PPARα、PPARγ及其双激动剂与动脉粥样硬化

过氧化物酶体增殖物激活受体（peroxisome proliferator-activated receptors,PPARs）是核受体超家族中的一类配体依赖的核转录因子,其中两种重要的亚型PPARα和PPARγ在脂肪细胞分化、能量代谢和炎症过程中都发挥重要作用。研究显示,PPARα和PPARγ的配体激动剂不仅可以改善包括糖尿病、高血压和肥胖等在内的胰岛素抵抗综合征,而且还可以通过作用于血管壁从而减缓动脉粥样硬化的进程。本文将就PPARα和PPARγ及其双激动剂与动脉粥样硬化发病机制和治疗的相关研究进展进行概括介绍。     

激活PPARα缓解PPARγ诱导的小鼠脂肪肝

目的研究PPARα激活后对PPARγ诱导小鼠脂肪肝的影响。方法以4~5周龄C57BL/6J小鼠为模型,实验分为4组:正常饮食组;0.125%Wy-14,643处理组;PPARγ腺病毒(Ad/PPARγ)注射组;先给予0.125%Wy-14,643饮食再注射Ad/PPARγ组。实验结束时,收集肝脏组织称重、照相,HE、油红O染色观察PPARα激活后对PPARγ诱导肝脏脂肪变性的影响。结果野生型小鼠给予PPARα激动剂Wy-14,643处理8 d,与对照组相比,处理组小鼠肝脏明显增大,呈现过氧化物酶体增殖反应;野生型小鼠给予Ad/PPARγ5 d,小鼠肝脏显著增大,出现脂肪肝;给予PPARα激动剂Wy-14,643 3 d,再给予Ad/PPARγ5 d,小鼠肝脏增大更加显著,HE染色、油红O染色结果显示小鼠肝脏脂肪变性明显减轻。结论激活PPARα能够缓解PPARγ诱导的小鼠肝脏脂肪变,为脂肪肝的预防和治疗提供了新的研究思路和靶点。     

PPARα and PPARγ regulate the nucleoside transporter hENT1

Human equilibrative nucleoside transporter 1 (hENT1) is an important determinant for nucleoside analog based chemotherapy success. Preliminary data suggest hENT1 regulation by PPARs. Using A2780 cells, we investigated the role of PPARs on hENT1 expression and activity. PPARα and PPARγ agonists, Wy14,643 and RGZ, increased hENT1 expression, but only PPARα activation or overexpression resulted in higher hENT1 transport activity. On the other hand, promoter analysis showed two putative PPRE in hENT1 promoter and luciferase-coupled promoter constructs were generated and analyzed. Our results suggest that PPARα-but not PPARγ-mediated expression regulation of hENT1 is PPRE-dependent. In conclusion, PPARα and PPARγ activation modulate hENT1 expression.     

畜禽PPARα基因研究进展

过氧化物酶体增殖物激活受体(Peroxisome proliferator-activated receptors,PPARs)是核激素受体家族中的配体激活受体,控制许多细胞内的代谢过程,PPARα作为过氧化物酶体增殖物激活受体家族重要成员之一,是调控机体脂质代谢的重要枢纽,在调控畜禽机体肝脏脂质代谢方面有重要作用。PPARα基因由四个结构域组成,多在机体肝脏和脂肪组织中表达,可作为细胞核受体被外源和内源的特异性配体结合并激活,进而结合靶基因发挥对肝脏脂质代谢的调控作用。就PPARα基因的结构特点及表达模式、PPARα基因对肝脏脂代谢的调控机制,以及现阶段PPARα在畜禽方面的研究进展进行阐述,旨在引起人们对PPARα基因调控脂质代谢的关注,并为畜禽肝脏脂质代谢过程的机理研究和相关疾病的治疗提供一些理论支持。     

PPAR基因与脂肪代谢调控

过氧化物酶体增值剂激活受体(PPARs)基因属于类固醇/甲状腺/维甲酸受体超家族,有3个亚型,即：PPAR-α、PPAR-β和PPAR-γ。PPARs具有多种生物学功能,如增强机体对胰岛素敏感性,调节体内糖平衡等,尤其在脂肪分化、生成等多方面起到重要作用,是目前的研究热点,文章从PPARs基因的结构,表达及功能等方面讨论了其与脂肪代谢调控的关系。     

Synthesis of benzopyran derivatives as PPARα and/or PPARγ activators

We describe the synthesis of 26 compounds, small polycerasoidol analogs, that are Lipinski’s rule-of-five compliant. In order to confirm key structural features to activate PPARα and/or PPARγ, we have adopted structural modifications in the following parts: (i) the benzopyran core (hydrophobic nucleus) by benzopyran-4-one, dihydrobenzopyran or benzopyran-4-ol; (ii) the side chain at 2-position by shortening to C3, C4 and C5-carbons versus C-9-carbons of polycerasoidol; (iii) the carboxylic group (polar head) by oxygenated groups (hydroxyl, acetoxy, epoxide, ester, aldehyde) or non-oxygenated motifs (allyl and alkyl). Benzopyran-4-ones 6, 12, 13 and 17 as well as dihydrobenzopyrans 22, 24 and 25 were able to activate hPPARα, whereas benzopyran-4-one (7) with C5-carbons in the side chain exhibited hPPARγ agonism. According to our previous docking studies, SAR confirm that the hydrophobic nucleus (benzopyran-4-one or dihydrobenzopyran) is essential to activate PPARα and/or PPARγ, and the flexible linker (side alkyl chain) should containg at least C5-carbon atoms to activate PPARγ. By contrast, the polar head (“carboxylic group”) tolerated several oxygenated groups but also non-oxygenated motifs. Taking into account these key structural features, small polycerasoidol analogs might provide potential active molecules useful in the treatment of dyslipidemia and/or type 2 diabetes.     

Identification of a PPARδ agonist with partial agonistic activity on PPARγ

The discovery and optimization of a series of potent PPARδ full agonists with partial agonistic activity against PPARγ is described.     

PPAR与一些慢性疾病

慢性疾病如糖尿病、动脉粥样硬化和癌症等已成为危害人类健康的罪魁祸首。现有证据表明 ,一类称为过氧化物酶体增长因子活化受体 (ｐｅｒｏｘｉｓｏｍｅｐｒｏｌｉｆｅｒａｔｏｒ ａｃｔｉｖａｔｅｄｒｅ ｃｅｐｔｏｒｓ,ＰＰＡＲ)的细胞核受体 ,极有可能参与了这些疾病的形成。同时人们还发现ＰＰＡＲ的活性能被降血糖药物噻唑二酮 (ｔｈｉａｚｏ ｌｉｄｉｎｅｄｉｏｎｅｓ,ＴＺＤ)和降血脂药物苯氧乙酸酯(ｆｉｂｒａｔｅｓ)所调控。因此ＰＰＡＲ的研究将极有可能为这些疾病的治疗另辟蹊径。1 .ＰＰＡＲ概述ＰＰＡＲ最初克隆是作为基因转录…     

PPARγ与代谢性疾病

过氧化物酶体增殖物激活受体γ(PPARγ)是一种可由多种脂肪酸及其衍生物激活的核转录因子,在机体糖脂代谢中起重要调节作用,一些可作为其配体的合成化合物现已应用于Ⅱ型糖尿病的临床治疗。该简单介绍PPARγ作用的分子机制以及PPARγ与一些代谢性疾病的关系。     

Adipocyte NCoR knockout decreases PPARγ phosphorylation and enhances PPARγ activity and insulin sensitivity

Insulin resistance, tissue inflammation, and adipose tissue dysfunction are features of obesity and Type 2 diabetes. We generated adipocyte-specific Nuclear Receptor Corepressor (NCoR) knockout (AKO) mice to investigate the function of NCoR in adipocyte biology, glucose and insulin homeostasis. Despite increased obesity, glucose tolerance was improved in AKO mice, and clamp studies demonstrated enhanced insulin sensitivity in liver, muscle, and fat. Adipose tissue macrophage infiltration and inflammation were also decreased. PPARγ response genes were upregulated in adipose tissue from AKO mice and CDK5-mediated PPARγ ser-273 phosphorylation was reduced, creating a constitutively active PPARγ state. This identifies NCoR as an adaptor protein that enhances the ability of CDK5 to associate with and phosphorylate PPARγ. The dominant function of adipocyte NCoR is to transrepress PPARγ and promote PPARγ ser-273 phosphorylation, such that NCoR deletion leads to adipogenesis, reduced inflammation, and enhanced systemic insulin sensitivity, phenocopying the TZD-treated state.     

PPARα与阿尔茨海默病的研究进展

阿尔茨海默病(Alzheimer's disease,AD)是一种进行性、破坏认知与记忆功能的持续性神经退行性疾病.它的主要病理特征是以β淀粉样蛋白(β-amyloid protein,Aβ)沉积和Tau蛋白过度磷酸化形成神经原纤维缠结(neurofibrillary tangle,NFT)为主,是一种日益严重的全球健康性问题.过氧化物酶体增殖物激活受体(peroxisome proliferators-activated receptor,PPAR)是在中枢神经系统(CNS)中表达,调节能量代谢、神经传递、氧化还原稳态、线粒体功能等生理过程的一种核受体. PPARα作为其中一个亚型,在AD控制突触可塑性和调节神经元认知功能中有重要作用,说明PPARα是治疗AD的一个很有前途的靶点.这篇综述探讨了Aβ、氧化应激、神经炎症、脂质代谢在AD中的意义,以及PPARα的潜在价值及其在AD中的作用,揭示了未来PPARα作为AD治疗靶点的可能性.     

Modulation of PPAR subtype selectivity. Part 2: Transforming PPARα/γ dual agonist into α selective PPAR agonist through bioisosteric modification

A novel series of oxime containing benzyl-1,3-dioxane-r-2-carboxylic acid derivatives (6a-k) were designed as selective PPARα agonists, through bioisosteric modification in the lipophilic tail region of PPARα/γ dual agonist. Some of the test compounds (6a, 6b, 6c and 6f) showed high selectivity towards PPARα over PPARγ in vitro. Further, highly potent and selective PPARα agonist 6c exhibited significant antihyperglycemic and antihyperlipidemic activity in vivo, along with its improved pharmacokinetic profile. Favorable in-silico interaction of 6c with PPARα binding pocket correlate its in vitro selectivity profile toward PPARα over PPARγ. Together, these results confirm discovery of novel series of oxime based selective PPARα agonists for the safe and effective treatment of various metabolic disorders.     

PPARγ的翻译后修饰

过氧化物酶体增殖物激活受体γ(peroxisome proliferator-activated receptor gamma,PPARγ)是一种配体依赖性核转录因子,它具有调控细胞分化、脂肪代谢、糖代谢及炎症等多种生物学功能.机体对PPARγ转录活性的调控方式是多种多样的,包括蛋白表达水平、配体以及转录辅助因子等不同层次上的调控.近年来众多证据揭示,蛋白翻译后修饰(posttranslational modifications,PTMs)是机体调节PPARγ转录活性的另一重要方式.目前,已报道的PPARγ翻译后修饰包括磷酸化、泛素化、SUMO化和亚硝基化等,它们能够改变蛋白构象、调控蛋白相互作用、改变受体与配体间的亲和力,从而调控PPARγ下游基因的转录.重要的是,PPARγ的翻译后修饰与一些疾病如糖尿病、动脉粥样硬化、肿瘤等密切相关.本文将主要围绕PPARγ的各种翻译后修饰及其在疾病的发生、发展和治疗中的意义作一综述.     

PPARγ变异与复杂疾病

过氧化物酶体增殖激活受体γ（PPARγ）是核激素受体超家族成员。PPARγ基因主要表达于脂肪组织,促进脂肪细胞分化,调控多种脂肪细胞分泌的蛋白质因子基因的表达。它也是糖尿病治疗药物噻唑烷二酮类化合物(TZDs)作用的靶分子。PPARγ的常见多态性影响胰腺β细胞功能,导致胰岛素分泌及外周组织对胰岛素敏感性的改变。它与2型糖尿病、肥胖、心血管疾病、癌症的发病风险相关联,阐明PPARγ的作用机制对复杂疾病的诊断、预防和治疗具有重要意义。     

PPARγ天然激动剂的研究进展

过氧化物酶体增殖剂活化受体γ(PPARγ)是一个由配体激活的核转录因子,属于核激素受体(nuclear hormone receptor)超家族.它与脂肪形成、免疫应答以及脂质和糖类代谢等生理过程极其相关.尽管PPARγ的合成激动剂已广泛应用于胰岛素致敏剂,但是PPARγ的天然激动剂的鉴定一直不是很清楚,目前,PPARγ的天然激动剂主要有氧化的脂肪酸和硝基脂肪酸,包括9-羟十八碳二烯醇(9-HODE),13-羟十八碳二烯醇(13-HODE),5-脱氧前列腺素J2,油酸和亚油酸的硝基衍生物(分别为OA-NO2和LNO2)等.本文综述了近年的PPARγ的天然激动剂的研究进展.