Soon S. Park scite author profile

Soon S. Park

2Publications

93Citation Statements Received

121Citation Statements Given

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Ohio University

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Disruption of dopamine homeostasis underlies selective neurodegeneration mediated by α‐synuclein

Park

Schulz

Lee

2007

Eur J of Neuroscience

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A key challenge in Parkinson's disease research is to understand mechanisms underlying selective degeneration of dopaminergic neurons mediated by genetic factors such as alpha-synuclein (alpha-Syn). The present study examined whether dopamine (DA)-dependent oxidative stress underlies alpha-Syn-mediated neurodegeneration using Drosophila primary neuronal cultures. Green fluorescent protein (GFP) was used to identify live dopaminergic neurons in primary cultures prepared on a marked photoetched coverslip, which allowed us to repeatedly access preidentified dopaminergic neurons at different time points in a non-invasive manner. This live tracking of GFP-marked dopaminergic neurons revealed age-dependent neurodegeneration mediated by a mutant human alpha-Syn (A30P). Degeneration was rescued when alpha-Syn neuronal cultures were incubated with 1 mm glutathione from Day 3 after culturing. Furthermore, depletion of cytoplasmic DA by 100 microm alpha-methyl-p-tyrosine completely rescued the early stage of alpha-Syn-mediated dopaminergic cell loss, demonstrating that DA plays a major role in oxidative stress-dependent neurodegeneration mediated by alpha-Syn. In contrast, overexpression of a Drosophila tyrosine hydroxylase gene (dTH1) alone caused DA neurodegeneration by enhanced DA synthesis in the cytoplasm. Age-dependent dopaminergic cell loss was comparable in alpha-Syn vs dTH1-overexpressed neuronal cultures, indicating that increased DA levels in the cytoplasm is a critical change downstream of mutant alpha-Syn function. Finally, overexpression of a Drosophila vesicular monoamine transporter rescued alpha-Syn-mediated neurodegeneration through enhanced sequestration of cytoplasmic DA into synaptic vesicles, further indicating that a main cause of selective neurodegeneration is alpha-Syn-induced disruption of DA homeostasis. All of these results demonstrate that elevated cytoplasmic DA is a main factor underlying the early stage of alpha-Syn-mediated neurodegeneration.

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Selective loss of dopaminergic neurons and formation of Lewy body‐like aggregations in α‐synuclein transgenic fly neuronal cultures

Park

Lee

2006

Eur J of Neuroscience

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A key pathological feature of Parkinson's disease (PD) is the selective loss of dopaminergic neurons accompanied by the formation of Lewy bodies (LB). Given the complex nature of the disease, it is imperative to develop a model system suitable for molecular and cellular manipulation in order to study the mechanisms underlying the pathogenesis of PD. Here, we report that a new in vitro model of PD has been developed by using Drosophila melanogaster primary neuronal cultures expressing a human mutant alpha-synuclein (alpha-Syn; A30P). The selective loss of dopaminergic (DA) neurons was observed when alpha-Syn was pan-neuronally expressed while non-dopaminergic neurons (e.g. GABAergic) were not influenced. This degeneration was also observed even when alpha-Syn was specifically expressed in DA neurons, demonstrating alpha-Syn toxicity is DA cell-autonomous. In all experiments, cultures 5 days or older showed clear degeneration of DA neurons whereas this degeneration was not significant in 3-day-old cultures. In addition, there were intracellular aggregations in 5-day or older alpha-Syn neurons that were recognized by anti-alpha-Syn or ubiquitin antibodies, demonstrating the formation of LB-like inclusions. By contrast, no such aggregations were found in 3-day-old neurons. The results demonstrate that mutated human alpha-Syn expressed in Drosophila primary neuronal cultures causes the selective loss of DA neurons and the formation of cellular aggregations. Therefore, this is one of the first in vitro models recapitulating two important cellular features of PD and will be useful in examining mechanisms underlying selective neurodegeneration mediated by alpha-Syn.

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Soon S. Park

Disruption of dopamine homeostasis underlies selective neurodegeneration mediated by α‐synuclein

Selective loss of dopaminergic neurons and formation of Lewy body‐like aggregations in α‐synuclein transgenic fly neuronal cultures

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