AI Article Synopsis
- Alcohol use disorder (AUD) is a genetic disorder linked to excessive alcohol consumption, and researchers are investigating the role of alternative RNA splicing as a risk factor for it.
- Using a Mendelian randomization approach and data from various genetics studies, the research identified 27 exon skipping events associated with AUD risk, with six validated in a separate study.
- The study highlights specific genes related to these splicing events, particularly ELOVL7, which may influence brain structure and contribute to AUD susceptibility, suggesting broader implications for understanding genetic disorders.
Article Abstract
Alcohol use disorder (AUD) is a complex genetic disorder characterized by problems arising from excessive alcohol consumption. Identifying functional genetic variations that contribute to risk for AUD is a major goal. Alternative splicing of RNA mediates the flow of genetic information from DNA to gene expression and expands proteome diversity. We asked whether alternative splicing could be a risk factor for AUD. Herein, we used a Mendelian randomization (MR)-based approach to identify skipped exons (the predominant splicing event in brain) that contribute to AUD risk. Genotypes and RNA-seq data from the CommonMind Consortium were used as the training dataset to develop predictive models linking individual genotypes to exon skipping in the prefrontal cortex. We applied these models to data from the Collaborative Studies on Genetics of Alcoholism to examine the association between the imputed cis-regulated splicing outcome and the AUD-related traits. We identified 27 exon skipping events that were predicted to affect AUD risk; six of these were replicated in the Australian Twin-family Study of Alcohol Use Disorder. Their host genes are DRC1, ELOVL7, LINC00665, NSUN4, SRRM2 and TBC1D5. The genes downstream of these splicing events are enriched in neuroimmune pathways. The MR-inferred impacts of the ELOVL7 skipped exon on AUD risk was further supported in four additional large-scale genome-wide association studies. Additionally, this exon contributed to changes of gray matter volumes in multiple brain regions, including the visual cortex known to be involved in AUD. In conclusion, this study provides strong evidence that RNA alternative splicing impacts the susceptibility to AUD and adds new information on AUD-relevant genes and pathways. Our framework is also applicable to other types of splicing events and to other complex genetic disorders.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10615768 | PMC |
| http://dx.doi.org/10.1038/s41380-023-02111-1 | DOI Listing |
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