游离脂肪酸、胰岛素抵抗和2型糖尿病。

G Boden
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引用次数: 247

摘要

有证据表明游离脂肪酸(FFA)是肥胖、胰岛素抵抗和2型糖尿病之间的一个重要联系。在大多数肥胖受试者中,血浆游离脂肪酸水平升高,血浆游离脂肪酸的生理性升高会抑制胰岛素刺激的葡萄糖摄取到肌肉。这种外周胰岛素抵抗是由游离脂肪酸诱导的缺陷引起的,这种缺陷发生在血浆游离脂肪酸升高3-4小时后,在胰岛素刺激的葡萄糖转运或磷酸化中,或两者兼而有之。这种抗性也是由第二种缺陷引起的,这种缺陷在4-6小时后发生,包括糖原合成酶活性的抑制。血浆游离脂肪酸水平升高是否会抑制胰岛素对内源性葡萄糖生成(EGP)的作用,即引起中枢性胰岛素抵抗,则更难证实。一方面,FFA促进糖异生,提高EGP;另一方面,FFA增加胰岛素分泌,降低EGP。在糖尿病和非糖尿病患者中,基础血浆游离脂肪酸支持大约三分之一的基础胰岛素分泌,因此是肥胖、血糖正常患者中一些高胰岛素血症的原因。此外,血浆游离脂肪酸水平升高会在长时间暴露(48小时)时加速葡萄糖刺激的胰岛素分泌。据推测,遗传上易患2型糖尿病的肥胖受试者会部分“脂质失明”,也就是说,无法用脂肪酸诱导的胰岛素过度分泌来补偿脂肪酸诱导的胰岛素抵抗。由此产生的胰岛素抵抗/分泌不足将不得不用葡萄糖诱导的胰岛素分泌来补偿,由于他们的部分“葡萄糖失明”,这将导致高血糖,最终导致2型糖尿病。
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Free fatty acids, insulin resistance, and type 2 diabetes mellitus.

Evidence is presented that shows that free fatty acids (FFA) are one important link between obesity, insulin resistance, and type 2 diabetes. Plasma FFA levels are elevated in most obese subjects, and physiological elevations of plasma FFA inhibit insulin-stimulated glucose uptake into muscle. This peripheral insulin resistance is caused by an FFA-induced defect, which develops 3-4 hr after raising plasma FFA, in insulin-stimulated glucose transport or phosphorylation, or both. This resistance is also caused by a second defect, which develops after 4-6 hr, consisting of inhibition of glycogen synthase activity. Whether elevated plasma FFA levels inhibit insulin action on endogenous glucose production (EGP), that is, cause central insulin resistance, is more difficult to demonstrate. On the one hand, FFA increase gluconeogenesis, which enhances EGP; on the other hand, FFA increase insulin secretion, which decreases EGP. Basal plasma FFA support approximately one third of basal insulin secretion in diabetic and nondiabetic subjects and, hence, are responsible for some of the hyperinsulinemia in obese, normoglycemic patients. In addition, elevated plasma FFA levels potentiate glucose-stimulated insulin secretion acutely and during prolonged exposure (48 hr). It is hypothesized that obese subjects who are genetically predisposed to develop type 2 diabetes will become partially "lipid blind," that is, unable to compensate for their FFA-induced insulin resistance with FFA-induced insulin oversecretion. The resulting insulin resistance/secretion deficit will then have to be compensated for with glucose-induced insulin secretion, which, because of their partial "glucose blindness," will result in hyperglycemia and eventually in type 2 diabetes.

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