4.7 Article

Focused Ultrasound-Induced Blood-Brain Barrier Opening Enhanced α-Synuclein Expression in Mice for Modeling Parkinson's Disease

期刊

PHARMACEUTICS
卷 14, 期 2, 页码 -

出版社

MDPI
DOI: 10.3390/pharmaceutics14020444

关键词

ultrasound-targeted microbubble destruction; gene delivery; blood-brain barrier opening; alpha-synuclein; Parkinson's disease

资金

  1. Ministry of Science and Technology [108-2221-E-002-176-MY3, 109-2221-E-182-008-MY3, 110-2321-B-002-010]
  2. Chang Gung Memorial Hospital, Linkou, Taiwan [CMRPG3k141]

向作者/读者索取更多资源

In this study, a focused ultrasound-targeted microbubble destruction (UTMD)-mediated Parkinson's disease (PD) model was developed to generate the disease phenotype via gene delivery. The UTMD-based model mimicked the rapid development of PD and proved valuable in assessing specific aspects of PD pathogenesis.
Parkinson's disease (PD) is characterized by alpha-synuclein (alpha SNCA) aggregation in dopaminergic neurons. Gradual accumulation of alpha SNCA aggregates in substantia nigra (SN) diminishes the normal functioning of soluble alpha SNCA, leading to a loss of dopamine (DA) neurons. In this study, we developed focused ultrasound-targeted microbubble destruction (UTMD)-mediated PD model that could generate the disease phenotype via alpha SNCA CNS gene delivery. The formation of neuronal aggregates was analyzed with immunostaining. To evaluate the DA cell loss, we used tyrosine hydroxylase immunostaining and HPLC analysis on DA and its two metabolites, 3,4-dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA). This loss of DA was associated with a dose-dependent impairment in motor function, as assessed by the rotarod motor assessment. We demonstrate that UTMD-induced SNCA expression initiates alpha SNCA aggregation and results in a 50% loss of DA in SN. UTMD-related dose-dependent neuronal loss was identified, and it correlates with the degree of impairment of motor function. In comparison to chemical neurotoxin 1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-treated and conventional intracerebral (IC)-injected animal models of PD, the UTMD-mediated alpha SNCA-based mouse model offers the advantage of mimicking the rapid development of the PD phenotype. The PD models that we created using UTMD also prove valuable in assessing specific aspects of PD pathogenesis and can serve as a useful PD model for the development of new therapeutic strategies.

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