- Hatoum, Alexander S;
- Colbert, Sarah MC;
- Johnson, Emma C;
- Huggett, Spencer B;
- Deak, Joseph D;
- Pathak, Gita A;
- Jennings, Mariela V;
- Paul, Sarah E;
- Karcher, Nicole R;
- Hansen, Isabella;
- Baranger, David AA;
- Edwards, Alexis;
- Grotzinger, Andrew D;
- Tucker-Drob, Elliot M;
- Kranzler, Henry R;
- Davis, Lea K;
- Sanchez-Roige, Sandra;
- Polimanti, Renato;
- Gelernter, Joel;
- Edenberg, Howard J;
- Bogdan, Ryan;
- Agrawal, Arpana
Genetic liability to substance use disorders can be parsed into loci that confer general or substance-specific addiction risk. We report a multivariate genome-wide association meta-analysis that disaggregates general and substance-specific loci for published summary statistics of problematic alcohol use, problematic tobacco use, cannabis use disorder, and opioid use disorder in a sample of 1,025,550 individuals of European descent and 92,630 individuals of African descent. Nineteen independent SNPs were genome-wide significant (P < 5e-8) for the general addiction risk factor (addiction-rf), which showed high polygenicity. Across ancestries, PDE4B was significant (among other genes), suggesting dopamine regulation as a cross-substance vulnerability. An addiction-rf polygenic risk score was associated with substance use disorders, psychopathologies, somatic conditions, and environments associated with the onset of addictions. Substance-specific loci (9 for alcohol, 32 for tobacco, 5 for cannabis, 1 for opioids) included metabolic and receptor genes. These findings provide insight into genetic risk loci for substance use disorders that could be leveraged as treatment targets.