The tiny addition of a chemical mark atop a gene well known for its involvement in clinical depression and post-traumatic stress disorder can affect the way a person's brain responds to threats, according to the study.
The study by Duke University researchers focused on the serotonin transporter, a molecule that regulates the amount of serotonin signalling between brain cells and is a major target for treatment of depression and mood disorders.
In the 1990s, scientists discovered that differences in the DNA sequence of the serotonin transporter gene seemed to give some individuals exaggerated responses to stress, including the development of depression.
"We decided to start with the serotonin transporter because we know a lot about it biologically, pharmacologically, behaviourally, and it's one of the best characterised genes in neuroscience," said senior author Ahmad Hariri, a professor of psychology and neuroscience and member of the Duke Institute for Brain Sciences.
The group performed non-invasive brain imaging in 80 college-aged participants, showing them pictures of angry or fearful faces and watching the responses of a deep brain region called the amygdala, which helps shape our behavioural and biological responses to threat and stress.
The greater the methylation of an individual's serotonin transporter gene, the greater the reactivity of the amygdala, the study found.
Increased amygdala reactivity may in turn contribute to an exaggerated stress response and vulnerability to stress-related disorders.
To the group's surprise, even small methylation variations between individuals were sufficient to create differences between individuals' amygdala reactivity, said lead author Yuliya Nikolova, a graduate student in Hariri's group.