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  • Inhibition of α-Synuclein Accumulation Improves Neuronal Apoptosis and Delayed Postoperative Cognitive Recovery in Aged Mice.

Inhibition of α-Synuclein Accumulation Improves Neuronal Apoptosis and Delayed Postoperative Cognitive Recovery in Aged Mice.

Oxidative medicine and cellular longevity (2021-07-02)
Yue Li, Yi Yuan, Yitong Li, Dengyang Han, Taotao Liu, Ning Yang, Xinning Mi, Jingshu Hong, Kaixi Liu, Yanan Song, Jindan He, Yang Zhou, Yongzheng Han, Chengmei Shi, Shun Yu, Peng Zou, Xiangyang Guo, Zhengqian Li
ABSTRACT

Delayed neurocognitive recovery (dNCR) is a major complication after anesthesia and surgery in older adults. Alpha-synuclein (α-syn; encoded by the gene, SNCA) has recently been shown to play an important role in hippocampus-dependent working memory. Aggregated forms of α-syn are associated with multiple neurotoxic mechanisms, such as mitochondrial dysfunction and cell death. In this study, we found that blocking α-syn improved both mitochondrial function and mitochondria-dependent neuronal apoptosis in a mouse model of dNCR. Various forms of α-syn (including total α-syn, phosphorylated-Ser129-α-syn, and oligomers) were upregulated in hippocampal tissue and extracted mitochondria after surgical challenge. Clenbuterol is a novel transcription modulator of Scna. Clenbuterol significantly attenuated surgery-induced progressive accumulation of various toxic α-syn forms in the hippocampus, as well as mitochondrial damage and memory deficits in aged mice following surgery. We also observed excessive mitochondrial α-syn accumulation and increased mitochondria-mediated apoptosis in vitro using nerve growth factor-differentiated PC12 cells and primary hippocampal neurons exposed to lipopolysaccharide. To further validate the neuroprotective effect of α-syn inhibition, we used a lentiviral Snca-shRNA (Lv-shSnca) to knockdown Snca. Of note, Lv-shSnca transfection significantly inhibited neuronal apoptosis mediated by the mitochondrial apoptosis pathway in neurons exposed to lipopolysaccharide. This α-syn inhibition improved the disruption to mitochondrial morphology and function, as well as decreased levels of apoptosis. Our results suggest that targeting pathological α-syn may achieve neuroprotection through regulation of mitochondrial homeostasis and suppression of apoptosis in the aged hippocampus, further strengthening the therapeutic potential of targeting α-syn for dNCR.

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Sigma-Aldrich
Anti-alpha-Synuclein Antibody, oligomer-specific Syn33, from rabbit