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Excess hydrogen sulfide and polysulfides production underlies a schizophrenia pathophysiology
Mice with the C3H background show greater behavioral propensity for schizophrenia, including lower prepulse inhibition (PPI), than C57BL/6 (B6) mice. To characterize as‐yet‐unknown pathophysiologies of schizophrenia, we undertook proteomics analysis of the brain in these strains, and detected elevat...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
John Wiley and Sons Inc.
2019
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| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6895609/ https://www.ncbi.nlm.nih.gov/pubmed/31657521 http://dx.doi.org/10.15252/emmm.201910695 |
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| author | Ide, Masayuki Ohnishi, Tetsuo Toyoshima, Manabu Balan, Shabeesh Maekawa, Motoko Shimamoto‐Mitsuyama, Chie Iwayama, Yoshimi Ohba, Hisako Watanabe, Akiko Ishii, Takashi Shibuya, Norihiro Kimura, Yuka Hisano, Yasuko Murata, Yui Hara, Tomonori Morikawa, Momo Hashimoto, Kenji Nozaki, Yayoi Toyota, Tomoko Wada, Yuina Tanaka, Yosuke Kato, Tadafumi Nishi, Akinori Fujisawa, Shigeyoshi Okano, Hideyuki Itokawa, Masanari Hirokawa, Nobutaka Kunii, Yasuto Kakita, Akiyoshi Yabe, Hirooki Iwamoto, Kazuya Meno, Kohji Katagiri, Takuya Dean, Brian Uchida, Kazuhiko Kimura, Hideo Yoshikawa, Takeo |
| author_facet | Ide, Masayuki Ohnishi, Tetsuo Toyoshima, Manabu Balan, Shabeesh Maekawa, Motoko Shimamoto‐Mitsuyama, Chie Iwayama, Yoshimi Ohba, Hisako Watanabe, Akiko Ishii, Takashi Shibuya, Norihiro Kimura, Yuka Hisano, Yasuko Murata, Yui Hara, Tomonori Morikawa, Momo Hashimoto, Kenji Nozaki, Yayoi Toyota, Tomoko Wada, Yuina Tanaka, Yosuke Kato, Tadafumi Nishi, Akinori Fujisawa, Shigeyoshi Okano, Hideyuki Itokawa, Masanari Hirokawa, Nobutaka Kunii, Yasuto Kakita, Akiyoshi Yabe, Hirooki Iwamoto, Kazuya Meno, Kohji Katagiri, Takuya Dean, Brian Uchida, Kazuhiko Kimura, Hideo Yoshikawa, Takeo |
| author_sort | Ide, Masayuki |
| collection | PubMed |
| description | Mice with the C3H background show greater behavioral propensity for schizophrenia, including lower prepulse inhibition (PPI), than C57BL/6 (B6) mice. To characterize as‐yet‐unknown pathophysiologies of schizophrenia, we undertook proteomics analysis of the brain in these strains, and detected elevated levels of Mpst, a hydrogen sulfide (H(2)S)/polysulfide‐producing enzyme, and greater sulfide deposition in C3H than B6 mice. Mpst‐deficient mice exhibited improved PPI with reduced storage sulfide levels, while Mpst‐transgenic (Tg) mice showed deteriorated PPI, suggesting that “sulfide stress” may be linked to PPI impairment. Analysis of human samples demonstrated that the H(2)S/polysulfides production system is upregulated in schizophrenia. Mechanistically, the Mpst‐Tg brain revealed dampened energy metabolism, while maternal immune activation model mice showed upregulation of genes for H(2)S/polysulfides production along with typical antioxidative genes, partly via epigenetic modifications. These results suggest that inflammatory/oxidative insults in early brain development result in upregulated H(2)S/polysulfides production as an antioxidative response, which in turn cause deficits in bioenergetic processes. Collectively, this study presents a novel aspect of the neurodevelopmental theory for schizophrenia, unraveling a role of excess H(2)S/polysulfides production. |
| format | Online Article Text |
| id | pubmed-6895609 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2019 |
| publisher | John Wiley and Sons Inc. |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-68956092019-12-16 Excess hydrogen sulfide and polysulfides production underlies a schizophrenia pathophysiology Ide, Masayuki Ohnishi, Tetsuo Toyoshima, Manabu Balan, Shabeesh Maekawa, Motoko Shimamoto‐Mitsuyama, Chie Iwayama, Yoshimi Ohba, Hisako Watanabe, Akiko Ishii, Takashi Shibuya, Norihiro Kimura, Yuka Hisano, Yasuko Murata, Yui Hara, Tomonori Morikawa, Momo Hashimoto, Kenji Nozaki, Yayoi Toyota, Tomoko Wada, Yuina Tanaka, Yosuke Kato, Tadafumi Nishi, Akinori Fujisawa, Shigeyoshi Okano, Hideyuki Itokawa, Masanari Hirokawa, Nobutaka Kunii, Yasuto Kakita, Akiyoshi Yabe, Hirooki Iwamoto, Kazuya Meno, Kohji Katagiri, Takuya Dean, Brian Uchida, Kazuhiko Kimura, Hideo Yoshikawa, Takeo EMBO Mol Med Articles Mice with the C3H background show greater behavioral propensity for schizophrenia, including lower prepulse inhibition (PPI), than C57BL/6 (B6) mice. To characterize as‐yet‐unknown pathophysiologies of schizophrenia, we undertook proteomics analysis of the brain in these strains, and detected elevated levels of Mpst, a hydrogen sulfide (H(2)S)/polysulfide‐producing enzyme, and greater sulfide deposition in C3H than B6 mice. Mpst‐deficient mice exhibited improved PPI with reduced storage sulfide levels, while Mpst‐transgenic (Tg) mice showed deteriorated PPI, suggesting that “sulfide stress” may be linked to PPI impairment. Analysis of human samples demonstrated that the H(2)S/polysulfides production system is upregulated in schizophrenia. Mechanistically, the Mpst‐Tg brain revealed dampened energy metabolism, while maternal immune activation model mice showed upregulation of genes for H(2)S/polysulfides production along with typical antioxidative genes, partly via epigenetic modifications. These results suggest that inflammatory/oxidative insults in early brain development result in upregulated H(2)S/polysulfides production as an antioxidative response, which in turn cause deficits in bioenergetic processes. Collectively, this study presents a novel aspect of the neurodevelopmental theory for schizophrenia, unraveling a role of excess H(2)S/polysulfides production. John Wiley and Sons Inc. 2019-10-28 2019-12 /pmc/articles/PMC6895609/ /pubmed/31657521 http://dx.doi.org/10.15252/emmm.201910695 Text en © 2019 The Authors. Published under the terms of the CC BY 4.0 license This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. |
| spellingShingle | Articles Ide, Masayuki Ohnishi, Tetsuo Toyoshima, Manabu Balan, Shabeesh Maekawa, Motoko Shimamoto‐Mitsuyama, Chie Iwayama, Yoshimi Ohba, Hisako Watanabe, Akiko Ishii, Takashi Shibuya, Norihiro Kimura, Yuka Hisano, Yasuko Murata, Yui Hara, Tomonori Morikawa, Momo Hashimoto, Kenji Nozaki, Yayoi Toyota, Tomoko Wada, Yuina Tanaka, Yosuke Kato, Tadafumi Nishi, Akinori Fujisawa, Shigeyoshi Okano, Hideyuki Itokawa, Masanari Hirokawa, Nobutaka Kunii, Yasuto Kakita, Akiyoshi Yabe, Hirooki Iwamoto, Kazuya Meno, Kohji Katagiri, Takuya Dean, Brian Uchida, Kazuhiko Kimura, Hideo Yoshikawa, Takeo Excess hydrogen sulfide and polysulfides production underlies a schizophrenia pathophysiology |
| title | Excess hydrogen sulfide and polysulfides production underlies a schizophrenia pathophysiology |
| title_full | Excess hydrogen sulfide and polysulfides production underlies a schizophrenia pathophysiology |
| title_fullStr | Excess hydrogen sulfide and polysulfides production underlies a schizophrenia pathophysiology |
| title_full_unstemmed | Excess hydrogen sulfide and polysulfides production underlies a schizophrenia pathophysiology |
| title_short | Excess hydrogen sulfide and polysulfides production underlies a schizophrenia pathophysiology |
| title_sort | excess hydrogen sulfide and polysulfides production underlies a schizophrenia pathophysiology |
| topic | Articles |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6895609/ https://www.ncbi.nlm.nih.gov/pubmed/31657521 http://dx.doi.org/10.15252/emmm.201910695 |
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