Transferring Xenogenic Mitochondria Provides Neural Protection against Ischemic Stress in Ischemic Rat Brains

Transferring exogenous mitochondria has therapeutic effects on damaged heart, liver, and lung tissues. Whether this protective effect requires the symbiosis of exogenous mitochondria in host cells remains unknown. Here xenogenic mitochondria derived from a hamster cell line were applied to ischemic...

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Published in	Cell transplantation Vol. 25; no. 5; pp. 913 - 927
Main Authors	Huang, Po-Jui, Kuo, Chi-Chung, Lee, Hsiu-Chin, Shen, Ching-I, Cheng, Fu-Chou, Wu, Shih-Fang, Chang, Jui-Chih, Pan, Hung-Chuan, Lin, Shinn-Zong, Liu, Chin-San, Su, Hong-Lin
Format	Journal Article
Language	English
Published	Los Angeles, CA SAGE Publications 01.05.2016 Sage Publications Ltd SAGE Publishing
Subjects	Adenosine triphosphatase Animals Astrocytes Brain - pathology Brain Ischemia - pathology Brain Ischemia - therapy Cell death Cell Death - physiology Cell Line Cell Survival Central nervous system Cricetinae Electron transport Electron Transport - physiology Heart Infarction, Middle Cerebral Artery - pathology Infarction, Middle Cerebral Artery - therapy Injections, Intra-Arterial Internalization Ischemia Male Mitochondria Mitochondria - transplantation Motor task performance Neurons - cytology Neuroprotection - physiology Neuroprotective Agents - therapeutic use Rats Rats, Sprague-Dawley Symbiosis Transplantation, Heterologous Neural protection Mitochondria Ischemic stroke Mitochondria transfer
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ISSN	0963-6897 1555-3892
DOI	10.3727/096368915X689785

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Abstract	Transferring exogenous mitochondria has therapeutic effects on damaged heart, liver, and lung tissues. Whether this protective effect requires the symbiosis of exogenous mitochondria in host cells remains unknown. Here xenogenic mitochondria derived from a hamster cell line were applied to ischemic rat brains and rat primary cortical neurons. Isolated hamster mitochondria, either through local intracerebral or systemic intra-arterial injection, significantly restored the motor performance of brain-ischemic rats. The brain infarct area and neuronal cell death were both attenuated by the exogenous mitochondria. Although internalized mitochondria could be observed in neurons and astrocytes, the low efficacy of mitochondrial internalization could not completely account for the high rate of rescue of the treated neural cells. We further illustrated that disrupting electron transport or ATPase synthase in mitochondria significantly attenuated the protective effect, suggesting that intact respiratory activity is essential for the mitochondrial potency on neural protection. These results emphasize that nonsymbiotic extracellular mitochondria can provide an effective cell defense against acute injurious ischemic stress in the central nervous system.
AbstractList	Transferring exogenous mitochondria has therapeutic effects on damaged heart, liver, and lung tissues. Whether this protective effect requires the symbiosis of exogenous mitochondria in host cells remains unknown. Here xenogenic mitochondria derived from a hamster cell line were applied to ischemic rat brains and rat primary cortical neurons. Isolated hamster mitochondria, either through local intracerebral or systemic intra-arterial injection, significantly restored the motor performance of brain-ischemic rats. The brain infarct area and neuronal cell death were both attenuated by the exogenous mitochondria. Although internalized mitochondria could be observed in neurons and astrocytes, the low efficacy of mitochondrial internalization could not completely account for the high rate of rescue of the treated neural cells. We further illustrated that disrupting electron transport or ATPase synthase in mitochondria significantly attenuated the protective effect, suggesting that intact respiratory activity is essential for the mitochondrial potency on neural protection. These results emphasize that nonsymbiotic extracellular mitochondria can provide an effective cell defense against acute injurious ischemic stress in the central nervous system.
Author	Cheng, Fu-Chou Su, Hong-Lin Lee, Hsiu-Chin Pan, Hung-Chuan Liu, Chin-San Chang, Jui-Chih Lin, Shinn-Zong Huang, Po-Jui Kuo, Chi-Chung Shen, Ching-I Wu, Shih-Fang
Author_xml	– sequence: 1 givenname: Po-Jui surname: Huang fullname: Huang, Po-Jui – sequence: 2 givenname: Chi-Chung surname: Kuo fullname: Kuo, Chi-Chung – sequence: 3 givenname: Hsiu-Chin surname: Lee fullname: Lee, Hsiu-Chin – sequence: 4 givenname: Ching-I surname: Shen fullname: Shen, Ching-I – sequence: 5 givenname: Fu-Chou surname: Cheng fullname: Cheng, Fu-Chou – sequence: 6 givenname: Shih-Fang surname: Wu fullname: Wu, Shih-Fang – sequence: 7 givenname: Jui-Chih surname: Chang fullname: Chang, Jui-Chih – sequence: 8 givenname: Hung-Chuan surname: Pan fullname: Pan, Hung-Chuan – sequence: 9 givenname: Shinn-Zong surname: Lin fullname: Lin, Shinn-Zong email: suhonglin@nchu.edu.tw – sequence: 10 givenname: Chin-San surname: Liu fullname: Liu, Chin-San email: liu48111@gmail.com – sequence: 11 givenname: Hong-Lin surname: Su fullname: Su, Hong-Lin email: suhonglin@nchu.edu.tw
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/26555763$$D View this record in MEDLINE/PubMed
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SubjectTerms	Adenosine triphosphatase Animals Astrocytes Brain - pathology Brain Ischemia - pathology Brain Ischemia - therapy Cell death Cell Death - physiology Cell Line Cell Survival Central nervous system Cricetinae Electron transport Electron Transport - physiology Heart Infarction, Middle Cerebral Artery - pathology Infarction, Middle Cerebral Artery - therapy Injections, Intra-Arterial Internalization Ischemia Male Mitochondria Mitochondria - transplantation Motor task performance Neurons - cytology Neuroprotection - physiology Neuroprotective Agents - therapeutic use Rats Rats, Sprague-Dawley Symbiosis Transplantation, Heterologous
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Title	Transferring Xenogenic Mitochondria Provides Neural Protection against Ischemic Stress in Ischemic Rat Brains
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