UMLS:C0155339 - FACTA Search

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Query: UMLS:C0155339 (Brown)
12,436 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Disorders of carbohydrate and lipid metabolism have been reported to cluster in patients with essential hypertension and in spontaneously hypertensive rats (SHRs). A deletion in the Cd36 gene on chromosome 4 has recently been implicated in defective carbohydrate and lipid metabolism in isolated adipocytes from SHRs. However, the role of Cd36 and chromosome 4 in the control of blood pressure and systemic cardiovascular risk factors in SHRs is unknown. In the SHR. BN-Il6/Npy congenic strain, we have found that transfer of a segment of chromosome 4 (including Cd36) from the Brown Norway (BN) rat onto the SHR background induces reductions in blood pressure and ameliorates dietary-induced glucose intolerance, hyperinsulinemia, and hypertriglyceridemia. These results demonstrate that a single chromosome region can influence a broad spectrum of cardiovascular risk factors involved in the hypertension metabolic syndrome. However, analysis of Cd36 genotypes in the SHR and stroke-prone SHR strains indicates that the deletion variant of Cd36 was not critical to the initial selection for hypertension in the SHR model. Thus, the ability of chromosome 4 to influence multiple cardiovascular risk factors, including hypertension, may depend on linkage of Cd36 to other genes trapped within the differential segment of the SHR. BN-Il6/Npy strain.
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PMID:Genetics of Cd36 and the clustering of multiple cardiovascular risk factors in spontaneous hypertension. 1037 71

Age-dependent changes in insulin action and body fat distribution are risk factors for the development of type 2 diabetes. To examine whether the accumulation of visceral fat (VF) could play a direct role in the pathophysiology of insulin resistance and type 2 diabetes, we monitored insulin action, glucose tolerance, and the expression of adipo-derived peptides after surgical removal of VF in aging (20-month-old) F344/Brown Norway (FBN) and in Zucker Diabetic Fatty (ZDF) rats. As expected, peripheral and hepatic insulin action were markedly impaired in aging FBN rats, and extraction of VF (accounting for approximately 18% of their total body fat) was sufficient to restore peripheral and hepatic insulin action to the levels of young rats. When examined at the mechanistic level, removal of VF in ZDF rats prevented the progressive decrease in insulin action and delayed the onset of diabetes, but VF extraction did not alter plasma free fatty acid levels. However, the expression of tumor necrosis factor-alpha and leptin in subcutaneous (SC) adipose tissue were markedly decreased after VF removal (by approximately three- and twofold, respectively). Finally, extracted VF retained approximately 15-fold higher resistin mRNA compared with SC fat. Our data suggest that insulin resistance and the development of diabetes can be significantly reduced in aging rats by preventing the age-dependent accumulation of VF. This study documents a cause-and-effect relationship between VF and major components of the metabolic syndrome.
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PMID:Removal of visceral fat prevents insulin resistance and glucose intolerance of aging: an adipokine-mediated process? 1235 32

The seminal studies of Brown and Goldstein (Science 1986;232:34-47) coupled with the findings of the Framingham study revolutionized our understanding of the metabolic basis for vascular disease. These studies led to the widespread use of the coronary risk lipid profile, which uses the total cholesterol/high-density lipoprotein (HDL) ratio (or low-density lipoprotein [LDL]/HDL ratio) in predicting risk for vascular disease and as a tool for therapeutic management of patients at risk for vascular disease. However, although these methods are predictive of coronary artery disease (CAD) in general, it is also well known that the extent of occlusive disease and CAD varies greatly between individuals with similar cholesterol and HDL lipid profiles. For this reason, the National Cholesterol Education Program Expert Panel revised these guidelines and now recommends monitoring LDL and HDL cholesterol in the context of coronary heart disease risk factors and "risk equivalents." In addition, more recent findings indicate that specific alterations in individual lipoprotein subclasses may account for the variations in CAD in subjects with similar lipid profiles. For example, a preponderance of small, dense LDL particles correlates with a marked increase in risk for myocardial infarction independent of LDL levels. In particular, the association of small, dense LDL with elevated triglycerides (large, less dense VLDL) and reduced HDL has been defined as the atherogenic lipoprotein profile, and the key metabolic defect driving this profile may be elevated levels of triglycerides, specifically large, less dense VLDL. In an attempt to explain the physiologic basis for lipoprotein variations, this review describes the basic metabolic scheme underlying the traditional view of lipoprotein metabolism and physiology. It then examines the identity and role of the various lipoprotein subfractions in an attempt to distill a working model of how lipoprotein abnormalities might account for vascular disease in general and the metabolic syndrome in particular.
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PMID:The physiology of lipoproteins. 1246 89

Aerobic conditioned muscle shows increased oxidative metabolism or glucose relative to untrained muscle at a given absolute exercise intensity. The studies of a targeted risk reduction intervention through defined exercise (STRRIDE) study is an aerobic exercise intervention in men and women with features of metabolic syndrome (Kraus WE, Torgan CE, Duscha BD, Norris J, Brown SA, Cobb FR, Bales CW, Annex BH, Samsa GP, Houmard JA, and Slentz CA, Med Sci Sports Exerc 33: 1774-1784, 2001), with four muscle biopsies taken during training and detraining time points. Here, we expanded a previous study (Hittel DS, Kraus WE, and Hoffman EP, J Physiol 548: 401-410, 2003) and used mRNA profiling to investigate gene transcripts associated with energy and substrate metabolism in STRRIDE participants. We found coordinate regulation of key metabolic enzymes with aerobic training in metabolic syndrome (aspartate aminotransferase 1, lactate dehydrogenase B, and pyruvate dehydrogenase-alpha(1)). All were also quickly downregulated by detraining, although the induction was not an acute response to activity. Protein and enzymatic assays were used to validate mRNA induction with aerobic training and loss with detraining (96 h to 2 wk) in 10 male and 10 female STRRIDE subjects. We propose that training coordinately increases the levels of aspartate aminotransferase 1, lactate dehydrogenase B, and pyruvate dehydrogenase-alpha(1) subunit, increasing glucose metabolism in muscle by liberating pyruvate for oxidative metabolism and, therefore, limiting lactate efflux. Serial measurement of fasting plasma lactate from 62 subjects from the same exercise group demonstrated a significant decrease of circulating lactate with training. We also found evidence for sex-specific molecular remodeling of muscle with ubiquinol-cytochrome c reductase core protein II, a component of mitochondrial respiratory complex III, which showed an increase after training that was specific to women. These biochemical adaptations complement existing molecular models for improved glucose tolerance with exercise intervention in prediabetic individuals.
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PMID:Exercise training increases electron and substrate shuttling proteins in muscle of overweight men and women with the metabolic syndrome. 1534 26

The polydactylous rat strain (PD/Cub) is a highly inbred (F > 90) genetic model of metabolic syndrome. The aim of this study was to analyze the genetic architecture of the metabolic derangements found in the PD/Cub strain and to assess its dynamics in time and in response to diet and medication. We derived a PD/Cub x BN/Cub (Brown Norway) F2 intercross population of 149 male rats and performed metabolic profiling and genotyping and multiple levels of genetic linkage and statistical analyses at five different stages of ontogenesis and after high-sucrose diet feeding and dexamethasone administration challenges. The interval mapping analysis of 83 metabolic and morphometric traits revealed over 50 regions genomewide with significant or suggestive linkage to one or more of the traits in the segregating PD/Cub x BN/Cub population. The multiple interval mapping showed that, in addition to "single" quantitative train loci, there are more than 30 pairs of loci across the whole genome significantly influencing the variation of particular traits in an epistatic fashion. This study represents the first whole genome analysis of metabolic syndrome in the PD/Cub model and reveals several new loci previously not connected to the genetics of insulin resistance and dyslipidemia. In addition, it attempts to present the concept of "dynamic genetic architecture" of metabolic syndrome attributes, evidenced by shifts in the genetic determination of syndrome features during ontogenesis and during adaptation to the dietary and pharmacological influences.
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PMID:Dynamic genetic architecture of metabolic syndrome attributes in the rat. 1572 34

Recently, Fukuhara et al. have shown that the novel visfatin is predominantly released from visceral adipocytes and shares metabolic functions with insulin. The authors suggested that there is a relationship between visfatin and the metabolic syndrome in humans. These findings prompted us to clarify the visfatin gene expression from visceral and subcutaneous adipocytes in WOKW rats, as an animal model for polygenically inherited metabolic syndrome, compared to lean Dark Agouti (DA) rats. Moreover, visfatin sequence analysis was performed in WOKW, DA rats, and disease-resistant Fisher 344, Lewis, Brown Norway, and Karlsburg wild rats. The relative gene expression of visfatin displays no significant changes in adipocytes from WOKW rats compared with DA and visfatin sequence analysis of the coding region was identical to the GenBank. But, we found length differences of two repeats, GT and GA, in intron 2 between the strains. In summary, the relative visfatin gene expression is not associated with the metabolic syndrome in WOKW rats.
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PMID:Visfatin: gene expression in isolated adipocytes and sequence analysis in obese WOKW rats compared with lean control rats. 1592 1

Genetically hypertensive rats of the Lyon strain (LH) associate high blood pressure (BP), exaggerated salt-sensitivity, and a metabolic syndrome made of overweight together with increased plasma lipids and insulin/glucose ratio. A genetic mapping study in a large population of F2 rats derived from a cross between hypertensive (LH) and normotensive rats (LN) showed the existence, on chromosome 17, of two clusters of Quantitative Traits Loci (QTLs). The first one was associated to morphological parameters whereas the second influenced blood pressure and plasma lipids level. In order to determine the functional importance of this QTLs, we generated a consomic strain LH-17BN in which the LH chromosome 17 has been fully substituted by a normotensive Brown Norway (BN) one. These LH-17BN, as well as LH and BN male rats of the parental strain were phenotyped. This included radio telemetric measurement of BP during normal and elevated salt intake (1% and then 2% in the drinking water) as well as the determination of morphological, metabolic (triglycerides, cholesterol) and renal (creatinine clearance, proteinuria) parameters. LH-17BN, compared to LH rats, exhibited significant decreases in body weight and blood pressure. Renal functions are improved (decreased of proteinuria). Finally, plasma triglycerides were reduced and reach the level observed in BN rats. In conclusion, the present work demonstrates that, in our model, chromosome 17 contains genes which influence morphology, blood pressure, renal function, and lipid metabolism. Interestingly, chromosome 17 almost completely explains the spontaneous hypertriglyceridemia observed in Lyon Hypertensive rats.
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PMID:[Importance of chromosome 17 in genetically hypertensive rats of the Lyon strain (LH): study of a consomic strain]. 1792 82

Approximately 30% of patients with hypertension have hepatic steatosis, and it has recently been proposed that fatty liver be considered a feature of the metabolic syndrome. Obesity, diet, and level of physical activity are likely factors modulating risk for hepatic steatosis, however genetic factors could also influence susceptibility or resistance to fatty liver in hypertensive or normotensive subjects. In genetic studies in spontaneously hypertensive rats (SHRs) and Brown Norway (BN) rats, we discovered that a variant form of sterol regulatory element binding transcription factor 1 (Srebf1 gene, SREBP-1 protein) underlies a quantitative trait locus (QTL) influencing hepatic cholesterol levels in response to a high cholesterol diet. Compared with the BN allele of Srebf1, the SHR allele of Srebf1 includes variants in the promoter and coding regions that are linked to hepatic deficiency of SREBP-1 mRNA and protein, reduced expression of the SREBP-1 target gene stearoyl-CoA desaturase 1, reduced promoter activity for SREBP-1c, and relative protection from dietary induced accumulation of liver cholesterol. Genetic correction of reduced SREBP-1 activity by derivation of congenic and transgenic strains of SHR increased hepatic cholesterol levels, thereby confirming Srebf1 as a QTL influencing hepatic lipid metabolism in the rat. The Srebf1 variant regulating hepatic cholesterol did not appear to affect blood pressure. These findings (1) are consistent with the results of association studies indicating that common polymorphisms affecting SREBP-1 may influence cholesterol synthesis in humans and (2) indicate that variation in Srebf1 may influence risk for hepatic steatosis.
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PMID:Identification of mutated Srebf1 as a QTL influencing risk for hepatic steatosis in the spontaneously hypertensive rat. 1807 Oct 61

Genetically hypertensive rats of the Lyon strain (LH) have both high blood pressure and a metabolic syndrome. Linkage studies have disclosed quantitative trait loci of interest on chromosomes 2, 13 and 17. In the present work we designed consomic rats, i.e. LH rats in which a full chromosome was replaced by the same chromosome originating from the Brown-Norway (BN) normotensive strain. Rats consomic for chromosome 17 (LH-17BN) exhibited slightly but significantly lower blood pressure, which remained sensitive to an oral salt load. The cholesterol level was unaffected, while the triglyceride level was markedly depressed. This consomic approach seems to be of value for studying polygenic diseases such as hypertension and the metabolic syndrome. In the case of LH rats, our results confirm the functional importance of the loci identified on chromosome 17.
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PMID:[Consomic approach to blood pressure and metabolic diseases in Lyon hypertensive rats]. 1822 39

The metabolic syndrome (involving obesity, hypertension, dyslipidemia, insulin resistance, and a proinflammatory/prethrombotic state) is a major risk factor for cardiovascular disease. Its incidence continues to rise, in part because of the epidemic increase in obesity. The Lyon hypertensive (LH) rat is a model for hypertension and several other features of the metabolic syndrome, having high body weight, plasma cholesterol, and triglycerides, increased insulin-to-glucose ratio, and salt-sensitive hypertension. Previous genetic studies in LH/Mav rats and a normotensive control (LN/Mav) identified quantitative trait loci (QTLs) on rat chromosome (RNO)17 for multiple features of the metabolic syndrome. To further evaluate the role of RNO17 in the LH rat, we generated a consomic strain (LH-17(BN)) by substituting LH RNO17 with that of the sequenced Brown Norway (BN/NHsdMcwi) rat. Male LH and BN rats and LH-17(BN) rats were characterized for blood pressure and metabolic and morphological parameters. Similar to the protective effect of LN alleles, the LH-17(BN) rat also showed decreased body weight, triglycerides, and blood pressure; however, there was no significant difference in cholesterol or insulin-to-glucose ratio. Therefore, the substitution of the LH chromosome 17 is sufficient to recapitulate some, but not all, of the traits previously mapped to this chromosome. This could be due to the lack of a susceptible LH genome background or due to the introgression of chromosome 17 from another strain. Regardless, this study provides a single-chromosome genetic model for further dissection of blood pressure and morphological and metabolic traits on this chromosome.
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PMID:Effects of chromosome 17 on features of the metabolic syndrome in the Lyon hypertensive rat. 1828 21

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