Summary: A recent study shows that exposure to THC during pregnancy could significantly affect fetal development, leading to life-long health impacts on offspring.
The research discovered that THC exposure altered the placental and fetal epigenome, changes that are consistent with common neurobehavioral conditions like autism spectrum disorder. This adds to the growing evidence that challenges the perception of cannabis as completely safe, especially during pregnancy.
Researchers hope these findings will inform public health policies and patient counseling on cannabis use.
Key Facts:
- THC exposure during pregnancy alters the placental and fetal epigenome, causing changes consistent with neurobehavioral conditions like autism spectrum disorder.
- The study was conducted on non-human primates, where daily THC exposure showed significant epigenetic changes in key areas related to prenatal development, including the placenta and fetal brain, heart, and lungs.
- Researchers hope that this study can inform and guide public health policies and patient counseling on cannabis use, especially during pregnancy.
Source: Oregon Health and Science University
Oregon Health & Science University researchers showed that consuming THC while pregnant could potentially affect development of the fetus and lead to life-long health impacts for offspring.
The preclinical study was published today in the journal Clinical Epigenetics.
Delta-9-tetrahydrocannabinol, or THC, is the main psychoactive ingredient in cannabis, a substance growing in popularity and availability in the United States.
The prevalence of cannabis use in pregnancy is also rapidly increasing, especially during the first trimester — a time when the fetus is most vulnerable to environmental exposures — to mitigate common symptoms like morning sickness.
However, the potential effects of prenatal cannabis use on fetal development remain inconclusive, in part due to a lack of safety data.
This study aimed to identify the potential long-term health impacts of THC use during pregnancy.
In a non-human primate model, OHSU researchers found that exposing a pregnant subject to THC altered the placental and fetal epigenome —including the chemical modifications to DNA responsible for gene regulation and expression, that is telling genes what, where and when to do something.
Researchers also found that that these changes to gene regulation and expression are consistent with those seen with many common neurobehavioral conditions, including autism spectrum disorder.
“Cannabis is one of the most commonly used drugs and is widely available across the country, so there is a common perception that its completely safe to use,” said the study’s lead author Lyndsey Shorey-Kendrick, Ph.D., a computational biologist in the Division of Neurosciences at OHSU’s Oregon National Primate Research Center, or ONPRC.
“The reality is that cannabis still carries many health risks for certain populations, including those who are pregnant. If we’re able to better understand the impacts, we can more effectively communicate the risks to patients and support safer habits during the vulnerable prenatal period.”
In a model using nonhuman primates, researchers administered THC in a daily edible and compared its effects to a group receiving a placebo. Specifically, researchers evaluated the epigenetic changes in several key areas that indicate healthy prenatal development: the placenta — the disc of tissue that connects the umbilical cord and uterus — and fetal lung, brain and heart.
When looking at these areas, analyses showed that THC exposure altered the epigenome, meaning a process in which the information encoded in a gene is turned into a function or observable trait. Genes — the segments which make up DNA — are all specifically coded to contribute to different functions of the body and brain, so any impact on epigenetic processes due to drug exposure is concerning, especially during a critical developmental window such as pregnancy.
Researchers found that significant changes involved genes associated with common neurobehavioral disorders, including autism spectrum disorder and attention deficit hyperactivity disorder.
These conditions are linked to adverse health outcomes in childhood and adolescence, including poorer memory and verbal reasoning skills, and increased hyperactivity, impulsivity and inattention.
The research team, which includes Eliot Spindel, M.D., Ph.D., Elinor Sullivan, Ph.D., Owen McCarty, Ph.D., and Jason Hedges, M.D., Ph.D., hopes findings from this study will add to the limited existing literature on THC use during pregnancy, and help guide patient counseling and public health polices focused on cannabis in the future.
“It’s not common practice for providers to discuss cannabis use with patients who are pregnant or trying to conceive,” said the study’s corresponding author, Jamie Lo, M.D., M.C.R., associate professor of obstetrics and gynecology (maternal-fetal medicine), OHSU School of Medicine, and Division of Reproductive and Developmental Sciences at the ONPRC.
“I hope our work can help open up a broader dialogue about the risks of cannabis use in the preconception and prenatal period, so we can improve children’s health in the long run.”
Funding: Research reported in this publication was supported by the Reproductive Scientist Development Program, March of Dimes, March of Dimes Foundation, and Silver Family Innovation Award. The research was also supported by the Office of the Director, the Eunice Kennedy Shriver National Institute of Child Health and Human Development, and the National Institute on Drug Abuse, all of the National Institutes of Health, under award numbers P51 OD011092, K12 HD000849, R03 HD097116, and DP1 DA056493. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health.
Note: All research involving animal subjects at OHSU must be reviewed and approved by the university’s Institutional Animal Care and Use Committee (IACUC). The IACUC’s priority is to ensure the health and safety of animal research subjects. The IACUC also reviews procedures to ensure the health and safety of the people who work with the animals.
The IACUC conducts a rigorous review of all animal research proposals to ensure they demonstrate scientific value; justify the use of live animals and species selected; outline steps to minimize pain and distress; document appropriate training of all staff involved; and establish the proposed study does not unnecessarily duplicate previous research. No live animal work may be conducted at OHSU without IACUC approval.
About this neurodevelopment research news
Author: Nicole Rideout
Source: Oregon Health and Science University
Contact: Nicole Rideout – Oregon Health and Science University
Image: The image is credited to Neuroscience News
Original Research: Open access,
“Prenatal delta-9-tetrahydrocannabinol exposure is associated with changes in rhesus macaque DNA methylation enriched for autism genes” by Lyndsey Shorey-Kendrick et al. Clinical Epigenetics
Abstract
Prenatal delta-9-tetrahydrocannabinol exposure is associated with changes in rhesus macaque DNA methylation enriched for autism genes
Background
With the growing availability of cannabis and the popularization of additional routes of cannabis use beyond smoking, including edibles, the prevalence of cannabis use in pregnancy is rapidly increasing. However, the potential effects of prenatal cannabis use on fetal developmental programming remain unknown.
Results
We designed this study to determine whether the use of edible cannabis during pregnancy is deleterious to the fetal and placental epigenome. Pregnant rhesus macaques consumed a daily edible containing either delta-9-tetrahydrocannabinol (THC) (2.5 mg/7 kg/day) or placebo. DNA methylation was measured in 5 tissues collected at cesarean delivery (placenta, lung, cerebellum, prefrontal cortex, and right ventricle of the heart) using the Illumina MethylationEPIC platform and filtering for probes previously validated in rhesus macaque. In utero exposure to THC was associated with differential methylation at 581 CpGs, with 573 (98%) identified in placenta. Loci differentially methylated with THC were enriched for candidate autism spectrum disorder (ASD) genes from the Simons Foundation Autism Research Initiative (SFARI) database in all tissues. The placenta demonstrated greatest SFARI gene enrichment, including genes differentially methylated in placentas from a prospective ASD study.
Conclusions
Overall, our findings reveal that prenatal THC exposure alters placental and fetal DNA methylation at genes involved in neurobehavioral development that may influence longer-term offspring outcomes. The data from this study add to the limited existing literature to help guide patient counseling and public health polices focused on prenatal cannabis use in the future.
