Litcius/Paper detail

Loss of MTX2 causes mitochondrial dysfunction, podocyte injury, nephrotic proteinuria and glomerulopathy in mice and patients

Ting Li, Ying Bao, Yu Xia, Hanyan Meng, Chao Zhou, Li‐Min Huang, Xiaowen Wang, En Yin Lai, Pingping Jiang, Jianhua Mao

2024International Journal of Biological Sciences16 citationsDOIOpen Access PDF

Abstract

manifested by reductions of adhesion, migration and endocytosis, which were further restored by overexpression of MTX2. Moreover, MTX2 defects led to abnormal mitochondrial structure and dysfunction, evidenced with defects of complex I and III, increased production of reactive oxygen species (ROS), and decreased protein levels of Sam50-CHCHD3-Mitofilin axis in the mitochondrial intermembrane space bridging (MIB) complex which is responsible for maintaining mitochondrial cristae morphology. Collectively, these findings reveal that the normal expression of MTX2 in glomerulus plays an important role in the adhesion, migration, endocytosis, proliferation and other physiological functions of podocytes, which may be realized by maintaining the morphological structure and function of mitochondria. Abnormal expression of MTX2 can lead to mitochondrial dysfunction and structural abnormalities by Sam50-CHCHD3-Mitofilin axis in podocyte, which further induces podocyte injury, glomerular lesions and proteinuria.

Topics & Concepts

PodocyteGlomerulopathyNephrotic syndromeBiologymitochondrial fusionInternal medicineSlit diaphragmEndocrinologyProteinuriaMitochondrionGlomerulosclerosisKidneyCell biologyMedicineGeneticsMitochondrial DNAGeneRenal Diseases and GlomerulopathiesMitochondrial Function and PathologyGenetic and Kidney Cyst Diseases