Organelle communication maintains mitochondrial and endosomal homeostasis during podocyte lipotoxicity

脂毒性 细胞器 足细胞 细胞生物学 内体 线粒体 平衡 化学 生物 内分泌学 糖尿病 细胞内 胰岛素抵抗 蛋白尿
作者
Sho Hasegawa,Masaomi Nangaku,Yuto Takenaka,Chigusa Kitayama,Qi Li,Madina Saipidin,Yu Ah Hong,Jin Shang,Yusuke Hirabayashi,Naoto Kubota,Takashi Kadowaki,Reiko Inagi
出处
期刊:JCI insight [American Society for Clinical Investigation]
卷期号:9 (18) 被引量:4
标识
DOI:10.1172/jci.insight.182534
摘要

Organelle stress exacerbates podocyte injury, contributing to perturbed lipid metabolism. Simultaneous organelle stresses can occur in the kidney in the diseased state; therefore, a thorough analysis of organelle communication is crucial for understanding the progression of kidney diseases. Although organelles closely interact with one another at membrane contact sites, limited studies have explored their involvement in kidney homeostasis. The endoplasmic reticulum (ER) protein, PDZ domain–containing 8 (PDZD8), is implicated in multiple-organelle-tethering processes and cellular lipid homeostasis. In this study, we aimed to elucidate the role of organelle communication in podocyte injury using podocyte-specific Pdzd8-knockout mice. Our findings demonstrated that Pdzd8 deletion exacerbated podocyte injury in an accelerated obesity–related kidney disease model. Proteomic analysis of isolated glomeruli revealed that Pdzd8 deletion exacerbated mitochondrial and endosomal dysfunction during podocyte lipotoxicity. Additionally, electron microscopy revealed the accumulation of abnormal, fatty endosomes in Pdzd8-deficient podocytes during obesity-related kidney diseases. Lipidomic analysis indicated that glucosylceramide accumulated in Pdzd8-deficient podocytes, owing to accelerated production and decelerated degradation. Thus, the organelle-tethering factor, PDZD8, plays a crucial role in maintaining mitochondrial and endosomal homeostasis during podocyte lipotoxicity. Collectively, our findings highlight the importance of organelle communication at the 3-way junction among the ER, mitochondria, and endosomes in preserving podocyte homeostasis.
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