Division of Cardiology, Department of Medical Specialties, Geneva University Hospitals, Switzerland.
Am J Physiol Endocrinol Metab. 2012 Apr 1;302(7):E872-84. doi: 10.1152/ajpendo.00427.2011. Epub 2012 Jan 31.
Stimulation of glucose transport in response to insulin or metabolic stress is an important determinant of cardiac myocyte function and survival, particularly during ischemia-reperfusion episodes. The impact of dyslipidemia and its consequence PPAR activation on stimulated glucose transport in cardiac myocytes remains unknown. Isolated adult rat cardiac myocytes were chronically exposed to free fatty acids (FFA) or PPAR agonists. Insulin- (ISGT) and oligomycin-stimulated glucose transport (OSGT) and related cell signaling were analyzed. Exposure of cardiac myocytes to FFA reduced both ISGT and OSGT. Exposure to either PPARα or PPARδ agonists, but not to a PPARγ agonist, reduced ISGT but not OSGT and increased fatty acid oxidation (FAO). The reduction in ISGT was associated with impaired insulin signaling and, in the case of PPAR stimulation, overexpression of SOCS-3, a protein known to hinder proximal insulin signaling. In contrast, the reduction of OSGT could not be explained by a reduced activity of the cellular energy-sensing system, as assessed from the maintained phosphorylation state of AMPK. Inhibition of FAO at the level of mitochondrial acylcarnitine uptake restored OSGT but not ISGT. Seemingly paradoxically, further stimulation of FAO with PPARα or PPARδ agonists also restored OSGT but not ISGT. Together, these results suggest that inhibition of OSGT occurs downstream of energy gauging and is caused by some intermediate(s) of fatty acid oxidation, which does not appear to be acylcarnitines. The results indicate that the mechanisms underlying FFA-mediated inhibition of ISGT and OSGT differ remarkably.
刺激葡萄糖转运以响应胰岛素或代谢应激是心肌细胞功能和存活的重要决定因素,特别是在缺血再灌注期间。脂代谢异常及其后果 PPAR 激活对心肌细胞中刺激的葡萄糖转运的影响尚不清楚。将成年大鼠心肌细胞长期暴露于游离脂肪酸 (FFA) 或 PPAR 激动剂中。分析胰岛素-(ISGT)和寡霉素刺激的葡萄糖转运(OSGT)和相关的细胞信号转导。心肌细胞暴露于 FFA 会降低 ISGT 和 OSGT。暴露于 PPARα 或 PPARδ 激动剂,但不是 PPARγ 激动剂,会降低 ISGT 但不会降低 OSGT 并增加脂肪酸氧化 (FAO)。ISGT 的降低与胰岛素信号受损有关,而在 PPAR 刺激的情况下,SOCS-3 的过度表达,SOCS-3 是一种已知阻碍胰岛素信号转导的近端蛋白。相比之下,OSGT 的降低不能用细胞能量感应系统的活性降低来解释,因为 AMPK 的磷酸化状态保持不变。在酰基辅酶 A 摄取水平上抑制 FAO 可恢复 OSGT,但不能恢复 ISGT。似乎矛盾的是,用 PPARα 或 PPARδ 激动剂进一步刺激 FAO 也可恢复 OSGT,但不能恢复 ISGT。总之,这些结果表明,OSGT 的抑制发生在能量测定的下游,是由脂肪酸氧化的某些中间产物引起的,这些中间产物似乎不是酰基辅酶 A。结果表明,FFA 介导的 ISGT 和 OSGT 抑制的机制差异显著。
