School of Medical Science, Griffith University Gold Coast, Southport, QLD 4222, Australia.
School of Allied Health Science, Menzies Health Institute Queensland, Griffith University Gold Coast, Southport, QLD 4222, Australia.
Eur J Pharmacol. 2018 May 5;826:148-157. doi: 10.1016/j.ejphar.2018.02.050. Epub 2018 Mar 1.
Statins are effective in management of dyslipidaemia, and a cornerstone of CVD prevention strategies. However, the impacts of their pleiotropic effects on other cardiovascular risk factors and myocardial responses to infarction are not well characterised. We hypothesised that pravastatin treatment in obesity improves lipid profiles, insulin-resistance and myocardial resistance to ischaemia/reperfusion (I/R) injury. Wistar rats were fed a control (C) chow or high carbohydrate and fat diet (HCFD) for 16 weeks with vehicle or pravastatin (prava 7.5 mg/kg/day) treatment for 8 weeks. At 16 weeks HOMAs were performed, blood samples collected and hearts excised for Langendorff perfusions/biochemical analyses. Anti-oxidant activity and proteins regulating mitochondrial fission/fusion and apoptosis were assessed. The HCFD increased body weight (736±15 vs. 655±12 g for C; P<0.001), serum triglycerides (2.91±0.52 vs. 1.64±0.26 mmol/L for C; P<0.001) and insulin-resistance (HOMA- 6.9±0.8 vs. 4.2±0.5 for C; P<0.05) while prava prevented diet induced changes and paradoxically increased lipid peroxidation. The HCFD increased infarct size (34.1±3.1% vs. 18.8±3.0% of AAR for C; P<0.05), which was unchanged by prava in C and HCFD animals. The HCFD decreased cardiac TxR activity and mitochondrial MFN-1 and increased mitochondrial DRP-1 (reducing MFN-1:DRP-1 ratio) and Bax expression, with the latter changes prevented by prava. While unaltered by diet, cytosolic levels of Bax and caspase-3 were reduced by prava in C and HCFD hearts (without changes in cleaved caspase-3). We conclude that obesity, hyper-triglyceridemia and impaired glycemic control in HCFD rats are countered by prava. Despite improved risk factors, prava did not reduce myocardial infarct size, potentially reflecting its complex pleiotropic impacts on cardiac GPX activity and MFN-1, DRP-1, caspase-3 and Bcl-2 proteins.
他汀类药物在血脂异常管理中有效,是 CVD 预防策略的基石。然而,其多效性对其他心血管风险因素和心肌对缺血/再灌注 (I/R) 损伤的反应的影响尚不清楚。我们假设普伐他汀治疗肥胖症可改善血脂谱、胰岛素抵抗和心肌对缺血/再灌注 (I/R) 损伤的抵抗。Wistar 大鼠喂食对照 (C) 饲料或高碳水化合物和高脂肪饮食 (HCFD) 16 周,并在 8 周时给予载体或普伐他汀 (pravastatin 7.5mg/kg/天) 治疗。在 16 周时进行 HOMAs 检测,采集血液样本并取出心脏进行 Langendorff 灌注/生化分析。评估抗氧化活性和调节线粒体分裂/融合和细胞凋亡的蛋白质。HCFD 增加体重 (736±15 比 C 组的 655±12g;P<0.001)、血清甘油三酯 (2.91±0.52 比 C 组的 1.64±0.26mmol/L;P<0.001) 和胰岛素抵抗 (HOMA- 6.9±0.8 比 C 组的 4.2±0.5;P<0.05),而 prava 预防了饮食引起的变化,并出人意料地增加了脂质过氧化。HCFD 增加了梗死面积 (34.1±3.1%比 C 组的 18.8±3.0%的 AAR;P<0.05),而在 C 和 HCFD 动物中,普伐他汀对其无影响。HCFD 降低了心脏 TxR 活性和线粒体 MFN-1,并增加了线粒体 DRP-1(降低 MFN-1:DRP-1 比值)和 Bax 表达,而这些变化被 prava 阻止。虽然饮食没有改变,但 C 和 HCFD 心脏中的细胞质 Bax 和 caspase-3 水平被 prava 降低(无裂解 caspase-3 的变化)。我们得出结论,肥胖、高甘油三酯血症和 HCFD 大鼠的血糖控制受损被 prava 抵消。尽管危险因素得到改善,但 prava 并未减少心肌梗死面积,这可能反映了其对心脏 GPX 活性以及 MFN-1、DRP-1、caspase-3 和 Bcl-2 蛋白的复杂多效性影响。
