足细胞中NeuroD的表达及其在细胞核和细胞质位点与Nephrin的相互关系。
NeuroD Expression in Podocytes and Interrelationships with Nephrin at Both Nuclear and Cytoplasmic Sites.
作者信息
Armelloni Silvia, Ikehata Masami, Mattinzoli Deborah, Li Min, Alfieri Carlo Maria, Rastaldi Mariapia, Messa Piergiorgio
机构信息
Renal Research Laboratory, Fondazione IRCCS Cà Granda Ospedale Maggiore Policlinico, Milan, Italy.
Dpt of Nephrology, Urology and Renal Transplant, Fondazione IRCCS Cà Granda Ospedale Maggiore Policlinico, Milan, Italy.
出版信息
Cell Physiol Biochem. 2018;46(3):873-889. doi: 10.1159/000488818. Epub 2018 Apr 13.
UNLABELLED
Background/Aims The research of genes implicated in kidney glomerular function, eliciting cell fate program, is always at the forefront in nephrological studies. Several neurological molecules have been recently the object of study not only for their involvement in the central nervous system differentiation but also for their importance in the functionality of other organs and for mature phenotype, as in kidney. NeuroD, in CNS, is related to two functional roles, the early survival and the differentiation. The aim of our study was to ascertain the presence of NeuroD transcription factor in glomeruli and to understand which targets and mechanisms NeuroD controls.
METHODS
We used immunofluorescence (IF) studies on both human and mice renal tissues and on cultured podocytes to describe NeuroD distribution; then we investigated NeuroD binding to the nephrin promoter region in cultured podocytes by chromatin-immuno-precipitation (ChIP) assay. The overexpression of NeuroD in podocytes was used to establish first its role in nephrin synthesis, evaluated by real-time quantitative (RTq) PCR and western-blot (WB) and successively to determine the recovery of cell morphology after adriamycin injury, measuring foot processes length.
RESULTS
We identified NeuroD transcription factor in glomeruli, in the same cells positive for WT1 and synaptopodin, namely podocytes; subsequently we observed a differentiation dependent NeuroD distribution in cultured podocytes, and a consistent link of NeuroD with the Nephrin promoter leading to the regulation of Nephrin translation and transcription. Our data also describes NeuroD expression in cytoplasm as phosphoprotein linked to nephrin and actinin4. Preliminary experiments seem to indicate NeuroD involved in dynamics of cell shape regulation after adriamycin injury.
CONCLUSION
we propose that NeuroD possess in podocytes a dual ability acting in the nucleus as a transcription factor and in cytoplasm stabilizing cell shape.
未标记
背景/目的 对参与肾小球功能、引发细胞命运程序的基因的研究一直处于肾脏病学研究的前沿。最近,几种神经学分子不仅因其参与中枢神经系统分化,还因其在其他器官功能和成熟表型(如在肾脏中)的重要性而成为研究对象。在中枢神经系统中,NeuroD与两个功能作用相关,即早期存活和分化。我们研究的目的是确定NeuroD转录因子在肾小球中的存在,并了解NeuroD控制哪些靶点和机制。
方法
我们对人和小鼠的肾组织以及培养的足细胞进行免疫荧光(IF)研究,以描述NeuroD的分布;然后通过染色质免疫沉淀(ChIP)分析研究NeuroD与培养的足细胞中nephrin启动子区域的结合。在足细胞中过表达NeuroD,首先通过实时定量(RTq)PCR和蛋白质免疫印迹(WB)评估其在nephrin合成中的作用,随后通过测量足突长度来确定阿霉素损伤后细胞形态的恢复情况。
结果
我们在肾小球中鉴定出NeuroD转录因子,其在与WT1和突触素阳性的相同细胞中,即足细胞中;随后我们观察到培养的足细胞中NeuroD的分布依赖于分化,并且NeuroD与Nephrin启动子存在一致的联系,导致Nephrin翻译和转录的调节。我们的数据还描述了NeuroD在细胞质中作为与nephrin和肌动蛋白4相关的磷蛋白的表达。初步实验似乎表明NeuroD参与了阿霉素损伤后细胞形状调节的动态过程。
结论
我们提出NeuroD在足细胞中具有双重作用,在细胞核中作为转录因子起作用,在细胞质中稳定细胞形状。
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