Mitochondrial energetics in the kidney

线粒体分裂 线粒体生物发生 线粒体 安普克 医学 细胞生物学 平衡 线粒体融合 线粒体DNA 内科学 生物 蛋白激酶A 激酶 生物化学 基因
作者
Pallavi Bhargava,Rick G. Schnellmann
出处
期刊:Nature Reviews Nephrology [Nature Portfolio]
卷期号:13 (10): 629-646 被引量:1309
标识
DOI:10.1038/nrneph.2017.107
摘要

Mitochondria provide the kidney with energy to remove waste from the blood and regulate fluid and electrolyte balance. This Review discusses how mitochondrial homeostasis is maintained, the changes in mitochondrial energetics that occur in acute kidney injury and diabetic nephropathy, and how targeting mitochondrial energetics might aid the treatment of renal disease. The kidney requires a large number of mitochondria to remove waste from the blood and regulate fluid and electrolyte balance. Mitochondria provide the energy to drive these important functions and can adapt to different metabolic conditions through a number of signalling pathways (for example, mechanistic target of rapamycin (mTOR) and AMP-activated protein kinase (AMPK) pathways) that activate the transcriptional co-activator peroxisome proliferator-activated receptor-γ co-activator 1α (PGC1α), and by balancing mitochondrial dynamics and energetics to maintain mitochondrial homeostasis. Mitochondrial dysfunction leads to a decrease in ATP production, alterations in cellular functions and structure, and the loss of renal function. Persistent mitochondrial dysfunction has a role in the early stages and progression of renal diseases, such as acute kidney injury (AKI) and diabetic nephropathy, as it disrupts mitochondrial homeostasis and thus normal kidney function. Improving mitochondrial homeostasis and function has the potential to restore renal function, and administering compounds that stimulate mitochondrial biogenesis can restore mitochondrial and renal function in mouse models of AKI and diabetes mellitus. Furthermore, inhibiting the fission protein dynamin 1-like protein (DRP1) might ameliorate ischaemic renal injury by blocking mitochondrial fission.
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