Transplantation of Astrocytic Mitochondria Modulates Neuronal Antioxidant Defense and Neuroplasticity and Promotes Functional Recovery after Intracerebral Hemorrhage

被引:35
作者
Tashiro, Ryosuke [1 ]
Bautista-Garrido, Jesus [1 ]
Ozaki, Dan [1 ]
Sun, Guanghua [1 ]
Obertas, Lidiya [1 ]
Mobley, Alexis S. [1 ]
Kim, Gab Seok [1 ]
Aronowski, Jaroslaw [1 ]
Jung, Joo Eun [1 ]
机构
[1] Univ Texas Hlth Sci Ctr Houston, McGovern Med Sch, Dept Neurol, Houston, TX 77030 USA
基金
美国国家卫生研究院;
关键词
Key words; antioxidant defense; ICH; mitochondria; Mn-SOD; neuroplasticity; ROS; EXACERBATES CEREBRAL INFARCTION; OXIDATIVE STRESS; STROMAL CELLS; UP-REGULATION; BRAIN-INJURY; HUMANIN; REPERFUSION; ISCHEMIA; PROTECTS; MODEL;
D O I
10.1523/JNEUROSCI.2222-21.2022
中图分类号
Q189 [神经科学];
学科分类号
071006 ;
摘要
Astrocytes release functional mitochondria (Mt) that play regulatory and prosurvival functions on entering adjacent cells. We recently demonstrated that these released Mts could enter microglia to promote their reparative/prophagocytic phenotype that assists in hematoma cleanup and neurological recovery after intracerebral hemorrhage (ICH). However, the relevance of astrocytic Mt transfer into neurons in protecting brain after ICH is unclear. Here, we found that ICH causes a robust increase in superoxide generation and elevated oxidative damage that coincides with loss of the mitochondrial enzyme manganese superoxide dismutase (Mn-SOD). The damaging effect of ICH was reversed by intravenous transplantation of astrocytic Mt, which on entering the brain (and neurons), restored Mn-SOD levels and reduced neurological deficits in male mice subjected to ICH. Using an in vitro ICH-like injury model in cultured neurons, we established that astrocytic Mt on entering neurons prevented reactive oxygen species-induced oxidative stress and neuronal death by restoring neuronal Mn-SOD levels while at the same time promoted neurite extension and upregulation of synaptogenesis-related gene expression. Furthermore, we found that Mt genome-encoded small peptide humanin, which is normally abundant in Mt, could simulate Mt-transfer effect on neuronal Mn-SOD expression, oxidative stress, and neuroplasticity under ICH-like injury. This study demonstrates that adoptive astrocytic Mt transfer enhances neuronal Mn-SOD-mediated antioxidative defense and neuroplasticity in the brain, which potentiate functional recovery following ICH.
引用
收藏
页码:7001 / 7014
页数:14
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