Cis-acting allele specific expression (ASE) differences induced by alcohol and impacted by sex as well as parental genotype of origin

Lo, Chiao-Ling; Lumeng, Lawrence; Bell, Richard L.; Liang, Tiebing; Lossie, Amy C.; Muir, Williams M.; Zhou, Feng C.

doi:10.1111/acer.13776

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Cis-acting allele specific expression (ASE) differences induced by alcohol and impacted by sex as well as parental genotype of origin
Citation	Lo CL, Lumeng L, Bell RL, Liang T, Lossie AC, Muir WM, Zhou FC. Alcohol Clin. Exp. Res. 2018; ePub(ePub): ePub.
Affiliation	Stark Neuroscience Research Institute, Indiana University School of Medicine, Indianapolis, IN, 46202, USA.
Copyright	(Copyright © 2018, John Wiley and Sons)
DOI	10.1111/acer.13776
PMID	29786868
Abstract	BACKGROUND: Alcohol use disorders (AUDs) are influenced by complex interactions between the genetics of the individual and their environment. We have previously identified hundreds of polygenic genetic variants between the selectively bred high and low alcohol drinking (HAD and LAD) rat lines. Here we report allele specific expression (ASE) differences, between the HAD2 and LAD2 rat lines. METHODS: The HAD2 and LAD2 rats which have been sequenced were reciprocally crossed to generate 10 litters of F1 progeny. For 5 of these litters, the sire was HAD2; and, for the other 5 litters, the sire was a LAD2. From these 10 litters, two males and two females were picked from each F1 litter (N = 40 total). The F1-pups were divided, with balancing for sex and direction of cross, into an alcohol (15%) vs a water control group. Alcohol-drinking started in the middle of adolescence (~PND 35) and lasted 9 weeks. At the end of these treatments, rats were euthanized, the nucleus accumbens was dissected, and RNA was processed for RNA-sequencing and ASE analyses. RESULTS: Analyses revealed that adolescent ethanol drinking, individual ethanol drinking levels, parentage, and sex-of-animal affected ASEs of about 300 genes. The identified genes included those associated with ethanol metabolism (e.g., Aldh2); neuromodulatory function [e.g., Cckbr, Slc6a7, and Slc1a1]; ion channel activity (e.g., Kcnc3); as well as other synaptic and epigenetic function. CONCLUSION: These data indicate that ethanol drinking differentially amplified paternal vs maternal allelic contribution to the transcriptome. We hypothesize that this was due, at least in part, to ethanol-induced changes in cis-regulation of polymorphisms previously identified between the HAD2 and LAD2 rat lines. This report highlights the complexity of gene-by-environment interactions mediating a genetic predisposition for, and/or the active development of, alcohol use disorders. This article is protected by copyright. All rights reserved. This article is protected by copyright. All rights reserved. Language: en
Keywords	Alcohol use disorder; Direction of cross; Epigenetics; Gender effect; Gene-environment interaction; Genomics; RNAseq