Mieap, a p53-Inducible Protein, Controls Mitochondrial Quality by Repairing or Eliminating Unhealthy Mitochondria

Maintenance of healthy mitochondria prevents aging, cancer, and a variety of degenerative diseases that are due to the result of defective mitochondrial quality control (MQC). Recently, we discovered a novel mechanism for MQC, in which Mieap induces intramitochondrial lysosome-like organella that pl...

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Autores principales: Kitamura, Noriaki, Nakamura, Yasuyuki, Miyamoto, Yuji, Miyamoto, Takafumi, Kabu, Koki, Yoshida, Masaki, Futamura, Manabu, Ichinose, Shizuko, Arakawa, Hirofumi
Formato: Texto
Lenguaje:English
Publicado: Public Library of Science 2011
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3022033/
https://www.ncbi.nlm.nih.gov/pubmed/21264228
http://dx.doi.org/10.1371/journal.pone.0016060
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author Kitamura, Noriaki
Nakamura, Yasuyuki
Miyamoto, Yuji
Miyamoto, Takafumi
Kabu, Koki
Yoshida, Masaki
Futamura, Manabu
Ichinose, Shizuko
Arakawa, Hirofumi
author_facet Kitamura, Noriaki
Nakamura, Yasuyuki
Miyamoto, Yuji
Miyamoto, Takafumi
Kabu, Koki
Yoshida, Masaki
Futamura, Manabu
Ichinose, Shizuko
Arakawa, Hirofumi
author_sort Kitamura, Noriaki
collection PubMed
description Maintenance of healthy mitochondria prevents aging, cancer, and a variety of degenerative diseases that are due to the result of defective mitochondrial quality control (MQC). Recently, we discovered a novel mechanism for MQC, in which Mieap induces intramitochondrial lysosome-like organella that plays a critical role in the elimination of oxidized mitochondrial proteins (designated MALM for Mieap-induced accumulation of lysosome-like organelles within mitochondria). However, a large part of the mechanisms for MQC remains unknown. Here, we report additional mechanisms for Mieap-regulated MQC. Reactive oxygen species (ROS) scavengers completely inhibited MALM. A mitochondrial outer membrane protein NIX interacted with Mieap in a ROS-dependent manner via the BH3 domain of NIX and the coiled-coil domain of Mieap. Deficiency of NIX also completely impaired MALM. When MALM was inhibited, Mieap induced vacuole-like structures (designated as MIV for Mieap-induced vacuole), which engulfed and degraded the unhealthy mitochondria by accumulating lysosomes. The inactivation of p53 severely impaired both MALM and MIV generation, leading to accumulation of unhealthy mitochondria. These results suggest that (1) mitochondrial ROS and NIX are essential factors for MALM, (2) MIV is a novel mechanism for lysosomal degradation of mitochondria, and (3) the p53-Mieap pathway plays a pivotal role in MQC by repairing or eliminating unhealthy mitochondria via MALM or MIV generation, respectively.
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spelling pubmed-30220332011-01-24 Mieap, a p53-Inducible Protein, Controls Mitochondrial Quality by Repairing or Eliminating Unhealthy Mitochondria Kitamura, Noriaki Nakamura, Yasuyuki Miyamoto, Yuji Miyamoto, Takafumi Kabu, Koki Yoshida, Masaki Futamura, Manabu Ichinose, Shizuko Arakawa, Hirofumi PLoS One Research Article Maintenance of healthy mitochondria prevents aging, cancer, and a variety of degenerative diseases that are due to the result of defective mitochondrial quality control (MQC). Recently, we discovered a novel mechanism for MQC, in which Mieap induces intramitochondrial lysosome-like organella that plays a critical role in the elimination of oxidized mitochondrial proteins (designated MALM for Mieap-induced accumulation of lysosome-like organelles within mitochondria). However, a large part of the mechanisms for MQC remains unknown. Here, we report additional mechanisms for Mieap-regulated MQC. Reactive oxygen species (ROS) scavengers completely inhibited MALM. A mitochondrial outer membrane protein NIX interacted with Mieap in a ROS-dependent manner via the BH3 domain of NIX and the coiled-coil domain of Mieap. Deficiency of NIX also completely impaired MALM. When MALM was inhibited, Mieap induced vacuole-like structures (designated as MIV for Mieap-induced vacuole), which engulfed and degraded the unhealthy mitochondria by accumulating lysosomes. The inactivation of p53 severely impaired both MALM and MIV generation, leading to accumulation of unhealthy mitochondria. These results suggest that (1) mitochondrial ROS and NIX are essential factors for MALM, (2) MIV is a novel mechanism for lysosomal degradation of mitochondria, and (3) the p53-Mieap pathway plays a pivotal role in MQC by repairing or eliminating unhealthy mitochondria via MALM or MIV generation, respectively. Public Library of Science 2011-01-17 /pmc/articles/PMC3022033/ /pubmed/21264228 http://dx.doi.org/10.1371/journal.pone.0016060 Text en Kitamura et al. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Kitamura, Noriaki
Nakamura, Yasuyuki
Miyamoto, Yuji
Miyamoto, Takafumi
Kabu, Koki
Yoshida, Masaki
Futamura, Manabu
Ichinose, Shizuko
Arakawa, Hirofumi
Mieap, a p53-Inducible Protein, Controls Mitochondrial Quality by Repairing or Eliminating Unhealthy Mitochondria
title Mieap, a p53-Inducible Protein, Controls Mitochondrial Quality by Repairing or Eliminating Unhealthy Mitochondria
title_full Mieap, a p53-Inducible Protein, Controls Mitochondrial Quality by Repairing or Eliminating Unhealthy Mitochondria
title_fullStr Mieap, a p53-Inducible Protein, Controls Mitochondrial Quality by Repairing or Eliminating Unhealthy Mitochondria
title_full_unstemmed Mieap, a p53-Inducible Protein, Controls Mitochondrial Quality by Repairing or Eliminating Unhealthy Mitochondria
title_short Mieap, a p53-Inducible Protein, Controls Mitochondrial Quality by Repairing or Eliminating Unhealthy Mitochondria
title_sort mieap, a p53-inducible protein, controls mitochondrial quality by repairing or eliminating unhealthy mitochondria
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3022033/
https://www.ncbi.nlm.nih.gov/pubmed/21264228
http://dx.doi.org/10.1371/journal.pone.0016060
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