Abstract
The development of Parkinson’s disease (PD) causes dysfunction of the frontal cortex, which contributes to the hallmark motor symptoms and is regarded as one of the primary causes of the affective and cognitive impairments observed in PD. Treatment with L-DOPA alleviates motor symptoms but has mixed efficacy in restoring normal cognitive functions, which is further complicated by the psychoactive effects of the drug. We investigated how L-DOPA affects gene expression in the frontal cortex in an animal model of unilateral PD. We performed RNASeq analysis of gene expression in the frontal cortex of rats with 6-hydroxydopamine (6-OHDA)-induced unilateral dopaminergic lesions treated with L-3,4-dihydroxyphenylalanine (L-DOPA), for 2 weeks. The analysis of variance identified 48 genes with a significantly altered transcript abundance after L-DOPA treatment. We also performed a weighted gene coexpression network analysis (WGCNA), which resulted in the detection of 5 modules consisting of genes with similar expression patterns. The analyses led to three primary observations. First, the changes in gene expression induced by L-DOPA were bilateral, although only one hemisphere was lesioned. Second, the changes were not restricted to neurons but also appeared to affect immune or endothelial cells. Finally, comparisons with databases of drug-induced gene expression signatures revealed multiple nonspecific effects, indicating that a part of the observed response is a common pattern activated by multiple types of drugs in different target tissues. Taken together, our results identify cellular mechanisms in the frontal cortex that are involved in the response to L-DOPA treatment.
Significance statement The development of Parkinson’s disease (PD) causes dysfunction of the frontal cortex, which contributes to the motor and cognitive impairments observed in PD. L-DOPA improves motor symptoms but has mixed efficacy in restoring normal cognitive functions. We investigated how L-DOPA affects gene expression in the frontal cortex in an animal model of unilateral PD. We identified 48 genes with L-DOPA-altered expression levels and gene clusters that follow similar drug-evoked expression patterns. Our findings suggest that the response to L-DOPA was bilateral, involved distinct cell types and overlapped with expression changes evoked by drugs of multiple classes in different tissues. Overall, our results identify cellular mechanisms in the frontal cortex that are involved in the response to L-DOPA treatment.
Footnotes
The authors declare no competing financial interests.
This study was funded by the National Science Centre grant OPUS no. 2011/01/B/NZ4/01581 and the statutory funds of the Maj Institute of Pharmacology of the Polish Academy of Sciences. AR was supported by a fellowship from the InterDokMed POWR.03.02.00-00-I013/16 program.
This is an open-access article distributed under the terms of the Creative Commons Attribution 4.0 International license, which permits unrestricted use, distribution and reproduction in any medium provided that the original work is properly attributed.
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