KMID : 0892920170260020097
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Experimental Neurobiology 2017 Volume.26 No. 2 p.97 ~ p.103
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Optogenetic Rescue of Locomotor Dysfunction and Dopaminergic Degeneration Caused by Alpha-Synuclein and EKO Genes
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Qi Cheng
Varga Scott Oh Soo-Jin Lee C. Justin
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Abstract
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¥á-Synuclein (¥á-Syn) is a small presynaptic protein and its mutant forms (e.g. A53T) are known to be directly associated with Parkinson's disease (PD). Pathophysiological mechanisms underlying ¥á-Syn-mediated neurodegeneration in PD still remain to be explored. However, several studies strongly support that overexpression of mutant ¥á-Syn causes reduced release of dopamine (DA) in the brain, and contributes to motor deficits in PD. Using a favorable genetic model Drosophila larva, we examined whether reduced DA release is enough to induce key PD symptoms (i.e. locomotion deficiency and DA neurodegeneration), mimicking a PD gene ¥á-Syn. In order to reduce DA release, we expressed electrical knockout (EKO) gene in DA neurons, which is known to make neurons hypo-excitable. EKO led to a decrease in a DA neuronal marker signal (i.e., TH ? tyrosine hydroxylase) and locomotion deficits in Drosophila larva. In contrast, acute and prolonged exposure to blue light (BL, 470 nm) was sufficient to activate channelrhodopsin 2 (ChR2) and rescue PD symptoms caused by both ¥á-Syn and EKO. We believe this is for the first time to confirm that locomotion defects by a genetic PD factor such as ¥á-Syn can be rescued by increasing DA neuronal excitability with an optogenetic approach. Our findings strongly support that PD is a failure of DA synaptic transmission, which can be rescued by optogenetic activation of ChR2.
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KEYWORD
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¥á-Synuclein, EKO, optogenetics, Parkinson's disease, Dopaminergic neurons, Drosophila melanogaster
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