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敲除 GPAT3 的小鼠在白色脂肪组织中的 GPAT 活性降低,并改变了饮食诱导肥胖中的能量和胆固醇动态平衡。

Mice deleted for GPAT3 have reduced GPAT activity in white adipose tissue and altered energy and cholesterol homeostasis in diet-induced obesity.

机构信息

Cardiovascular and Metabolic Disease Research Unit, Pfizer Worldwide Research and Development, Cambridge, Massachusetts

Cardiovascular and Metabolic Disease Research Unit, Pfizer Worldwide Research and Development, Cambridge, Massachusetts.

出版信息

Am J Physiol Endocrinol Metab. 2014 May 15;306(10):E1176-87. doi: 10.1152/ajpendo.00666.2013. Epub 2014 Apr 8.

DOI:10.1152/ajpendo.00666.2013
PMID:24714397
Abstract

Glycerol-3-phosphate acyltransferases (GPATs) catalyze the first step in the synthesis of glycerolipids and glycerophospholipids. Microsomal GPAT, the major GPAT activity, is encoded by at least two closely related genes, GPAT3 and GPAT4. To investigate the in vivo functions of GPAT3, we generated Gpat3-deficient (Gpat3(-/-)) mice. Total GPAT activity in white adipose tissue of Gpat3(-/-) mice was reduced by 80%, suggesting that GPAT3 is the predominant GPAT in this tissue. In liver, GPAT3 deletion had no impact on total GPAT activity but resulted in a 30% reduction in N-ethylmaleimide-sensitive GPAT activity. The Gpat3(-/-) mice were viable and fertile and exhibited no obvious metabolic abnormalities on standard laboratory chow. However, when fed a high-fat diet, female Gpat3(-/-) mice showed decreased body weight gain and adiposity and increased energy expenditure. Increased energy expenditure was also observed in male Gpat3(-/-) mice, although it was not accompanied by a significant change in body weight. GPAT3 deficiency lowered fed, but not fasted, glucose levels and tended to improve glucose tolerance in diet-induced obese male and female mice. On a high-fat diet, Gpat3(-/-) mice had enlarged livers and displayed a dysregulation in cholesterol metabolism. These data establish GPAT3 as the primary GPAT in white adipose tissue and reveal an important role of the enzyme in regulating energy, glucose, and lipid homeostasis.

摘要

甘油-3-磷酸酰基转移酶 (GPATs) 催化甘油脂质和甘油磷脂合成的第一步。微粒体 GPAT 是主要的 GPAT 活性,由至少两个密切相关的基因 GPAT3 和 GPAT4 编码。为了研究 GPAT3 的体内功能,我们生成了 Gpat3 缺陷型 (Gpat3(-/-)) 小鼠。Gpat3(-/-) 小鼠白色脂肪组织中的总 GPAT 活性降低了 80%,表明 GPAT3 是该组织中的主要 GPAT。在肝脏中,GPAT3 缺失对总 GPAT 活性没有影响,但导致 N-乙基马来酰亚胺敏感的 GPAT 活性降低了 30%。Gpat3(-/-) 小鼠具有活力和繁殖力,在标准实验室饲料上没有表现出明显的代谢异常。然而,当喂食高脂肪饮食时,雌性 Gpat3(-/-) 小鼠的体重增加和肥胖程度降低,能量消耗增加。雄性 Gpat3(-/-) 小鼠也观察到能量消耗增加,尽管体重没有明显变化。GPAT3 缺乏降低了进食时的血糖水平,但不降低禁食时的血糖水平,并倾向于改善饮食诱导的肥胖雄性和雌性小鼠的葡萄糖耐量。在高脂肪饮食中,Gpat3(-/-) 小鼠的肝脏增大,并表现出胆固醇代谢失调。这些数据确立了 GPAT3 是白色脂肪组织中主要的 GPAT,并揭示了该酶在调节能量、葡萄糖和脂质稳态方面的重要作用。

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