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| The study uncovered new relationships between gene variants associated with cannabis use and psychiatric, cognitive and physical health. Image Credit: Scientific Frontline / AI generated |
University of California San Diego of Medicine researchers, in collaboration with the genetic testing company 23andMe, have identified regions of the human genome associated with cannabis use, uncovering new relationships with psychiatric, cognitive and physical health. The findings may inform the development of prevention and treatment strategies for cannabis use disorder. The study was published on October 13, 2025 in Molecular Psychiatry.
“Cannabis is widely used, but its long-term effects on health remain poorly characterized,” said Sandra Sanchez-Roige, Ph.D., associate professor of psychiatry at UC San Diego School of Medicine and senior author of the study. The researchers were also interested in the relationship between genetics and traits that contribute to the development of cannabis use disorder, which can interfere with a person’s daily life.
“While most people who try cannabis do not go on to develop cannabis use disorder, some studies estimate that nearly 30% will,” said Sanchez-Roige. “Understanding the genetics of early-stage behaviors may help clarify who is at greater risk, opening the door to prevention and intervention strategies.”
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| Abraham A. Palmer, Ph.D., professor and vice chair for basic research in the Department of Psychiatry at UC San Diego School of Medicine Photo Credit: Courtesy of University of California San Diego |
“We’ve known for decades that genetic factors influence whether or not people will try drugs, how frequently they use those drugs, and the risk that they will become addicted to them,” said Abraham A. Palmer, Ph.D., professor and vice chair for basic research in the department of psychiatry at UC San Diego School of Medicine and co-author of the study. “Genetic tools like GWAS help us identify the molecular systems that connect cannabis use to brain function and behavior.”
The study found that lifetime cannabis use was associated with two genes. The first was Cell Adhesion Molecule 2 (CADM2), a gene involved in cell assembly and in signaling between nerve cells, particularly in the brain. Previous studies have linked CADM2 to various traits and conditions, including impulsive personality, obesity and cancer metastasis. Frequency of cannabis use was also found to be associated with the CADM2 gene.
The second gene was Metabotropic Glutamate Receptor 3 (GRM3), which is involved in communication between neurons and long-term brain plasticity. GRM3 has already been linked to psychiatric disorders, including schizophrenia and bipolar disorder.
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| Sandra Sanchez-Roige, Ph.D., associate professor of psychiatry at UC San Diego School of Medicine Photo Credit: Courtesy of University of California San Diego |
“We showed that the genetics of cannabis use — both trying it and using it more often — are tied to the genetics of other psychiatric traits, cognitive measures, and even physical health problems,” said Sanchez-Roige.
A secondary analysis revealed an additional 40 genes associated with lifetime cannabis use and four genes associated with frequency of cannabis use. Twenty-nine of these genes had not previously been associated with cannabis-related traits.
The researchers then analyzed which health conditions were correlated with a genetic predisposition for cannabis use. They analyzed thousands of traits in two large independent datasets from the National Institutes of Health’s (NIH) All of Us Research Program and Vanderbilt University Medical Center’s biobank
Across the genome, lifetime cannabis use and frequency of cannabis use were genetically correlated with more than 100 different traits including psychiatric conditions (e.g., schizophrenia, ADHD, anxiety and depression), cognitive traits (e.g., executive function and risk-taking) and physical health (e.g., diabetes, chronic pain and coronary artery disease). They were also associated with an increased risk for tobacco use, infectious diseases including HIV and viral hepatitis, and autoimmune diseases.
The study is one of the first genome-wide association studies to examine behaviors that precede cannabis use disorder.
“Cannabis use exists on a continuum,” said first author Hayley Thorpe, Ph.D., a visiting scholar in Sanchez-Roige’s lab and postdoctoral researcher at Western University. “By studying these intermediate traits, we can begin to map how genetic risk unfolds before cannabis use disorder develops.”
There are currently no FDA-approved drug therapies to treat cannabis use disorder. The authors hope that the biological discoveries generated by GWAS will support future efforts to identify therapeutic targets and preventative interventions against the disorder.
Additional information: The 23andMe Research participants provided informed consent and volunteered to participate in the research online, under a protocol approved by the Association for Accreditation of Human Research Protection Programs, Inc. (AAHRPP)-accredited Salus IRB.
Funding: The study was funded, in part, by the National Institutes of Institute on Drug Abuse (grants R01 DA050721, P50DA037844 and P30DA060810) at the NIH, and the Tobacco-Related Disease Research Program (grant T32IR5226).
Published in journal: Molecular Psychiatry
Title: Genome-wide association studies of lifetime and frequency of cannabis use in 131,895 individuals
Authors: Hayley H. A. Thorpe, Pierre Fontanillas, John J. Meredith, Mariela V. Jennings, Renata B. Cupertino & Shreya R. Pakala, on behalf of the 23andMe Research Team, Sarah L. Elson, Jibran Y. Khokhar, Lea K. Davis, Emma C. Johnson, Abraham A. Palmer, and Sandra Sanchez-Roige
Source/Credit: University of California San Diego | Susanne Clara Bard
Reference Number: med101325_01
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