Sprecher Dennis L, Massien Christine, Pearce Greg, Billin Andrew N, Perlstein Itay, Willson Timothy M, Hassall David G, Ancellin Nicolas, Patterson Scott D, Lobe David C, Johnson Tony G
GlaxoSmithKline, Department of Discovery Medicine-Dyslipidemia, 709 Swedeland Road, UW2301, King of Prussia, PA 19406, USA.
Arterioscler Thromb Vasc Biol. 2007 Feb;27(2):359-65. doi: 10.1161/01.ATV.0000252790.70572.0c. Epub 2006 Nov 16.
Exercise increases fatty acid oxidation (FAO), improves serum high density lipoprotein cholesterol (HDLc) and triglycerides (TG), and upregulates skeletal muscle peroxisome proliferator activated receptor (PPAR)delta expression. In parallel, PPARdelta agonist-upregulated FAO would induce fatty-acid uptake (via peripheral lipolysis), and influence HDLc and TG-rich lipoprotein particle metabolism, as suggested in preclinical models.
Healthy volunteers were allocated placebo (n=6) or PPARdelta agonist (GW501516) at 2.5 mg (n=9) or 10 mg (n=9), orally, once-daily for 2 weeks while hospitalized and sedentary. Standard lipid/lipoproteins were measured and in vivo fat feeding studies were conducted. Human skeletal muscle cells were treated with GW501516 in vitro and evaluated for lipid-related gene expression and FAO. Serum TG trended downwards (P=0.08, 10 mg), whereas TG clearance post fat-feeding improved with drug (P=0.02). HDLc was enhanced in both treatment groups (2.5 mg P=0.004, 10 mg P<0.001) when compared with the decrease in the placebo group (-11.5+/-1.6%, P=0.002). These findings complimented in vitro cell culture results whereby GW501516 induced FAO and upregulated CPT1 and CD36 expression, in addition to a 2-fold increase in ABCA1 (P=0.002). However, LpL expression remained unchanged.
This is the first report of a PPARdelta agonist administered to man. In this small study, GW501516 significantly influenced HDLc and TGs in healthy volunteers. Enhanced in vivo serum fat clearance, and the first demonstrated in vitro upregulation in human skeletal muscle fat utilization and ABCA1 expression, suggests peripheral fat utilization and lipidation as potential mechanisms toward these HDL:TG effects.
运动可增加脂肪酸氧化(FAO),改善血清高密度脂蛋白胆固醇(HDLc)和甘油三酯(TG)水平,并上调骨骼肌过氧化物酶体增殖物激活受体(PPAR)δ的表达。同时,临床前模型表明,PPARδ激动剂上调的FAO会诱导脂肪酸摄取(通过外周脂肪分解),并影响HDLc和富含TG的脂蛋白颗粒代谢。
健康志愿者被分为三组,分别口服安慰剂(n = 6)、2.5 mg的PPARδ激动剂(GW501516,n = 9)或10 mg的PPARδ激动剂(GW501516,n = 9),每日一次,连续2周,期间住院且保持久坐。测量标准脂质/脂蛋白水平,并进行体内脂肪喂养研究。体外用人骨骼肌细胞进行GW501516处理,并评估脂质相关基因表达和FAO情况。血清TG呈下降趋势(10 mg组P = 0.08),而给药后脂肪喂养后的TG清除率有所改善(P = 0.02)。与安慰剂组的下降情况(-11.5±1.6%,P = 0.002)相比,两个治疗组的HDLc均升高(2.5 mg组P = 0.004,10 mg组P<0.001)。这些结果与体外细胞培养结果相符,即GW501516诱导了FAO并上调了CPT1和CD36的表达,此外ABCA1增加了2倍(P = 0.002)。然而,LpL表达保持不变。
这是关于向人体施用PPARδ激动剂的首篇报道。在这项小型研究中,GW501516对健康志愿者的HDLc和TG有显著影响。体内血清脂肪清除率提高,且首次在体外证明了对人骨骼肌脂肪利用和ABCA1表达的上调,提示外周脂肪利用和脂质化是产生这些HDL:TG效应的潜在机制。
