Liver CYP4A autophagic lysosomal degradation: A major role for the autophagic receptor SQSTM1/p62 through an uncommon target interaction site

Liang He
Doyoung Kwon
Michael J. Trnka
Yi Liu
Jade Yang
Kathy H. Li
Rheem A. Totah
Eric F. Johnson
Alma L. Burlingame
Maria Almira Correia

Read the full article

Discuss this preprint

Start a discussion What are Sciety discussions?

Listed in

This article is not in any list yet, why not save it to one of your lists.

Log in to save this article

Abstract

No abstract available

Version published to 10.1016/j.molpha.2025.100061
Sep 1, 2025
Version published to 10.1101/2024.10.14.618315 on bioRxiv
Oct 14, 2024

The p62-CD63 complex mediates amphisome biogenesis for secretory autophagy under oxidative stress

This article has 11 authors:
1. Chang Hoon Ji
2. Su Bin Kim
3. Ji Su Lee
4. Su Jin Lee
5. Hye Yeon Kim
6. Minje Kang
7. Min Ju Lee
8. Ah Jung Heo
9. Dohyun Han
10. Seok-Ho Hong
11. Yong Tae Kwon
This article has no evaluationsLatest version Dec 15, 2025
SQSTM1/p62 Protein Oxidation Facilitates Nrf2 Activation and Pro-survival Autophagy under Therapeutic Oxidative Stress

This article has 10 authors:
1. Benyi Li
2. Wang Liu
3. Jiang Zhao
4. Changlin Li
5. Haixia Xu
6. Ruibao Chen
7. Xing Zeng
8. Jun Yang
9. Cuncong Zhong
10. Xiangwei Wang
This article has no evaluationsLatest version Jan 20, 2026
Identification of RIPK3 as a novel p-AMPK substrate reveals a mechanism by which AdipoAI suppresses necroptosis to attenuate periodontitis

This article has 9 authors:
1. Wei Qiu
2. Dian Ding
3. Jun Shao
4. Yuxuan Huang
5. Zehao Chen
6. Ruiming Guo
7. Huaxuan Zhao
8. Hongle Wu
9. Fuchun Fang
This article has no evaluationsLatest version Jan 14, 2026