PPARγ up-regulates TGFβ/smad signal pathway repressor c-Ski

TGFβ/smad pathway is recognized as an important signal pathway to promote the pathogenesis of atherosclerosis (AS). Peroxisome proliferator-activated receptor γ (PPARγ) activation is considered to be important in modulating AS. Herein, we investigated the regulation of PPARγ on c-Ski, the repressor of TGFβ/smad pathway, in rat AS model and cultured vascular smooth muscle cells (VSMCs). c-Ski mRNA and protein expression were detected by real-time PCR and Western blot, respectively, in vivo and in vitro with treatment of PPARγ agonist rosiglitazone and antagonist GW9662. The proliferation and collagen secretion of VSMCs after c-Ski transfection were investigated. The underlying mechanism was further investigated by online program NUBIScan and luciferase reporter gene analysis. Results showed that both mRNA and protein expressions of c-Ski in the AS lesions was down-regulated in vivo, while in cultured VSMCs, c-Ski transfection significantly suppressed the proliferation and collagen secretion of rat VSMCs. Rosiglitazone significantly up-regulated mRNA and protein levels of c-Ski in VSMCs, which could be blocked by GW9662. Online NUBIScan analysis suggested possible PPARγ binding sites in the promoter region of c-Ski. In addition, luciferase activity of c-Ski reporter gene was also increased obviously in the presence of rosiglitazone. These results indicate that c-Ski is one of the newly found target genes of PPARγ and thus involved in the anti-AS effect of PPARγ.     

A natural propenoic acid derivative activates peroxisome proliferator-activated receptor-β/δ (PPARβ/δ)

AimsPrevious studies showed that natural prenyloxyphenylpropanoid derivatives have potent biological properties in vivo. Given the structural similarities between these compounds and known peroxisome proliferator-activated receptor (PPAR) agonists, the present study examined the hypothesis that propenoic acid derivatives activate PPARs.Main methodsChimeric reporter assays were performed to identify propenoic acid derivates that could activate PPARs. Quantitative polymerase chain reaction (qPCR) analysis of wild-type and Pparβ/δ-null mouse primary keratinocytes was performed to determine if a test compound could specifically activate PPARβ/δ. A human epithelial carcinoma cell line and primary mouse keratinocytes were used to determine the effect of the compound on cell proliferation.Key findingsThree of the propenoic acid derivatives activated PPARs, with the greatest efficacy being observed with prenyloxycinnamic acid derivatives 4′-geranyloxyferulic acid (compound 1) for PPARβ/δ. Compound 1 increased expression of a known PPARβ/δ target gene through a mechanism that requires PPARβ/δ. Inhibition of cell proliferation by compound 1 was found in a human epithelial carcinoma cell line.SignificanceResults from these studies demonstrate that compound 1 can activate PPARβ/δ and inhibit cell proliferation of a human skin cancer cell line, suggesting that the biological effects of 4′-geranyloxyferulic acid may be mediated in part by activating this PPAR isoform.     

Signal transduction pathways involved in PPARβ/δ-induced neuronal differentiation

Neuroblastomas are pediatric tumors originating from neuroblasts in the developing peripheral nervous system. The neurotrophin brain-derived neurotrophic factor (BDNF) is a key regulator of survival and differentiation of specific neuronal populations in the central and peripheral nervous system. Patients whose neuroblastoma tumors express high levels of BDNF and TrkB have an unfavorable prognosis. We have previously reported on the neuronal differentiating activity of peroxisome proliferator-activated receptors (PPAR)β/δ natural and synthetic ligands by modulating BDNF/TrkB pathway, suggesting their potential use as new therapeutic strategies for neuroblastoma. The validation of new therapeutic agents implies the understanding of their mechanisms of action. Herein, we report the effects of activated-PPARβ/δ on signal transduction pathways known to be involved in neuronal differentiation, such as ERK1,2 and BDNF pathways. The results obtained, using also PPARβ/δ silencing, indicating a neuronal differentiating effect PPARβ/δ-dependent through BDNF-P75-ERK1,2 pathways, further support a role for PPARβ/δ in neuronal differentiation and pointing towards PPARβ/δ as a modulator of pathways crucial for neuronal differentiation. These findings open new perspectives in the formulation of potential therapeutic approaches to be used as adjuvant treatment with the standard therapies.     

PPARβ在中枢神经系统中的作用研究进展

PPARβ是配体活化的核转录因子,属核受体超家族成员。PPARβ在哺乳动物体内表达十分丰富,日前对PPARβ的研究比较少,但现有的研究表明PPARβ可能参与了机体多种生理和病理过程。本文将对PPARβ的生物学特征及其在中枢神经系统中的意义作一综述。     

Activation of peroxisome proliferator-activated receptor-β/-δ (PPARβ/δ) prevents endothelial dysfunction in type 1 diabetic rats

Endothelial dysfunction plays a key role in the pathogenesis of diabetic vascular disease. Herein, we have analyzed if the peroxisome proliferator-activated receptor-β/-δ (PPARβ/δ) agonist GW0742 exerts protective effects on endothelial function in type 1 diabetic rats. The rats were divided into 4 groups: control, control-treated (GW0742, 5mgkg(-1)day(-1) for 5 weeks), diabetic (streptozotocin injection), and diabetic-treated. GW0742 administration in diabetic rats did not alter plasma glucose, systolic blood pressure, or heart rate, but reduced plasma triglyceride levels. The vasodilatation induced by acetylcholine was decreased in aortas from diabetic rats. GW0742 restored endothelial function, increasing eNOS phosphorylation. Superoxide production, NADPH oxidase activity, and mRNA expression of prepro endothelin-1, p22(phox), p47(phox), and NOX-1 were significantly higher in diabetic aortas, and GW0742 treatment prevented these changes. In addition, GW0742 prevented the endothelial dysfunction and the upregulation of prepro endothelin-1and p47(phox) after the in vitro incubation of aortic rings with high glucose and these effects were prevented by the PPARβ/δ antagonist GSK0660. PPARβ/δ activation restores endothelial function in type 1 diabetic rats. This effect seems to be related to an increase in nitric oxide bioavailability as a result of reduced NADPH oxidase-driven superoxide production and downregulation of prepro endothelin-1.     

Reverse crosstalk of TGFβ and PPARβ/δ signaling identified by transcriptional profiling

Previous work has provided strong evidence for a role of peroxisome proliferator-activated receptor β/δ (PPARβ/δ) and transforming growth factor-β (TGFβ) in inflammation and tumor stroma function, raising the possibility that both signaling pathways are interconnected. We have addressed this hypothesis by microarray analyses of human diploid fibroblasts induced to myofibroblastic differentiation, which revealed a substantial, mostly reverse crosstalk of both pathways and identified distinct classes of genes. A major class encompasses classical PPAR target genes, including ANGPTL4, CPT1A, ADRP and PDK4. These genes are repressed by TGFβ, which is counteracted by PPARβ/δ activation. This is mediated, at least in part, by the TGFβ-induced recruitment of the corepressor SMRT to PPAR response elements, and its release by PPARβ/δ ligands, indicating that TGFβ and PPARβ/δ signals are integrated by chromatin-associated complexes. A second class represents TGFβ-induced genes that are downregulated by PPARβ/δ agonists, exemplified by CD274 and IL6, which is consistent with the anti-inflammatory properties of PPARβ/δ ligands. Finally, cooperative regulation by both ligands was observed for a minor group of genes, including several regulators of cell proliferation. These observations indicate that PPARβ/δ is able to influence the expression of distinct sets of both TGFβ-repressed and TGFβ-activated genes in both directions.     

PPARγ对TGFβ/smad信号通路阻遏子c-Ski的上调作用

本文旨在研究过氧化物酶体增殖物激活受体γ(peroxisome proliferator-activated receptorγ,PPARγ)对动脉粥样硬化(atherosclerosis,AS)形成中关键信号通路TGFβ/smad途径的阻遏子c-Ski的调控作用,探讨PPARγ抗AS的分子机制。通过高脂饮食制作大鼠AS模型,检测AS斑块中c-Ski的mRNA及蛋白的表达变化;在体外培养的大鼠血管平滑肌细胞(vascular smooth musclecell,VSMC)中转染重组c-Ski质粒,并观察其对VSMC增殖及胶原分泌影响;采用real-timePCR和Western blot检测PPARγ激动剂和拮抗剂对c-Ski表达的调节,进而利用在线程序NUBIScan及荧光素酶报告基因检测明确PPARγ对c-Ski的调控机理。结果显示:AS大鼠动脉斑块中c-Skim RNA和蛋白表达显著降低;重组c-Ski转染显著抑制大鼠VSMC增殖及胶原分泌;PPARγ激动剂罗格列酮可明显上调大鼠VSMC中c-Ski表达,且这种上调可以被PPARγ拮抗剂GW9662所阻断。生物信息学分析表明c-Ski启动子区有可能的PP...     

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.     

shPLCε通过PPARβ/twist1抑制前列腺癌细胞的迁移和EMT过程

该研究旨在探讨磷脂酰肌醇特异性磷脂酶C epsilon(phospholipase C epsilon,PLCε)对前列腺癌细胞上皮–间充质转换(epithelial-mesenchymal transition,EMT)及迁移能力的影响。用LV-sh PLCε感染前列腺癌细胞,q-PCR和Western blot检测PLCε、过氧化物酶体增殖物激活受体β(peroxisome proliferator activated receptorβ,PPARβ)、twist1和EMT相关分子m RNA和蛋白质水平,划痕实验和Transwell实验检测细胞迁移能力。结果表明,感染LV-sh PLCε可显著下调PLCε、PPARβ和twist1的m RNA和蛋白质水平,同时降低前列腺癌细胞株PC3和DU145的迁移能力以及EMT过程。而在sh PLCε组细胞中加入PPARβ的激动剂能一定程度逆转PPARβ和twist1的下调,促进细胞的迁移能力和EMT过程;而PPARβ的抑制剂产生相反作用。该研究说明,PLCε可通过PPARβ/twist1影响前列腺癌细胞的迁移能力和EMT过程。