Litcius/Paper detail

Depletion of CUL4B in macrophages ameliorates diabetic kidney disease via miR-194-5p/ITGA9 axis

Shiqi Jin, Yu Song, Zhou Li, Wei Jiang, Liping Qin, Yufeng Wang, Ruiqi Yu, Yuting Liu, Yujie Diao, Fan Zhang, Kaixuan Liu, Peishan Li, Huili Hu, Baichun Jiang, Wei Tang, Fan Yi, Yaoqin Gong, Guangyi Liu, Gongping Sun

2023Cell Reports21 citationsDOIOpen Access PDF

Abstract

Diabetic kidney disease (DKD) is the most prevalent chronic kidney disease. Macrophage infiltration in the kidney is critical for the progression of DKD. However, the underlying mechanism is far from clear. Cullin 4B (CUL4B) is the scaffold protein in CUL4B-RING E3 ligase complexes. Previous studies have shown that depletion of CUL4B in macrophages aggravates lipopolysaccharide-induced peritonitis and septic shock. In this study, using two mouse models for DKD, we demonstrate that myeloid deficiency of CUL4B alleviates diabetes-induced renal injury and fibrosis. In vivo and in vitro analyses reveal that loss of CUL4B suppresses migration, adhesion, and renal infiltration of macrophages. Mechanistically, we show that high glucose upregulates CUL4B in macrophages. CUL4B represses expression of miR-194-5p, which leads to elevated integrin α9 (ITGA9), promoting migration and adhesion. Our study suggests the CUL4B/miR-194-5p/ITGA9 axis as an important regulator for macrophage infiltration in diabetic kidneys.

Topics & Concepts

Kidney diseaseKidneyFibrosisCancer researchInfiltration (HVAC)TSC1Diabetes mellitusUbiquitin ligaseInflammationIn vivoMacrophageMedicineChemistryCell biologyImmunologyInternal medicineEndocrinologyBiologyIn vitroUbiquitinSignal transductionBiochemistryThermodynamicsGenePhysicsPI3K/AKT/mTOR pathwayBiotechnologyImmune cells in cancerPhagocytosis and Immune RegulationEpigenetics and DNA Methylation