功能性TFEB激活是肾囊性疾病和多囊蛋白-1丢失的多种模型的特征。

IF 3.7 2区 医学 Q1 PHYSIOLOGY American Journal of Physiology-renal Physiology Pub Date : 2023-04-01 Epub Date: 2023-02-16 DOI:10.1152/ajprenal.00237.2022
Jonathan M Shillingford, James A Shayman
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引用次数: 0

摘要

多囊肾病是一种肾上皮生长和分化障碍。转录因子EB(TFEB)是溶酶体生物发生和功能的主要调节因子,研究其在该疾病中的潜在作用。在三种肾囊性疾病的小鼠模型中研究了核转位和对TFEB激活的功能反应,包括敲除毛囊素、毛囊素相互作用蛋白1和2以及多囊蛋白-1(Pkd1),以及缺乏Pkd1的小鼠胚胎成纤维细胞和Madin-Darby犬肾细胞的三维培养物。Tfeb的核移位在所有三种小鼠模型中都表现为囊性而非非囊性肾小管上皮对囊肿形成的早期和持续反应。上皮细胞表达高水平的Tfeb依赖性基因产物,包括组织蛋白酶B和糖蛋白非转移性黑色素瘤蛋白B。在缺乏Pkd1但没有野生型成纤维细胞的小鼠胚胎成纤维细胞中观察到核Tfeb易位。Pkd1敲除成纤维细胞的特征是Tfeb依赖性转录物增加、溶酶体生物发生和重新定位以及自噬增加。暴露于TFEB激动剂化合物C1后,Madin-Darby犬肾细胞囊肿的生长显著增加,并且在毛喉素和化合物C1处理后观察到核TFEB易位。在常染色体显性遗传性多囊肾病患者中,核TFEB也具有囊性上皮的特征,但不具有非囊性管状上皮的特征。TFEB的非典型激活是多种肾脏囊性疾病模型中囊性上皮细胞的特征,包括与Pkd1缺失相关的模型。核TFEB易位在这些模型中具有功能活性,可能是促进膀胱发生和生长的一般途径的一个组成部分。新的和值得注意的上皮细胞代谢变化在肾囊肿的发展中很重要。TFEB是溶酶体功能的转录调节因子,在几种肾脏囊性疾病模型和人类ADPKD组织切片中进行了探索。在所检查的每个肾囊性疾病模型中,在囊性上皮中均匀地观察到核TFEB易位。TFEB易位具有功能活性,与溶酶体生物发生和核周重新定位、TFEB相关蛋白表达增加和自噬流量激活有关。化合物C1,一种TFEB激动剂,在MDCK细胞的三维培养物中促进囊肿生长。核TFEB易位是一种未被充分重视的膀胱发生信号通路,可能代表了囊性肾病的一种新模式。
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Functional TFEB activation characterizes multiple models of renal cystic disease and loss of polycystin-1.

Polycystic kidney disease is a disorder of renal epithelial growth and differentiation. Transcription factor EB (TFEB), a master regulator of lysosome biogenesis and function, was studied for a potential role in this disorder. Nuclear translocation and functional responses to TFEB activation were studied in three murine models of renal cystic disease, including knockouts of folliculin, folliculin interacting proteins 1 and 2, and polycystin-1 (Pkd1) as well as in mouse embryonic fibroblasts lacking Pkd1 and three-dimensional cultures of Madin-Darby canine kidney cells. Nuclear translocation of Tfeb characterized cystic but not noncystic renal tubular epithelia in all three murine models as both an early and sustained response to cyst formation. Epithelia expressed elevated levels of Tfeb-dependent gene products, including cathepsin B and glycoprotein nonmetastatic melanoma protein B. Nuclear Tfeb translocation was observed in mouse embryonic fibroblasts lacking Pkd1 but not wild-type fibroblasts. Pkd1 knockout fibroblasts were characterized by increased Tfeb-dependent transcripts, lysosomal biogenesis and repositioning, and increased autophagy. The growth of Madin-Darby canine kidney cell cysts was markedly increased following exposure to the TFEB agonist compound C1, and nuclear Tfeb translocation was observed in response to both forskolin and compound C1 treatment. Nuclear TFEB also characterized cystic epithelia but not noncystic tubular epithelia in human patients with autosomal dominant polycystic kidney disease. Noncanonical activation of TFEB is characteristic of cystic epithelia in multiple models of renal cystic disease including those associated with loss of Pkd1. Nuclear TFEB translocation is functionally active in these models and may be a component of a general pathway contributing to cystogenesis and growth.NEW & NOTEWORTHY Changes in epithelial cell metabolism are important in renal cyst development. The role of TFEB, a transcriptional regulator of lysosomal function, was explored in several models of renal cystic disease and human ADPKD tissue sections. Nuclear TFEB translocation was uniformly observed in cystic epithelia in each model of renal cystic disease examined. TFEB translocation was functionally active and associated with lysosomal biogenesis and perinuclear repositioning, increased TFEB-associated protein expression, and activation of autophagic flux. Compound C1, a TFEB agonist, promoted cyst growth in 3-D cultures of MDCK cells. Nuclear TFEB translocation is an underappreciated signaling pathway for cystogenesis that may represent a new paradigm for cystic kidney disease.

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来源期刊
CiteScore
8.40
自引率
7.10%
发文量
154
审稿时长
2-4 weeks
期刊介绍: The American Journal of Physiology - Renal Physiology publishes original manuscripts on timely topics in both basic science and clinical research. Published articles address a broad range of subjects relating to the kidney and urinary tract, and may involve human or animal models, individual cell types, and isolated membrane systems. Also covered are the pathophysiological basis of renal disease processes, regulation of body fluids, and clinical research that provides mechanistic insights. Studies of renal function may be conducted using a wide range of approaches, such as biochemistry, immunology, genetics, mathematical modeling, molecular biology, as well as physiological and clinical methodologies.
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