Cannabis Use Linked to Epigenetic Changes, Study Finds

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Using cannabis may cause changes in the human body’s epigenome, a study of over 1,000 adults suggests. The epigenome functions like a set of switches, activating or deactivating genes to change how our bodies function.


“We observed associations between cumulative marijuana use and multiple epigenetic markers across time,” explained epidemiologist Lifang Hou from Northwestern University when the research was published in 2023.


Cannabis is a commonly used substance in the United States, with 49 percent of people trying it at least once, Hou and a team of US researchers report in their published paper.


Some US states and other countries have made cannabis legal, but we still don’t fully understand its effects on our health.


The researchers studied around 1,000 adults who had participated in a long-term previous study where they had been asked about their cannabis use over a 20-year period.


Study participants provided blood samples on two occasions during that time, at the 15- and 20-year points. They were aged between 18 and 30 at baseline, or ‘year 0’.


Using these blood samples from five years apart, Hou and her team looked at the epigenetic changes, specifically DNA methylation levels, of people who had used cannabis recently or for a long time.


The addition or removal of methyl groups from DNA is one of the most studied epigenetic modifications. Without changing the genomic sequence, it changes the activity of genes, because it’s harder for cells to read the genome instruction manual with these molecular changes in their way.

When epigenetic factors, which can come from other genes or the environment inside a cell or beyond, recruit a methyl group, it changes the expression of our genes. (ttsz/iStock/Getty Images)

Environmental and lifestyle factors can trigger these methylation changes, which can be passed onto future generations, and blood biomarkers can provide information about both recent and historical exposures.


“We previously identified associations between marijuana use and the aging process as captured through DNA methylation,” Hou said.


“We wanted to further explore whether specific epigenetic factors were associated with marijuana and whether these factors are related to health outcomes.”

A family of humans
Environmental and lifestyle factors can trigger methylation changes, which can be passed onto future generations. (Monkey Business Images/Canva)

The comprehensive data on the participants cannabis use allowed them to estimate cumulative use over time as well as recent use and compare it with DNA methylation markers in their blood for analysis.


They found numerous DNA methylation markers in the 15-year blood samples, 22 that were associated with recent use, and 31 associated with cumulative cannabis use. In the samples taken at the 20-year point they identified 132 markers linked to recent use and 16 linked to cumulative use.

Cannabis plant with its purple flowers
The buds of a cannabis plant contain the most cannabinoids. (Esteban López/Unsplash)

“Interestingly, we consistently identified one marker that has previously been associated with tobacco use,” Hou explained, “suggesting a potential shared epigenetic regulation between tobacco and marijuana use.”


Multiple epigenetic changes associated with cannabis use had previously been linked to things like cellular proliferation, hormone signaling, infections, neurological disorders like schizophrenia and bipolar disorder, and substance use disorders.


It’s important to note that this study doesn’t prove that cannabis directly causes these changes or causes health problems.


“This research has provided novel insights into the association between marijuana use and epigenetic factors,” said epidemiologist Drew Nannini from Northwestern University.


“Additional studies are needed to determine whether these associations are consistently observed in different populations. Moreover, studies examining the effect of marijuana on age-related health outcomes may provide further insight into the long-term effect of marijuana on health.”


The study has been published in Molecular Psychiatry.

An earlier version of this article was published in July 2023.

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