance, respectively, results in severe obesity and the development of a syndrome resembling NIDDM. One of the earliest manifestations in these mutant mice is hyperinsulinemia, suggesting that leptin may normally directly suppress the secretion of insulin. Here, we show that pancreatic islets express a long (signal-transducing) form of leptin-receptor mRNA and that beta-cells bind a fluorescent derivative of leptin (Cy3-leptin). The expression of leptin receptors on insulin-secreting beta-cells was also visualized utilizing antisera generated against an extracellular epitope of the receptor. A functional role for the beta-cell leptin receptor is indicated by our observation that leptin (100 ng/ml) suppressed the secretion of insulin from islets isolated from ob/ob mice. Furthermore, leptin produced a marked lowering of [Ca2+]i in ob/ob beta-cells, which was accompanied by cellular hyperpolarization and increased membrane conductance. Cell-attached patch measurements of ob/ob beta-cells demonstrated that leptin activated ATP-sensitive potassium channels (K(ATP)) by increasing the open channel probability, while exerting no effect on mean open time. These effects were reversed by the sulfonylurea tolbutamide, a specific inhibitor of K(ATP). Taken together, these observations indicate an important physiological role for leptin as an inhibitor of insulin secretion and lead us to propose that the failure of leptin to inhibit insulin secretion from the beta-cells of ob/ob and db/db mice may explain, in part, the development of hyperinsulinemia, insulin resistance, and the progression to NIDDM.
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PMID:Leptin suppression of insulin secretion by the activation of ATP-sensitive K+ channels in pancreatic beta-cells. 916 85


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