AI Article Synopsis
- Research shows similarities between Parkinson's disease (PD) and Alzheimer's disease (AD), particularly in mitochondrial dysfunction and oxidative stress, prompting an analysis of various datasets.
- Functional enrichment analysis indicated both diseases have disruptions in crucial pathways like synaptic function and energy metabolism, with AD displaying a greater number of affected genes.
- The study identified 54 common genes across tissues, highlighting the conflicting role of the transcription factor NRF2, which, despite being upregulated, has its protective target genes downregulated due to increased MAFF expression acting as a repressor.
Article Abstract
Many lines of evidence suggest that Parkinson's disease (PD) and Alzheimer's disease (AD) have common characteristics, such as mitochondrial dysfunction and oxidative stress. As the underlying molecular mechanisms are unclear, we perform a meta-analysis with 9 microarray datasets of PD studies and 7 of AD studies to explore it. Functional enrichment analysis revealed that PD and AD both showed dysfunction in the synaptic vesicle cycle, GABAergic synapses, phagosomes, oxidative phosphorylation, and TCA cycle pathways, and AD had more enriched genes. Comparing the differentially expressed genes between AD and PD, we identified 54 common genes shared by more than six tissues. Among them, 31 downregulated genes contained the antioxidant response element (ARE) consensus sequence bound by NRF2. NRF2 is a transcription factor, which protects cells against oxidative stress through coordinated upregulation of ARE-driven genes. To our surprise, although NRF2 was upregulated, its target genes were all downregulated. Further exploration found that MAFF was upregulated in all tissues and significantly negatively correlated with the 31 NRF2-dependent genes in diseased conditions. Previous studies have demonstrated over-expressed small MAFs can form homodimers and act as transcriptional repressors. Therefore, MAFF might play an important role in dysfunction of NRF2 regulatory network in PD and AD.
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| http://dx.doi.org/10.3233/JAD-161032 | DOI Listing |
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