胆固醇酯转移蛋白 (CETP) 对血管周围脂肪组织的性别特异性影响

IF 5.1 Q2 CELL BIOLOGY Function (Oxford, England) Pub Date : 2024-07-11 DOI:10.1093/function/zqae024
C M Lazaro, I N Freitas, V S Nunes, D M Guizoni, J A Victorio, H C F Oliveira, A P Davel
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引用次数: 0

摘要

胆固醇酯转移蛋白(CETP)会降低高密度脂蛋白胆固醇水平,从而增加动脉粥样硬化的风险。它还表现出与高密度脂蛋白无关的组织特异性效应。然而,CETP 作用的性双态性在很大程度上仍未得到研究。在这里,我们假设 CETP 以性别特异性的方式影响血管周围脂肪组织(PVAT)的表型和功能。我们对表达人或猿CETP的雌雄转基因小鼠及其非转基因小鼠(NTg)的PVAT功能、基因和蛋白表达以及形态进行了研究。PVAT在NTg雄性、NTg雌性和CETP雌性小鼠的主动脉中发挥了抗收缩作用,但在CETP雄性小鼠中却没有。CETP雄性PVAT的NO水平降低,eNOS和磷酸化-eNOS水平降低,氧化应激增加,NOX1和2表达增加,SOD2和3表达减少。相反,表达 CETP 的雌性 PVAT 的 NO 和磷酸化-eNOS 水平升高,NOX 表达量不变。抑制 NOX 和抗氧化剂 tempol 恢复了 CETP 雄性 PVAT 的抗收缩功能。体内外雌激素处理也恢复了 CETP 雄性 PVAT 的功能。此外,CETP 雄性而非雌性 PVAT 显示出炎症标记物的增加。CETP 雄性 PVAT 的脂质含量增加,而 CETP 雌性 PVAT 的脂质含量减少,而 CETP 雌性 PVAT 的胆固醇含量增加。CETP 雄性 PVAT 表现出瘦素升高和 Prdm16(棕色脂肪细胞标志物)表达降低。这些发现凸显了 CETP 性别特异性对 PVAT 的影响。在男性中,CETP 会损害 PVAT 的抗收缩功能,并伴有氧化应激、炎症和白化。相反,在女性中,CETP 的表达会增加 NO 水平,诱导抗炎表型,并保持抗收缩功能。这项研究揭示了 CETP 介导的具有性别特异性的血管功能障碍。
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Sex-Specific Effects of Cholesteryl Ester Transfer Protein (CETP) on the Perivascular Adipose Tissue.

Cholesteryl ester transfer protein (CETP) increases the atherosclerosis risk by lowering HDL-cholesterol levels. It also exhibits tissue-specific effects independent of HDL. However, sexual dimorphism of CETP effects remains largely unexplored. Here, we hypothesized that CETP impacts the perivascular adipose tissue (PVAT) phenotype and function in a sex-specific manner. PVAT function, gene and protein expression, and morphology were examined in male and female transgenic mice expressing human or simian CETP and their non-transgenic counterparts (NTg). PVAT exerted its anticontractile effect in aortas from NTg males, NTg females, and CETP females, but not in CETP males. CETP male PVAT had reduced NO levels, decreased eNOS and phospho-eNOS levels, oxidative stress, increased NOX1 and 2, and decreased SOD2 and 3 expressions. In contrast, CETP-expressing female PVAT displayed increased NO and phospho-eNOS levels with unchanged NOX expression. NOX inhibition and the antioxidant tempol restored PVAT anticontractile function in CETP males. Ex vivo estrogen treatment also restored PVAT function in CETP males. Moreover, CETP males, but not female PVAT, show increased inflammatory markers. PVAT lipid content increased in CETP males but decreased in CETP females, while PVAT cholesterol content increased in CETP females. CETP male PVAT exhibited elevated leptin and reduced Prdm16 (brown adipocyte marker) expression. These findings highlight CETP sex-specific impact on PVAT. In males, CETP impaired PVAT anticontractile function, accompanied by oxidative stress, inflammation, and whitening. Conversely, in females, CETP expression increased NO levels, induced an anti-inflammatory phenotype, and preserved the anticontractile function. This study reveals sex-specific vascular dysfunction mediated by CETP.

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