肥胖男性的糖耐量与皮下脂肪组织中一些血管生成相关基因表达的失调有关。

O H Minchenko, Y M Bashta, D O Minchenko, O O Ratushna
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引用次数: 3

摘要

肥胖及其代谢并发症是基因与环境相互作用的结果,是影响最深远的公共卫生问题之一。肥胖的发展与控制大多数代谢过程的内在基因表达机制失调密切相关,而代谢过程对调节许多生理功能至关重要,包括胰岛素敏感性、细胞增殖和血管生成。我们的目的是评估血管生成相关基因VEGF-A、CYR61、PDGFC、FGF1、FGF2、FGFR2、FGFRL1、E2F8、BAI2、HIF1A和EPAS1在脂肪组织中mRNA水平的表达是否参与肥胖和代谢并发症的发生。我们已经证明,与对照组相比,正常糖耐量(NGT)的肥胖男性脂肪组织中VEGF-A、PDGFC、FGF2和FGFRL1基因的表达水平降低。同时,在这组肥胖个体中,CYR61、FGF1、FGFR2、E2F8、BAI2和HIF1A基因表达显著上调。肥胖患者的糖耐量(IGT)受损与脂肪组织与肥胖(NGT)个体中CYR61和FGFR2 mRNA的下调以及E2F8、FGF1、FGF2、VEGF-A及其剪接变体189 mRNA表达的上调有关。因此,我们的数据表明,几乎所有研究基因的表达在患有NGT的肥胖个体的皮下脂肪组织中都受到影响,并且葡萄糖耐受不良与E2F8、FGF1、FGF2、VEGF-A、CYR61和FGFR2 mrna表达的基因特异性变化有关。本文提供的数据证明,VEGF-A、CYR61、PDGFC、FGF1、FGF2、FGFR2、FGFRL1、E2F8、BAI2和HIF1A基因可能参与肥胖及其并发症的发生。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Glucose tolerance in obese men is associated with dysregulation of some angiogenesis-related gene expressions in subcutaneous adipose tissue.

Obesity and its metabolic complications are one of the most profound public health problems and result from interactions between genes and environmental. The development of obesity is tightly connected with dysregulation of intrinsic gene expression mechanisms controlling majority of metabolic processes, which are essential for regulation many physiological functions, including insulin sensitivity, cellular proliferation and angiogenesis. Our objective was to evaluate if expression of angiogenesis related genes VEGF-A, CYR61, PDGFC, FGF1, FGF2, FGFR2, FGFRL1, E2F8, BAI2, HIF1A, and EPAS1 at mRNA level in adipose tissue could participate in the development of obesity and metabolic complications. We have shown that expression level of VEGF-A, PDGFC, FGF2, and FGFRL1 genes is decreased in adipose tissue of obese men with normal glucose tolerance (NGT) versus a group of control subjects. At the same time, in this group of obese individuals a significant up-regulation of CYR61, FGF1, FGFR2, E2F8, BAI2, and HIF1A gene expressions was observed. Impaired glucose tolerance (IGT) in obese patients associates with down-regulation of CYR61 and FGFR2 mRNA and up-regulations of E2F8, FGF1, FGF2, VEGF-A and its splice variant 189 mRNA expressions in adipose tissue versus obese (NGT) individuals. Thus, our data demonstrate that the expression of almost all studied genes is affected in subcutaneous adipose tissue of obese individuals with NGT and that glucose intolerance is associated with gene-specific changes in the expression of E2F8, FGF1, FGF2, VEGF-A, CYR61 and FGFR2 mRNAs. The data presented here provides evidence that VEGF-A, CYR61, PDGFC, FGF1, FGF2, FGFR2, FGFRL1, E2F8, BAI2, and HIF1A genes are possibly involved in the development of obesity and its complications.

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