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Aging and disease
May 02, 2024;16 (2): 917-945.

Disulfidptosis, A Novel Cell Death Pathway: Molecular Landscape and Therapeutic Implications.

Qiuyang Gu, Yumei An, Mingyuan Xu, Xinqi Huang, Xueshi Chen, Xianzhe Li, Haiyan Shan, Mingyang Zhang
Author Information
  1. Qiuyang Gu: Institute of Forensic Sciences, Suzhou Medical College, Soochow University, Suzhou, China.
  2. Yumei An: Institute of Forensic Sciences, Suzhou Medical College, Soochow University, Suzhou, China.
  3. Mingyuan Xu: Institute of Forensic Sciences, Suzhou Medical College, Soochow University, Suzhou, China.
  4. Xinqi Huang: Institute of Forensic Sciences, Suzhou Medical College, Soochow University, Suzhou, China.
  5. Xueshi Chen: Institute of Forensic Sciences, Suzhou Medical College, Soochow University, Suzhou, China.
  6. Xianzhe Li: Institute of Forensic Sciences, Suzhou Medical College, Soochow University, Suzhou, China.
  7. Haiyan Shan: Department of Obstetrics and Gynecology, The Affiliated Suzhou Hospital of Nanjing Medical University, Suzhou, China.
  8. Mingyang Zhang: Institute of Forensic Sciences, Suzhou Medical College, Soochow University, Suzhou, China.
PMID: 38739940 DOI: 10.14336/AD.2024.0083

Abstract

Programmed cell death is pivotal for several physiological processes, including immune defense. Further, it has been implicated in the pathogenesis of developmental disorders and the onset of numerous diseases. Multiple modes of programmed cell death, including apoptosis, pyroptosis, necroptosis, and ferroptosis, have been identified, each with their own unique characteristics and biological implications. In February 2023, Liu Xiaoguang and his team discovered "disulfidptosis," a novel pathway of programmed cell death. Their findings demonstrated that disulfidptosis is triggered in glucose-starved cells exhibiting high expression of a protein called SLC7A11. Furthermore, disulfidptosis is marked by a drastic imbalance in the NADPH/NADP+ ratio and the abnormal accumulation of disulfides like cystine. These changes ultimately lead to the destabilization of the F-actin network, causing cell death. Given that high SLC7A11 expression is a key feature of certain cancers, these findings indicate that disulfidptosis could serve as the basis of innovative anti-cancer therapies. Hence, this review delves into the discovery of disulfidptosis, its underlying molecular mechanisms and metabolic regulation, and its prospective applications in disease treatment.

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MeSH Term

Humans
Neoplasms
Amino Acid Transport System y+
Cell Death
Apoptosis
Animals
Signal Transduction
NADP
Actins

Chemicals

Amino Acid Transport System y+
SLC7A11 protein, human
NADP
Actins
Journal Article Review

Word Cloud

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