Cold exposure of rats leads to ameliorated glucose and triglyceride utilization with fema les displaying better adaptation to a cold environment. In the current study, we used hairless rats as a model of increased thermo genesis and analyzed gender- related effects on parameters of lipid and glucose metabolism in the spontaneously hypertensive (SHR) rats. Specifically, we compared hairless coisogenic SHR- Dsg4 males and females harboring mutant Dsg4 (desmoglein 4) gene versus their SHR wild type controls. Two way ANOVA showed significant Dsg4 genotype (hairless or wild type) x gender interaction effects on palmitate oxidation in brown adipose tissue (BAT), glucose incorporation into BAT determined by microPET, and glucose oxidation in skeletal muscles. In addition, we observed significant interaction effects on sensitivity of muscle tissue to insulin action when Dsg4 genotype affected these metabolic traits in males, but had little or no effects in females. Both wild type and hairless females and hairless males showed increased glucose incorporation and palmitate oxid ation in BAT and higher tissue insulin sensitivity when compared to wild type males. These findings provide evidence for gender-related differences in metabolic adaptation required for increased thermogenesis. They are consistent with the hypothesis that increased glucose and palmitate utilization in BAT and muscle is associated with higher sensitivity of adipose and muscle tissues to insulin action, J. Trnovská, J. Šilhavý, V. Zídek, M. Šimáková, P. Mlejnek, V. Landa, S. Eigner, K. Eigner Henke, V. Škop, O. Oliyarnyk, L. Kazdová, T. Mráček, J. Houštěk, M. Pravenec., and Obsahuje bibliografii
The spontaneously hypertensive rat (SHR) is the most widely used animal model of essential hypertension an d accompanying metabolic disturbances. Recent advances in sequencing of genomes of BN- Lx and SHR progenitors of the BXH/HXB recombinant inbred (RI) strains as well as ac cumulation of multiple data sets of intermediary phenotypes in the RI strains, including mRNA and microRNA abundance, quantitative metabolomics, proteomics, methylomics or histone modifications, will make it possible to systematically search for genetic variants involved in regulation of gene ex pression and in the etiology of complex pathophysiological traits. New advances in manipulation of the rat genome, including e fficient transgenesis and gene targeting, will enable in vivo functional analys es of selected candidate genes to identify QTL at the molecular level or to provide insight into mechanisms whereby targeted genes affect pathophysiological traits in the SHR., M. Pravenec ... [et al.]., and Obsahuje bibliografii a bibliografické odkazy
Recently, we derived “humanized” spontaneously hypertensive rats (SHR-CRP) in which transgenic expression of human CRP induces inflammation, oxidative stress, several features of metabolic syndrome and target organ injury. In addition, we found that rosuvastatin treatment of SHR-CRP transgenic rats can protect against pro-inflammatory effects of human CRP and also reduce cardiac inflammation and oxidative damage. In the current study, we tested the effects of rosuvastatin (5 mg/kg) on kidney injury in SHR-CRP males versus untreated SHR-CRP and SHR controls. All rats were fed a high sucrose diet. In SHR-CRP transgenic rats, treatment with rosuvastatin for 10 weeks, compared to untreated transgenic rats and SHR controls, was associated with significantly reduced systemic inflammation which was accompanied with activation of antioxidative enzymes in the kidney, lower renal fat accumulation, and with amelioration of histopathological changes in the kidney. These findings provide evidence that, in the presence of high CRP levels, rosuvastatin exhibits significant anti-inflammatory, anti-oxidative, and renoprotective effects., J. Šilhavý, V. Zídek, V. Landa, M. Šimáková, P. Mlejnek, O. Oliyarnyk, H. Malínská, L. Kazdová, M. Mancini, M. Pravenec., and Obsahuje bibliografii
It has been reported that the major function of the sterol regulatory element binding protein 2 (SREBP-2) is to activate preferentially cholesterol biosynthesis in liver and adipose tissue rather than fatty acid synthesis. In the current study, we analyzed the effects of overexpression of human dominantpositive SREBP-2 transgene under control of PEPCK promoter in the spontaneously hypertensive rat (SHR) on lipid and glucose metabolism. Transgenic overexpression of SREBP-2 was associated with significantly higher hepatic triglycerides (20.4±0.9 vs. 17.0±0.05 μmol/g, P<0.05) but not cholesterol (10.6±0.4 vs. 10.9±0.4 μmol/g) and decreased relative weight of epididymal fat pad (0.73±0.03 vs. 0.830.03, P<0.05). In addition, muscle triglyceride (15.8±3.7 vs. 8.5±1.2 μmol/g, P<0.001) and cholesterol (3.6±0.5 vs. 2.1±0.1 μmol/g, P<0.05) concentrations were significantly increased in transgenic rats when compared to SHR controls. Ectopic fat accumulation was associated with significantly increased serum glucose levels (6.4±0.1 vs. 5.9±0.1 mmol/l, P<0.005) and reduced insulin levels (1.78±0.33 vs. 2.73±0.37 nmol/l, P<0.05) in transgenic rats. These results provide evidence for important role of SREBP-2 in regulation of lipid and glucose metabolism., V. Landa, V. Zídek, P. Mlejnek, M. Šimáková, J. Šilhavý, J. Trnovská, L. Kazdová, M. Pravenec., and Obsahuje bibliografii
Spontaneously hypertensive rats (SHR/NIH strain) harbor a deletion variant in the Cd36 fatty acid transporter and display defective fatty acid metabolism, insulin resistance and hypertension. Transgenic rescue of Cd36 in SHR ameliorates insulin resistance and improves dyslipidemia. However, the role of Cd36 in blood pressure regulation remains controversial due to inconsistent blood pressure effects that were observed with transgenic expression of Cd36 on the SHR background. In the current studies, we developed two new SHR transgenic lines, which express wild type Cd36 under the control of the universal Ef-1 promoter, and examined the effects of transgenic expression of wild type Cd36 on selected metabolic and cardiovascular phenotypes. Transgenic expression of Cd36 in the new lines was associated with significantly decreased serum fatty acids, amelioration of insulin resistance and glucose intolerance but failed to induce any consistent changes in blood pressure as measured by radiotelemetry. The current findings confirm the genetic association of defective Cd36 with disordered insulin action and fatty acid metabolism in the SHR/NIH strain and suggest that Cd36 is linked to other gene(s) on rat chromosome 4 that regulate blood pressure., M. Pravenec, V. Landa, V. Zídek, A. Musilová, L. Kazdová, N. Qi, J. Wang, E. St.Lezin, T. W. Kurtz., and Obsahuje bibliografii