Flavopiridol inhibits adipogenesis and improves metabolic homeostasis by ameliorating adipose tissue inflammation in a diet-induced obesity model

IF 6.9 2区 医学 Q1 MEDICINE, RESEARCH & EXPERIMENTAL Biomedicine & Pharmacotherapy Pub Date : 2024-08-28 DOI:10.1016/j.biopha.2024.117330
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Abstract

Repositioning of FDA approved/clinical phase drugs has recently opened a new opportunity for rapid approval of drugs, as it shortens the overall process of drug discovery and development. In previous studies, we predicted the possibility of better activity profiles of flavopiridol, the FDA approved orphan drug with better fit value 2.79 using a common feature pharmacophore model for anti-adipogenic compounds (CFMPA). The present study aimed to investigate the effect of flavopiridol on adipocyte differentiation and to determine the underlying mechanism. Flavopiridol inhibited adipocyte differentiation in different cell models like 3T3-L1, C3H10T1/2, and hMSCs at 150 nM. Flavopiridol was around 135 times more potent than its parent molecule rohitukine. The effect was mediated through down-regulation of key transcription factors of adipogenesis i.e. Peroxisome proliferator-activated receptor gamma (PPARγ), CCAAT/enhancer-binding protein alpha (C/EBPα), and their downstream targets, including adipocyte protein −2 (aP2) and fatty acid synthase (FAS). Further, results revealed that flavopiridol arrested the cell cycle in G1/S phase during mitotic clonal expansion by suppressing cell cycle regulatory proteins i.e. Cyclins and CDKs. Flavopiridol inhibited insulin-stimulated signalling in the early phase of adipocyte differentiation by downregulation of AKT/mTOR pathway. In addition, flavopiridol improved mitochondrial function in terms of increased oxygen consumption rate (OCR) in mature adipocytes. In the mouse model of diet-induced obesity, flavopiridol attenuated obesity-associated adipose tissue inflammation and improved serum lipid profile, glucose tolerance as well as insulin sensitivity. In conclusion, the FDA approved drug flavopiridol could be placed as a potential drug candidate for the treatment of cancer and obesity comorbid patients.

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在饮食诱导肥胖模型中,黄酮哌啶醇通过改善脂肪组织炎症,抑制脂肪生成并改善代谢稳态
最近,美国食品与药物管理局(FDA)批准/临床阶段药物的重新定位为药物的快速批准带来了新的机遇,因为它缩短了药物发现和开发的整个过程。在之前的研究中,我们利用抗脂肪生成化合物的共同特征药代模型(CFMPA)预测了黄哌利多(FDA 批准的孤儿药,拟合值为 2.79)可能具有更好的活性特征。本研究旨在探讨黄酮哌啶醇对脂肪细胞分化的影响,并确定其潜在机制。在 150 nM 的浓度下,黄酮哌啶醇可抑制 3T3-L1、C3H10T1/2 和 hMSCs 等不同细胞模型中脂肪细胞的分化。黄酮哌啶醇的效力是其母体分子罗红霉素的 135 倍左右。其作用是通过下调脂肪生成的关键转录因子(即过氧化物酶体增殖激活受体γ(PPARγ)、CCAAT/增强子结合蛋白α(C/EBPα))及其下游靶标(包括脂肪细胞蛋白-2(aP2)和脂肪酸合成酶(FAS))来实现的。此外,研究结果表明,在有丝分裂克隆扩增过程中,黄连素通过抑制细胞周期调控蛋白(即细胞周期蛋白和CDKs),将细胞周期阻滞在G1/S期。黄酮哌啶醇通过下调 AKT/mTOR 通路,抑制了脂肪细胞分化早期的胰岛素刺激信号。此外,黄酮哌啶醇还能改善线粒体功能,提高成熟脂肪细胞的耗氧率(OCR)。在饮食诱发肥胖的小鼠模型中,黄酮哌啶醇减轻了肥胖相关的脂肪组织炎症,改善了血清脂质状况、葡萄糖耐量和胰岛素敏感性。总之,美国食品及药物管理局批准的黄蚜酮可作为治疗癌症和肥胖症合并症患者的潜在候选药物。
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来源期刊
CiteScore
11.90
自引率
2.70%
发文量
1621
审稿时长
48 days
期刊介绍: Biomedicine & Pharmacotherapy stands as a multidisciplinary journal, presenting a spectrum of original research reports, reviews, and communications in the realms of clinical and basic medicine, as well as pharmacology. The journal spans various fields, including Cancer, Nutriceutics, Neurodegenerative, Cardiac, and Infectious Diseases.
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