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Nuclear-accumulated SQSTM1/p62-based ALIS act as microdomains sensing cellular stresses and triggering oxidative stress-induced parthanatos.

Noguchi, T ; Suzuki, M ; et al.
In: Cell death & disease, Jg. 9 (2018-12-13), Heft 12, S. 1193
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Aggresome-like induced structures (ALIS) have been described as ubiquitinated protein-containing aggresomes transiently formed in response to various stresses. In this study, we provide evidence that ALIS composed of SQSTM1/p62 act as a key determinant of oxidative stress-induced parthanatos, which is newly discovered and distinct from regular programmed cell death. Interestingly, we first found that chemical stresses induced by particular chemical drugs, such as several cephalosporin antibiotics, cause oxidative stress-mediated parthanatos, accompanied by the ALIS formation. Blocking the ALIS formation potently suppressed the parthanatos, and p62 knockout cells exhibited the attenuated ALIS formation and high resistance to parthanatos. Moreover, we also found that the redox-sensing activity of p62 is required for nuclear accumulation of the p62-based ALIS, resulting in the induction of parthanatos. Together, our results demonstrate unexpected functions of p62 and ALIS as cell death mediators sensing oxidative stress, and thus uncover a novel mechanism whereby p62 mediates parthanatos.

Titel:
Nuclear-accumulated SQSTM1/p62-based ALIS act as microdomains sensing cellular stresses and triggering oxidative stress-induced parthanatos.
Autor/in / Beteiligte Person: Noguchi, T ; Suzuki, M ; Mutoh, N ; Hirata, Y ; Tsuchida, M ; Miyagawa, S ; Hwang, GW ; Aoki, J ; Matsuzawa, A
Link:
Zeitschrift: Cell death & disease, Jg. 9 (2018-12-13), Heft 12, S. 1193
Veröffentlichung: London : Nature Pub. Group, 2018
Medientyp: academicJournal
ISSN: 2041-4889 (electronic)
DOI: 10.1038/s41419-018-1245-y
Schlagwort:
  • Apoptosis drug effects
  • Autophagy drug effects
  • CRISPR-Cas Systems
  • Cell Death drug effects
  • Cell Line, Tumor
  • Cephalosporins pharmacology
  • Gene Knockout Techniques
  • Humans
  • Macrophages drug effects
  • Sequestosome-1 Protein antagonists & inhibitors
  • Ubiquitination genetics
  • Apoptosis genetics
  • Cell Death genetics
  • Oxidative Stress genetics
  • Sequestosome-1 Protein genetics
Sonstiges:
  • Nachgewiesen in: MEDLINE
  • Sprachen: English
  • Publication Type: Journal Article; Research Support, Non-U.S. Gov't
  • Language: English
  • [Cell Death Dis] 2018 Dec 13; Vol. 9 (12), pp. 1193. <i>Date of Electronic Publication: </i>2018 Dec 13.
  • MeSH Terms: Apoptosis / *genetics ; Cell Death / *genetics ; Oxidative Stress / *genetics ; Sequestosome-1 Protein / *genetics ; Apoptosis / drug effects ; Autophagy / drug effects ; CRISPR-Cas Systems ; Cell Death / drug effects ; Cell Line, Tumor ; Cephalosporins / pharmacology ; Gene Knockout Techniques ; Humans ; Macrophages / drug effects ; Sequestosome-1 Protein / antagonists & inhibitors ; Ubiquitination / genetics
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  • Substance Nomenclature: 0 (Cephalosporins) ; 0 (SQSTM1 protein, human) ; 0 (Sequestosome-1 Protein)
  • Entry Date(s): Date Created: 20181215 Date Completed: 20191209 Latest Revision: 20200309
  • Update Code: 20240513
  • PubMed Central ID: PMC6294141

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