Ursolic Acid Alleviates Mitotic Catastrophe in Podocyte by Inhibiting Autophagic P62 Accumulation in Diabetic Nephropathy

Overview

Journal Int J Biol Sci

Specialty Biology

Date 2024 Jul 12

PMID 38993555

Authors

Hang Mei

Tienan Jing

Haojun Liu

Yue Liu

Xinwang Zhu

Jiao Wang

Li Xu

Affiliations

Soon will be listed here.

Abstract

The glomerular podocyte, a terminally differentiated cell, is crucial for the integrity of the glomerular filtration barrier. The re-entry of podocytes into the mitotic phase results in injuries or death, known as mitotic catastrophe (MC), which significantly contributes to the progression of diabetic nephropathy (DN). Furthermore, P62-mediated autophagic flux has been shown to regulate DN-induced podocyte injury. Although previous studies, including ours, have demonstrated that ursolic acid (UA) mitigates podocyte injury by enhancing autophagy under high glucose conditions, the protective functions and potential regulatory mechanisms of UA against DN have not been fully elucidated. For aiming to investigate the regulatory mechanism of podocyte injuries in DN progression, and the protective function of UA treatment against DN progression, we utilized db/db mice and high glucose (HG)-induced podocyte models in vivo and in vitro, with or without UA administration. Our findings indicate that UA treatment reduced DN progression by improving biochemical indices. P62 accumulation led to Murine Double Minute gene 2 (MDM2)-regulated MC in podocytes during DN, which was ameliorated by UA through enhanced P62-mediated autophagy. Additionally, the overexpression of NF-κB p65 or TNF-α abolished the protective effects of UA both and . Overall, our results provide strong evidence that UA could be a potential therapeutic agent for DN, regulated by inhibiting podocyte MC through the NF-κB/MDM2/Notch1 pathway by targeting autophagic-P62 accumulation.

Citing Articles

[Inhibition of miR-30d-5p promotes mitochondrial autophagy and alleviates high glucose-induced injury in podocytes].

Cai Y, Chen S, Jiang X, Wu Q, Guo B, Wang F Zhejiang Da Xue Xue Bao Yi Xue Ban. 2024; 53(6):756-764.

PMID: 39668610 PMC: 11736342. DOI: 10.3724/zdxbyxb-2024-0504.

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