Mitochonic Acid 5 (MA-5) Facilitates ATP Synthase Oligomerization and Cell Survival in Various Mitochondrial Diseases

Mitochondrial dysfunction increases oxidative stress and depletes ATP in a variety of disorders. Several antioxidant therapies and drugs affecting mitochondrial biogenesis are undergoing investigation, although not all of them have demonstrated favorable effects in the clinic. We recently reported a...

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Autores principales: Matsuhashi, Tetsuro, Sato, Takeya, Kanno, Shin-ichiro, Suzuki, Takehiro, Matsuo, Akihiro, Oba, Yuki, Kikusato, Motoi, Ogasawara, Emi, Kudo, Tai, Suzuki, Kosuke, Ohara, Osamu, Shimbo, Hiroko, Nanto, Fumika, Yamaguchi, Hiroaki, Saigusa, Daisuke, Mukaiyama, Yasuno, Watabe, Akiko, Kikuchi, Koichi, Shima, Hisato, Mishima, Eikan, Akiyama, Yasutoshi, Oikawa, Yoshitsugu, Hsin-Jung, HO, Akiyama, Yukako, Suzuki, Chitose, Uematsu, Mitsugu, Ogata, Masaki, Kumagai, Naonori, Toyomizu, Masaaki, Hozawa, Atsushi, Mano, Nariyasu, Owada, Yuji, Aiba, Setsuya, Yanagisawa, Teruyuki, Tomioka, Yoshihisa, Kure, Shigeo, Ito, Sadayoshi, Nakada, Kazuto, Hayashi, Ken-ichiro, Osaka, Hitoshi, Abe, Takaaki
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2017
Materias:
Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5478234/
https://www.ncbi.nlm.nih.gov/pubmed/28579242
http://dx.doi.org/10.1016/j.ebiom.2017.05.016
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author Matsuhashi, Tetsuro
Sato, Takeya
Kanno, Shin-ichiro
Suzuki, Takehiro
Matsuo, Akihiro
Oba, Yuki
Kikusato, Motoi
Ogasawara, Emi
Kudo, Tai
Suzuki, Kosuke
Ohara, Osamu
Shimbo, Hiroko
Nanto, Fumika
Yamaguchi, Hiroaki
Saigusa, Daisuke
Mukaiyama, Yasuno
Watabe, Akiko
Kikuchi, Koichi
Shima, Hisato
Mishima, Eikan
Akiyama, Yasutoshi
Oikawa, Yoshitsugu
Hsin-Jung, HO
Akiyama, Yukako
Suzuki, Chitose
Uematsu, Mitsugu
Ogata, Masaki
Kumagai, Naonori
Toyomizu, Masaaki
Hozawa, Atsushi
Mano, Nariyasu
Owada, Yuji
Aiba, Setsuya
Yanagisawa, Teruyuki
Tomioka, Yoshihisa
Kure, Shigeo
Ito, Sadayoshi
Nakada, Kazuto
Hayashi, Ken-ichiro
Osaka, Hitoshi
Abe, Takaaki
author_facet Matsuhashi, Tetsuro
Sato, Takeya
Kanno, Shin-ichiro
Suzuki, Takehiro
Matsuo, Akihiro
Oba, Yuki
Kikusato, Motoi
Ogasawara, Emi
Kudo, Tai
Suzuki, Kosuke
Ohara, Osamu
Shimbo, Hiroko
Nanto, Fumika
Yamaguchi, Hiroaki
Saigusa, Daisuke
Mukaiyama, Yasuno
Watabe, Akiko
Kikuchi, Koichi
Shima, Hisato
Mishima, Eikan
Akiyama, Yasutoshi
Oikawa, Yoshitsugu
Hsin-Jung, HO
Akiyama, Yukako
Suzuki, Chitose
Uematsu, Mitsugu
Ogata, Masaki
Kumagai, Naonori
Toyomizu, Masaaki
Hozawa, Atsushi
Mano, Nariyasu
Owada, Yuji
Aiba, Setsuya
Yanagisawa, Teruyuki
Tomioka, Yoshihisa
Kure, Shigeo
Ito, Sadayoshi
Nakada, Kazuto
Hayashi, Ken-ichiro
Osaka, Hitoshi
Abe, Takaaki
author_sort Matsuhashi, Tetsuro
collection PubMed
description Mitochondrial dysfunction increases oxidative stress and depletes ATP in a variety of disorders. Several antioxidant therapies and drugs affecting mitochondrial biogenesis are undergoing investigation, although not all of them have demonstrated favorable effects in the clinic. We recently reported a therapeutic mitochondrial drug mitochonic acid MA-5 (Tohoku J. Exp. Med., 2015). MA-5 increased ATP, rescued mitochondrial disease fibroblasts and prolonged the life span of the disease model “Mitomouse” (JASN, 2016). To investigate the potential of MA-5 on various mitochondrial diseases, we collected 25 cases of fibroblasts from various genetic mutations and cell protective effect of MA-5 and the ATP producing mechanism was examined. 24 out of the 25 patient fibroblasts (96%) were responded to MA-5. Under oxidative stress condition, the GDF-15 was increased and this increase was significantly abrogated by MA-5. The serum GDF-15 elevated in Mitomouse was likewise reduced by MA-5. MA-5 facilitates mitochondrial ATP production and reduces ROS independent of ETC by facilitating ATP synthase oligomerization and supercomplex formation with mitofilin/Mic60. MA-5 reduced mitochondria fragmentation, restores crista shape and dynamics. MA-5 has potential as a drug for the treatment of various mitochondrial diseases. The diagnostic use of GDF-15 will be also useful in a forthcoming MA-5 clinical trial.
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spelling pubmed-54782342017-06-26 Mitochonic Acid 5 (MA-5) Facilitates ATP Synthase Oligomerization and Cell Survival in Various Mitochondrial Diseases Matsuhashi, Tetsuro Sato, Takeya Kanno, Shin-ichiro Suzuki, Takehiro Matsuo, Akihiro Oba, Yuki Kikusato, Motoi Ogasawara, Emi Kudo, Tai Suzuki, Kosuke Ohara, Osamu Shimbo, Hiroko Nanto, Fumika Yamaguchi, Hiroaki Saigusa, Daisuke Mukaiyama, Yasuno Watabe, Akiko Kikuchi, Koichi Shima, Hisato Mishima, Eikan Akiyama, Yasutoshi Oikawa, Yoshitsugu Hsin-Jung, HO Akiyama, Yukako Suzuki, Chitose Uematsu, Mitsugu Ogata, Masaki Kumagai, Naonori Toyomizu, Masaaki Hozawa, Atsushi Mano, Nariyasu Owada, Yuji Aiba, Setsuya Yanagisawa, Teruyuki Tomioka, Yoshihisa Kure, Shigeo Ito, Sadayoshi Nakada, Kazuto Hayashi, Ken-ichiro Osaka, Hitoshi Abe, Takaaki EBioMedicine Research Paper Mitochondrial dysfunction increases oxidative stress and depletes ATP in a variety of disorders. Several antioxidant therapies and drugs affecting mitochondrial biogenesis are undergoing investigation, although not all of them have demonstrated favorable effects in the clinic. We recently reported a therapeutic mitochondrial drug mitochonic acid MA-5 (Tohoku J. Exp. Med., 2015). MA-5 increased ATP, rescued mitochondrial disease fibroblasts and prolonged the life span of the disease model “Mitomouse” (JASN, 2016). To investigate the potential of MA-5 on various mitochondrial diseases, we collected 25 cases of fibroblasts from various genetic mutations and cell protective effect of MA-5 and the ATP producing mechanism was examined. 24 out of the 25 patient fibroblasts (96%) were responded to MA-5. Under oxidative stress condition, the GDF-15 was increased and this increase was significantly abrogated by MA-5. The serum GDF-15 elevated in Mitomouse was likewise reduced by MA-5. MA-5 facilitates mitochondrial ATP production and reduces ROS independent of ETC by facilitating ATP synthase oligomerization and supercomplex formation with mitofilin/Mic60. MA-5 reduced mitochondria fragmentation, restores crista shape and dynamics. MA-5 has potential as a drug for the treatment of various mitochondrial diseases. The diagnostic use of GDF-15 will be also useful in a forthcoming MA-5 clinical trial. Elsevier 2017-05-13 /pmc/articles/PMC5478234/ /pubmed/28579242 http://dx.doi.org/10.1016/j.ebiom.2017.05.016 Text en © 2017 The Authors http://creativecommons.org/licenses/by-nc-nd/4.0/ This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Research Paper
Matsuhashi, Tetsuro
Sato, Takeya
Kanno, Shin-ichiro
Suzuki, Takehiro
Matsuo, Akihiro
Oba, Yuki
Kikusato, Motoi
Ogasawara, Emi
Kudo, Tai
Suzuki, Kosuke
Ohara, Osamu
Shimbo, Hiroko
Nanto, Fumika
Yamaguchi, Hiroaki
Saigusa, Daisuke
Mukaiyama, Yasuno
Watabe, Akiko
Kikuchi, Koichi
Shima, Hisato
Mishima, Eikan
Akiyama, Yasutoshi
Oikawa, Yoshitsugu
Hsin-Jung, HO
Akiyama, Yukako
Suzuki, Chitose
Uematsu, Mitsugu
Ogata, Masaki
Kumagai, Naonori
Toyomizu, Masaaki
Hozawa, Atsushi
Mano, Nariyasu
Owada, Yuji
Aiba, Setsuya
Yanagisawa, Teruyuki
Tomioka, Yoshihisa
Kure, Shigeo
Ito, Sadayoshi
Nakada, Kazuto
Hayashi, Ken-ichiro
Osaka, Hitoshi
Abe, Takaaki
Mitochonic Acid 5 (MA-5) Facilitates ATP Synthase Oligomerization and Cell Survival in Various Mitochondrial Diseases
title Mitochonic Acid 5 (MA-5) Facilitates ATP Synthase Oligomerization and Cell Survival in Various Mitochondrial Diseases
title_full Mitochonic Acid 5 (MA-5) Facilitates ATP Synthase Oligomerization and Cell Survival in Various Mitochondrial Diseases
title_fullStr Mitochonic Acid 5 (MA-5) Facilitates ATP Synthase Oligomerization and Cell Survival in Various Mitochondrial Diseases
title_full_unstemmed Mitochonic Acid 5 (MA-5) Facilitates ATP Synthase Oligomerization and Cell Survival in Various Mitochondrial Diseases
title_short Mitochonic Acid 5 (MA-5) Facilitates ATP Synthase Oligomerization and Cell Survival in Various Mitochondrial Diseases
title_sort mitochonic acid 5 (ma-5) facilitates atp synthase oligomerization and cell survival in various mitochondrial diseases
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5478234/
https://www.ncbi.nlm.nih.gov/pubmed/28579242
http://dx.doi.org/10.1016/j.ebiom.2017.05.016
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