微小RNA-29b减轻组蛋白去乙酰化酶-4介导的糖尿病肾病足细胞功能障碍和肾纤维化。
miR-29b attenuates histone deacetylase-4 mediated podocyte dysfunction and renal fibrosis in diabetic nephropathy.
作者信息
Gondaliya Piyush, P Dasare Aishwarya, Jash Kavya, Tekade Rakesh Kumar, Srivastava Akshay, Kalia Kiran
机构信息
Department of Biotechnology, National Institute of Pharmaceutical Education and Research- Ahmedabad, opposite Air force station, Palaj, Gandhinagar, Gujarat 382355 India.
Department of Pharmaceutics, National Institute of Pharmaceutical Education and Research- Ahmedabad, opposite Air force station, Palaj, Gandhinagar, Gujarat 382355 India.
出版信息
J Diabetes Metab Disord. 2019 Dec 13;19(1):13-27. doi: 10.1007/s40200-019-00469-0. eCollection 2020 Jun.
PURPOSE
As epigenetic modifications like chromatin histone modifications have been suggested to play a role in the pathophysiology of Diabetic Nephropathy (DN) and are also found to be regulated by microRNAs. Our main purpose was to explore the role of microRNA in histone modulations associated with DN. There is downregulation of miR-29b due to advanced glycation end products in diabetes. Histone Deacetylase-4 (HDAC4) is amongst the histone modulators which promotes podocytes' impairment and upregulates transforming growth factor-1 (TGF-β1) leading to renal fibrosis. Moreover, macrophage infiltration causes podocytes' apoptosis and IL-6 mediated inflammation. As miR-29b is downregulated in diabetes and HDAC4, TGF-β1 and IL-6 could be the possible therapeutic targets in DN, our study was focussed on unveiling the role of miR-29b in modulation of HDAC4 and hence, in podocyte dysfunction and renal fibrosis in DN.
METHODS
In silico analysis and luciferase assay were done to study the interaction between miR-29b and HDAC4. In-vitro DN model was developed in podocytes and miR-29b mimics were transfected Also, podocytes were co-cultured with macrophage and miR-29b mimics were transfected. At the end, in-vivo DN model was generated in C57BL/6 J male mice and the effect of miR-29b mimics was reconfirmed.
RESULTS
It was found that miR-29b targets the 3' untranslated region of HDAC4. In both in-vitro and in-vivo DN model, downregulation of miR-29b and subsequent increase in HDAC4 expression was observed. The miR-29b mimics suppressed podocytes' inflammation mediated through macrophages and attenuated HDAC4 expression, glomerular damage and renal fibrosis.
CONCLUSION
This study concludes that miR-29b regulates the expression of HDAC4 which plays a role in controlling renal fibrosis and podocytes' impairment in DN.
目的
由于染色质组蛋白修饰等表观遗传修饰被认为在糖尿病肾病(DN)的病理生理学中起作用,并且还发现其受微小RNA调控。我们的主要目的是探讨微小RNA在与DN相关的组蛋白调节中的作用。糖尿病中晚期糖基化终产物导致miR-29b表达下调。组蛋白去乙酰化酶4(HDAC4)是促进足细胞损伤并上调转化生长因子-1(TGF-β1)从而导致肾纤维化的组蛋白调节剂之一。此外,巨噬细胞浸润会导致足细胞凋亡和IL-6介导的炎症。由于糖尿病中miR-29b表达下调,且HDAC4、TGF-β1和IL-6可能是DN的潜在治疗靶点,我们的研究重点是揭示miR-29b在调节HDAC4中的作用,进而在DN的足细胞功能障碍和肾纤维化中的作用。
方法
进行计算机分析和荧光素酶测定以研究miR-29b与HDAC4之间的相互作用。在足细胞中建立体外DN模型并转染miR-29b模拟物。此外,将足细胞与巨噬细胞共培养并转染miR-29b模拟物。最后,在C57BL/6 J雄性小鼠中建立体内DN模型,并再次证实miR-29b模拟物的作用。
结果
发现miR-29b靶向HDAC4的3'非翻译区。在体外和体内DN模型中,均观察到miR-29b下调以及随后HDAC4表达增加。miR-29b模拟物抑制了巨噬细胞介导的足细胞炎症,并减弱了HDAC4表达、肾小球损伤和肾纤维化。
结论
本研究得出结论,miR-29b调节HDAC4的表达,HDAC4在控制DN中的肾纤维化和足细胞损伤中起作用。
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