Litcius/Paper detail

Mitochondrial metabolic reprogramming in diabetic kidney disease

Xiaoting Fan, Meilin Yang, Yating Lang, Shangwei Lu, Zhijuan Kong, Ying Gao, Ning Shen, Dongdong Zhang, Zhimei Lv

2024Cell Death and Disease99 citationsDOIOpen Access PDF

Abstract

Diabetic kidney disease, known as a glomerular disease, arises from a metabolic disorder impairing renal cell function. Mitochondria, crucial organelles, play a key role in substance metabolism via oxidative phosphorylation to generate ATP. Cells undergo metabolic reprogramming as a compensatory mechanism to fulfill energy needs for survival and growth, attracting scholarly attention in recent years. Studies indicate that mitochondrial metabolic reprogramming significantly influences the pathophysiological progression of DKD. Alterations in kidney metabolism lead to abnormal expression of signaling molecules and activation of pathways, inducing oxidative stress-related cellular damage, inflammatory responses, apoptosis, and autophagy irregularities, culminating in renal fibrosis and insufficiency. This review delves into the impact of mitochondrial metabolic reprogramming on DKD pathogenesis, emphasizing the regulation of metabolic regulators and downstream signaling pathways. Therapeutic interventions targeting renal metabolic reprogramming can potentially delay DKD progression. The findings underscore the importance of focusing on metabolic reprogramming to develop safer and more effective therapeutic approaches.

Topics & Concepts

ReprogrammingAutophagyMitochondrial biogenesisMitochondrionBiologyOxidative stressKidneyCell biologySignal transductionCancer researchApoptosisEndocrinologyCellBiochemistryDialysis and Renal Disease ManagementRenal and related cancersPancreatic function and diabetes
Mitochondrial metabolic reprogramming in diabetic kidney disease | Litcius