Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Platelet activation is involved in the pathogenesis of atherosclerosis and venous thromboembolism, and might therefore be a possible link between the two entities. Prolactin and leptin have recently been recognized as potent co-activators of ADP-dependent platelet aggregation or P-selectin expression, and are therefore suspected as additional risk factors for both arterial and venous thrombosis. There are clinical situations that have a known association with higher prolactin or leptin levels (pregnancy, obesity or anti-psychotic therapy) and increased risk of thromboembolic events. We compared the impact of both hormones on platelet activation in vitro and in vivo, indicating that prolactin has a stronger effect on platelet activation as leptin in vitro and in vivo. We have also demonstrated that prolactin levels are increased in so called idiopathic thrombosis, and that conversely, patients with prolactinoma have an increased frequency of thrombosis during the hyperprolactinemic state, in a retrospective analysis. Moreover, we have demonstrated increased prolactin values in stroke and myocardial infarction. Prospective studies have yet to be performed to give this theory its final confirmation. The involvement of hormonal factors in platelet aggregation and venous or arterial thrombosis may have important clinical implications such as for risk stratification of patients with venous and arterial thrombosis or new therapeutic options such as decreasing pro-coagulant hormone levels in certain risk situations.
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PMID:Co-activation of platelets by prolactin or leptin--pathophysiological findings and clinical implications. 1498 99

Insulin signaling is enhanced by moderate concentrations of reactive oxygen species (ROS) and suppressed by persistent exposure to ROS. Diabetic patients show abnormally high ROS levels and a decrease in insulin reactivity which is ameliorated by antioxidants, such as N-acetylcysteine (NAC). A similar effect of NAC has not been reported for non-diabetic subjects. We now show that the insulin receptor (IR) kinase is inhibited in cell culture by physiologic concentrations of cysteine. In two double-blind trials involving a total of 140 non-diabetic subjects we found furthermore that NAC increased the HOMA-R index (derived from the fasting insulin and glucose concentrations) in smokers and obese patients, but not in nonobese non-smokers. In obese patients NAC also caused a decrease in glucose tolerance and body fat mass. Simultaneous treatment with creatine, a metabolite utilized by skeletal muscle and brain for the interconversion of ADP and ATP, reversed the NAC-mediated increase in HOMA-R index and the decrease in glucose tolerance without preventing the decrease in body fat. As the obese and hyperlipidemic patients had lower plasma thiol concentrations than the normolipidemic subjects, our results suggest that low thiol levels facilitate the development of obesity. Supplementation of thiols plus creatine may reduce body fat without compromising glucose tolerance.
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PMID:Effect of thiol antioxidant on body fat and insulin reactivity. 1500 12

Psammomys obesus (sand rat) is an appropriate model to highlight the development of hyperinsulinemia, insulin resistance, obesity, and diabetes. This animal species, with genetically predetermined diabetes, acquires non-insulin dependent diabetes mellitus when exposed to energy-rich diets. In the present study, we explored the possibility that glycation of LDL may occur in diabetes-prone P. obesus and affect platelet and macrophage functions. The glycation of LDL, isolated from diabetic animals, was significantly (P < 0.05) higher (40%) than that of control animals. The incubation of platelets with glycated LDL enhanced the reactivity of platelets by 32-44% depending on the aggregating agents (thrombin, collagen, ADP). Furthermore, LDL derived from diabetic rats were chemotactic for normal monocytes and stimulated the incorporation of [14C]oleate into cellular cholesteryl esters. The enhancement of platelet aggregation and cholesterol esterification in monocytes may contribute toward the accelerated development of atherosclerotic cardiovascular disease in diabetic P. obesus animals. This study also illustrates the relevance of studying atherosclerosis in the P. obesus animal model, as it shows an increased tendency to develop diet-induced diabetes, which is associated with cardiovascular disorders.
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PMID:Impact of in vivo glycation of LDL on platelet aggregation and monocyte chemotaxis in diabetic psammomys obesus. 1505 39

A low-taurine diet during fetal or early postnatal life causes abnormal pancreatic beta-cell development. Tissue and plasma taurine concentrations can also be low in diabetic patients. We examined the effect of taurine on impaired glucose responses in diabetic rat beta-cells adenovirally overexpressing uncoupling protein (UCP)2, which is upregulated in obesity-related type 2 diabetes. We found that taurine pretreatment restored the ATP-to-ADP (ATP/ADP) ratio and glucose-stimulated insulin secretion in UCP2-infected islets. ATP-sensitive K(+) channel sensitivity to dihydroxyacetone, another insulin secretagogue, was similar in both UCP2-infected and control beta-cells. In freshly isolated mitochondria from UCP2-overexpressing insulin-secreting (INS)-1 beta-cells, methyl pyruvate-mediated mitochondrial Ca(2+) increase was significantly ameliorated by taurine. A mitochondrial Ca(2+) uniporter blocker, ruthenium red, inhibited the action of taurine. This study suggests that taurine enhances the glucose sensitivity of UCP2-overexpressing beta-cells, probably by increasing mitochondrial Ca(2+) influx through the Ca(2+) uniporter, thereby enhancing mitochondrial metabolic function and increasing the ATP/ADP ratio.
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PMID:Taurine increases glucose sensitivity of UCP2-overexpressing beta-cells by ameliorating mitochondrial metabolism. 1526 58

Hormones such as prolactin and leptin have recently been recognized as potent platelet aggregation co-activators, and have therefore been postulated as an additional risk factor for both arterial and venous thrombosis. Clinical situations exist that are known to be associated with higher leptin and/or prolactin levels (obesity, pregnancy, prolactinomas and anti-psychotic therapy respectively) and increased venous thrombosis or atherosclerosis risk. Therefore, we compared the impact of both hormones on platelet activation in vitro and in vivo. First, we investigated platelet aggregation and P-selectin expression after stimulation with 1,000 mU/l prolactin or 100 ng/ml leptin in five healthy volunteers in vitro. Prolactin revealed significant higher levels of P-selectin expression and platelet aggregation than leptin in all subjects. We also compared the correlation of prolactin and leptin values with the P-selection expression on platelets. Previously, we detected a significant correlation between prolactin values and ADP-stimulated P-selectin expression on platelets in pregnant women, patients with pituitary tumours, and patients on anti-psychotic therapy. In contrast, leptin did not correlate with P-selectin expression in all subject groups investigated. However, leptin correlated with body mass index in the subjects investigated. Our data indicate that prolactin has a stronger effect on platelet activation as leptin in vitro and in vivo. Moreover, our data suggest that the stronger effect of prolactin on ADP-stimulated platelet aggregation, compared to leptin, depends on higher stimulation of CD62p expression by prolactin.
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PMID:Differences in platelet activation by prolactin and leptin. 1530 27

RAB, ADP-ribosylation factors (ARFs) and ARF-like (ARL) proteins belong to the Ras superfamily of small GTP-binding proteins and are essential for various membrane-associated intracellular trafficking processes. None of the approximately 50 known members of this family are linked to human disease. Using a bioinformatic screen for ciliary genes in combination with mutational analyses, we identified ARL6 as the gene underlying Bardet-Biedl syndrome type 3, a multisystemic disorder characterized by obesity, blindness, polydactyly, renal abnormalities and cognitive impairment. We uncovered four different homozygous substitutions in ARL6 in four unrelated families affected with Bardet-Biedl syndrome, two of which disrupt a threonine residue important for GTP binding and function of several related small GTP-binding proteins. Analysis of the Caenorhabditis elegans ARL6 homolog indicates that it is specifically expressed in ciliated cells, and that, in addition to the postulated cytoplasmic functions of ARL proteins, it undergoes intraflagellar transport. These findings implicate a small GTP-binding protein in ciliary transport and the pathogenesis of a pleiotropic disorder.
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PMID:Mutations in a member of the Ras superfamily of small GTP-binding proteins causes Bardet-Biedl syndrome. 1531 42

Chronic exposure to elevated free fatty acids (lipotoxicity) induces uncoupling protein (UCP2) in the pancreatic beta-cell, and therefore a causal link between UCP2 and beta-cell defects associated with obesity may exist. Recently, we showed that lipid treatment in vivo and in vitro in UCP2(-/-) mice/islets does not result in any loss in beta-cell glucose sensitivity. We have now assessed the mechanism of maintained beta-cell function in UCP2(-/-) mice by exposing islets to 0.4 mM palmitate for 48 h. Palmitate treatment increased triglyceride concentrations in wild type (WT) but not UCP2(-/-) islets because of higher palmitate oxidation rates in the UCP2(-/-) islets. Dispersed beta-cells from the palmitate-exposed WT islets had reduced glucose-stimulated hyperpolarization of the mitochondrial membrane potential compared with both control WT and palmitate-exposed UCP2(-/-) beta-cells. The glucose-stimulated increases in the ATP/ADP ratio and cytosolic Ca2+ are attenuated in palmitate-treated WT but not UCP2(-/-) beta-cells. Exposure to palmitate reduced glucose-stimulated insulin secretion (GSIS) in WT islets, whereas UCP2(-/-) islets had enhanced GSIS. Overexpression of recombinant UCP2 but not enhanced green fluorescent protein in beta-cells resulted in a loss of glucose-stimulated hyperpolarization of the mitochondrial membrane potential and GSIS similar to that seen in WT islets exposed to palmitate. Reactive oxygen species (ROS) are known to increase the activity of UCP2. We showed that ROS levels were elevated in control UCP2(-/-) islets as compared with WT and UCP2(-/-) islets overexpressing UCP2 and that palmitate increased ROS in WT and UCP2(-/-) islets overexpressing UCP2 but not in UCP2(-/-) islets. Thus, UCP2(-/-) islets resisted the toxic effects of palmitate by maintaining glucose-dependent metabolism-secretion coupling. We propose that higher free fatty acid oxidation rates prevent accumulation of triglyceride in UCP2(-/-) islets, such accumulation being a phenomenon associated with lipotoxicity.
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PMID:Free fatty acid-induced beta-cell defects are dependent on uncoupling protein 2 expression. 1544 58

The short heterodimer partner (SHP) (NR0B2) is an orphan nuclear receptor whose function in pancreatic beta-cells is unclear. Mitochondrial uncoupling protein (UCP2) in beta-cells is upregulated in obesity-related diabetes, causing impaired glucose-stimulated insulin secretion (GSIS). We investigated whether SHP plays a role in UCP2-induced GSIS impairment. We overexpressed SHP in normal islet cells and in islet cells overexpressing UCP2 by an adenovirus-mediated infection technique. We found that SHP overexpression enhanced GSIS in normal islets, and restored GSIS in UCP2-overexpressing islets. SHP overexpression increased the glucose sensitivity of ATP-sensitive K+ (KATP) channels and enhanced the ATP/ADP ratio. A peroxisome proliferator-activated receptor gamma (PPARgamma) antagonist, GW9662, did not block the SHP effect on GSIS. SHP overexpression also corrected the impaired sensitivity of UCP2-overexpressing beta-cells to methylpyruvate, another energy fuel that bypasses glycolysis and directly enters the Krebs cycle. KATP channel inhibition mediated by dihydroxyacetone, which gives reducing equivalents directly to complex II of the electron transport system, was similar in Ad-Null-, Ad-UCP2- and Ad-UCP2+Ad-SHP-infected cells. The mitochondrial metabolic inhibitor sodium azide totally blocked the effect of SHP overexpression on GSIS. These results suggest that SHP positively regulates GSIS in beta-cells and restores glucose sensitivity in UCP2-overexpressing beta-cells by enhancing mitochondrial glucose metabolism, independent of PPARgamma activation.
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PMID:Overexpression of short heterodimer partner recovers impaired glucose-stimulated insulin secretion of pancreatic beta-cells overexpressing UCP2. 1552 81

Insulin signaling requires autophosphorylation of the insulin receptor kinase (IRK) domain. Using purified recombinant IRK fragments and the isolated intact insulin receptor, we show here that autophosphorylation is inhibited by ADP and that this effect is essentially reversed by hydrogen peroxide. Autophosphorylation was inhibited by hydrogen peroxide (60 microM) in the absence of ADP but enhanced in the presence of inhibitory concentrations of ADP (67 microM). Enhancement by hydrogen peroxide required direct interaction of hydrogen peroxide with the kinase domain and was not seen in insulin receptor mutants C1245A and C1308A. A similar enhancement was obtained in intact cells in the absence of insulin upon treatment with 1-(2-chloroethyl)-3-(2-hydroxyethyl)-1-nitrosourea, indicating that IRK activity can be alternatively enhanced by a shift in the thiol/disulfide redox status. Molecular modeling of the IRK domain indicated that the ATP-binding site becomes distorted after releasing the nucleotide unless the IRK domain is oxidatively derivatized at Cys1245. Recent clinical studies suggest that these effects may play a role in obesity due to the fact that cytoplasmic creatine kinase in combination with phosphocreatine normally ensures rapid removal of ADP in muscle cells but not in fat cells.
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PMID:Interdependent regulation of insulin receptor kinase activity by ADP and hydrogen peroxide. 1556 71

Obesity is associated with elevated levels of leptin in the blood. Elevated leptin is a risk factor for thrombosis in humans, and leptin administration promotes platelet activation and thrombosis in the mouse. The current study examines the effect of leptin on human platelets, and provides initial insights into the nature of the leptin receptor on these platelets. Leptin potentiated the aggregation of human platelets induced by low concentrations of ADP, collagen and epinephrine. However, the response varied significantly between donors, with platelets from some donors (approximately 40%) consistently responding to leptin (responders) and those from other donors (approximately 60%) never responding (non-responders). Western blotting and reverse transcriptase-polymerase chain reaction (RT-PCR) experiments showed that platelets from both groups only express the signaling form of the leptin receptor, and that responder platelets express higher levels of this receptor than non-responders. Ligand-binding assays demonstrate specific, saturable binding of leptin to platelets from both groups with apparent K(d) values of 76 +/- 20 nM for responders and 158 +/- 46 nM for non-responders. Thus, the decreased sensitivity of non-responder platelets to leptin does not result from the absence of the signaling form of this receptor, but may reflect differences in its level of expression and/or affinity for leptin. These preliminary studies demonstrate that platelets are a major source of leptin receptor in the circulation, and suggest that leptin-responsive individuals may have a higher risk for obesity-associated thrombosis than non-responsive individuals.
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PMID:The leptin receptor system of human platelets. 1586 2


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