Genetics of Alcohol Use Disorder: A Role for Induced Pluripotent Stem Cells?

Overview

Journal Alcohol Clin Exp Res

Specialty Psychiatry

Date 2018 Jun 14

PMID 29897633

Citations 8

Authors

Iya Prytkova

Alison Goate

Ronald P Hart

Paul A Slesinger

Affiliations

Soon will be listed here.

Abstract

Alcohol use disorder (AUD) affects millions of people and costs nearly 250 billion dollars annually. Few effective FDA-approved treatments exist, and more are needed. AUDs have a strong heritability, but only a few genes have been identified with a large effect size on disease phenotype. Genomewide association studies (GWASs) have identified common variants with low effect sizes, most of which are in noncoding regions of the genome. Animal models frequently fail to recapitulate key molecular features of neuropsychiatric disease due to the polygenic nature of the disease, partial conservation of coding regions, and significant disparity in noncoding regions. By contrast, human induced pluripotent stem cells (hiPSCs) derived from patients provide a powerful platform for evaluating genes identified by GWAS and modeling complex interactions in the human genome. hiPSCs can be differentiated into a wide variety of human cells, including neurons, glia, and hepatic cells, which are compatible with numerous functional assays and genome editing techniques. In this review, we focus on current applications and future directions of patient hiPSC-derived central nervous system cells for modeling AUDs in addition to highlighting successful applications of hiPSCs in polygenic neuropsychiatric diseases.

Citing Articles

On the utilization of the induced pluripotent stem cell (iPSC) model to study substance use disorders: A scoping review protocol.

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The Collaborative Study on the Genetics of Alcoholism: Overview.

Agrawal A, Brislin S, Bucholz K, Dick D, Hart R, Johnson E Genes Brain Behav. 2023; 22(5):e12864.

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5. Collaborative Study on the Genetics of Alcoholism: Functional genomics.

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Differential sensitivity of human neurons carrying μ opioid receptor (MOR) N40D variants in response to ethanol.

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