The administration of MPTP selectively targets the dopaminergic system resulting in Parkinsonism-like symptoms and is commonly used as a mice model of Parkinson's disease. We previously demonstrated that the neuroprotective compound CuII (atsm) rescues nigral cell loss and improves dopamine metabolism in the MPTP model. The mechanism of action of CuII (atsm) needs to be further defined to understand how the compound promotes neuronal survival. Whole genome transcriptomic profiling has become a popular method to examine the relationship between gene expression and function. Substantia nigra samples from MPTP-lesioned mice were evaluated using whole transcriptome sequencing to investigate the genes altered upon CuII (atsm) treatment. We identified 143 genes affected by MPTP lesioning that are associated with biological processes related to brain and cognitive development, dopamine synthesis and perturbed synaptic neurotransmission. Upon CuII (atsm) treatment, the expression of 40 genes involved in promoting dopamine synthesis, calcium signaling and synaptic plasticity were restored which were validated by qRT-PCR. The study provides the first detailed whole transcriptomic analysis of pathways involved in MPTP-induced Parkinsonism. In addition, we identify key therapeutic pathways targeted by a potentially new class of neuroprotective agents which may provide therapeutic benefits for other neurodegenerative disorders.
Funding
We thank the Centre for Translational Pathology, Department of Pathology, University of Melbourne and the Life Sciences Computation Centre (VLSCI) at the University of Melbourne for use of their Bioinformatics pipeline and infrastructure for this study. This work was supported by the Australian Research Council (FT100100560 to AFH) and the National Health and Medical Research Council (628946 to AFH and KJB).
History
Publication Date
2016-03-01
Journal
Scientific Reports
Volume
6
Issue
1
Article Number
22398
Pagination
12p.
Publisher
Springer Nature
ISSN
2045-2322
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