Implications of gene × environment interactions in post-traumatic stress disorder risk and treatment
Carina Seah, … , Laura M. Huckins, Kristen J. Brennand
Carina Seah, … , Laura M. Huckins, Kristen J. Brennand
Published March 3, 2025
Citation Information: J Clin Invest. 2025;135(5):e185102. https://doi.org/10.1172/JCI185102.
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Implications of gene × environment interactions in post-traumatic stress disorder risk and treatment

Abstract

Exposure to traumatic stress is common in the general population. Variation in the brain’s molecular encoding of stress potentially contributes to the heterogeneous clinical outcomes in response to traumatic experiences. For instance, only a minority of those exposed to trauma will develop post-traumatic stress disorder (PTSD). Risk for PTSD is at least partially heritable, with a growing number of genetic factors identified through GWAS. A major limitation of genetic studies is that they capture only the genetic component of risk, whereas PTSD by definition requires an environmental traumatic exposure. Furthermore, the extent, timing, and type of trauma affects susceptibility. Here, we discuss the molecular mechanisms of PTSD risk together with gene × environment interactions, with a focus on how either might inform genetic screening for individuals at high risk for disease, reveal biological mechanisms that might one day yield novel therapeutics, and impact best clinical practices even today. To close, we discuss the interaction of trauma with sex, gender, and race, with a focus on the implications for treatment. Altogether, we suggest that predicting, preventing, and treating PTSD will require integrating both genotypic and environmental information.

Authors

Carina Seah, Anne Elizabeth Sidamon-Eristoff, Laura M. Huckins, Kristen J. Brennand

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Figure 1

Schematic of scientific rationale and methods to understanding gene × environment interactions in post-traumatic stress disorder.

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Schematic of scientific rationale and methods to understanding gene × en...
(A) Post-traumatic stress disorder (PTSD) is a heterogeneous disorder characterized by individualized patterns of risk requiring individualized interventions, despite convergence on a common phenotype. (B) PTSD is the result of both genetic and environmental risk factors as well as the impact of trauma. The neurobiology of each of these risk factors should be characterized independently and jointly in order to advance our understanding of PTSD pathophysiology. This includes understanding the biological impact of the underlying socioeconomic and home environment, delineating the long-term encoding of traumatic exposures on the brain, and identifying how genetic risk functionally affects brain neurobiology. The functional elucidation of genetic hits will require linking genetics to downstream-omics, such as transcriptomics and epigenetics, exploring genetic models of disorder risk, genetics-matched electronic health records, and clinical and imaging data.