在饮食诱导的 2 型糖尿病心肌病大鼠模型中，心肌能量底物摄取异常。

Abnormal in vivo myocardial energy substrate uptake in diet-induced type 2 diabetic cardiomyopathy in rats.

机构信息

Division of Endocrinology, Department of Medicine, University de Sherbrooke, Sherbrooke, QC, Canada.

出版信息

Am J Physiol Endocrinol Metab. 2010 May;298(5):E1049-57. doi: 10.1152/ajpendo.00560.2009. Epub 2010 Feb 16.

DOI:10.1152/ajpendo.00560.2009

PMID:20159856

Abstract

The purpose of this study was to determine in vivo myocardial energy metabolism and function in a nutritional model of type 2 diabetes. Wistar rats rendered insulin-resistant and mildly hyperglycemic, hyperinsulinemic, and hypertriglyceridemic with a high-fructose/high-fat diet over a 6-wk period with injection of a small dose of streptozotocin (HFHFS) and control rats were studied using micro-PET (microPET) without or with a euglycemic hyperinsulinemic clamp. During glucose clamp, myocardial metabolic rate of glucose measured with [(18)F]fluorodeoxyglucose ([(18)F]FDG) was reduced by approximately 81% (P < 0.05), whereas myocardial plasma nonesterified fatty acid (NEFA) uptake as determined by [(18)F]fluorothia-6-heptadecanoic acid ([(18)F]FTHA) was not significantly changed in HFHFS vs. control rats. Myocardial oxidative metabolism as assessed by [(11)C]acetate and myocardial perfusion index as assessed by [(13)N]ammonia were similar in both groups, whereas left ventricular ejection fraction as assessed by microPET was reduced by 26% in HFHFS rats (P < 0.05). Without glucose clamp, NEFA uptake was approximately 40% lower in HFHFS rats (P < 0.05). However, myocardial uptake of [(18)F]FTHA administered by gastric gavage was significantly higher in HFHFS rats (P < 0.05). These abnormalities were associated with reduced Glut4 mRNA expression and increased Cd36 mRNA expression and mitochondrial carnitine palmitoyltransferase 1 activity (P < 0.05). HFHFS rats display type 2 diabetes complicated by left ventricular contractile dysfunction with profound reduction in myocardial glucose utilization, activation of fatty acid metabolic pathways, and preserved myocardial oxidative metabolism, suggesting reduced myocardial metabolic efficiency. In this model, increased myocardial fatty acid exposure likely occurs from circulating triglyceride, but not from circulating plasma NEFA.

摘要

这项研究的目的是在 2 型糖尿病的营养模型中确定体内心肌能量代谢和功能。在 6 周的时间里，通过高果糖/高脂肪饮食使 Wistar 大鼠产生胰岛素抵抗和轻度高血糖、高胰岛素血症和高三酰甘油血症，并注射小剂量链脲佐菌素（HFHFS），同时还研究了对照组大鼠。使用 micro-PET（microPET）进行研究，在进行葡萄糖钳夹时，用 [(18)F]氟脱氧葡萄糖 ([(18)F]FDG) 测量的心肌葡萄糖代谢率降低了约 81%（P < 0.05），而 [(18)F]氟噻 6-十七烷酸 ([(18)F]FTHA) 测定的心肌血浆非酯化脂肪酸 (NEFA) 摄取在 HFHFS 与对照组大鼠之间没有明显变化。通过 [(11)C]乙酸评估的心肌氧化代谢和通过 [(13)N]氨评估的心肌灌注指数在两组中相似，而 microPET 评估的左心室射血分数在 HFHFS 大鼠中降低了 26%（P < 0.05）。在没有葡萄糖钳夹的情况下，HFHFS 大鼠的 NEFA 摄取量降低了约 40%（P < 0.05）。然而，HFHFS 大鼠胃内给予 [(18)F]FTHA 的心肌摄取量显著增加（P < 0.05）。这些异常与 Glut4 mRNA 表达减少、Cd36 mRNA 表达增加和线粒体肉碱棕榈酰转移酶 1 活性增加有关（P < 0.05）。HFHFS 大鼠表现出 2 型糖尿病合并左心室收缩功能障碍，心肌葡萄糖利用率显著降低，脂肪酸代谢途径激活，心肌氧化代谢保持不变，提示心肌代谢效率降低。在这种模型中，增加的心肌脂肪酸暴露可能来自循环甘油三酯，而不是来自循环血浆 NEFA。

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在饮食诱导的 2 型糖尿病心肌病大鼠模型中，心肌能量底物摄取异常。

Abnormal in vivo myocardial energy substrate uptake in diet-induced type 2 diabetic cardiomyopathy in rats.

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