Study in twins finds our sensitivity is partly in our genes

Summary: 47% of differences in sensitivity between individuals are a result of genetics, while 53% of the differences are a result of environmental factors.

Source: Queen Mary University of London

Some people are more sensitive than others—and around half of these differences can be attributed to our genes, new research has found.

The study, led by Queen Mary University of London, compared pairs of identical and non-identical 17-year-old twins to see how strongly they were affected by positive or negative experiences—their ‘sensitivity’ level. The aim was to tease out how much of the differences in sensitivity could be explained by either genetic or environmental factors during development: nature or nurture.

Twins who are brought up together will mostly experience the same environment. But only identical twins share the same genes: non-identical twins are like any other sibling. If identical twins show no more similarity in their levels of sensitivity than non-identical twins, then genes are unlikely to play a role.

Using this type of analysis, the team found that 47 percent of the differences in sensitivity between individuals were down to genetics, leaving 53 percent accounted for by environmental factors. The research, from Queen Mary University of London and Kings College London, is the first to show this link conclusively in such a large study. The findings are published in Molecular Psychiatry.

Michael Pluess, Professor of Developmental Psychology at Queen Mary University of London and study lead, said: “We are all affected by what we experience—sensitivity is something we all share as a basic human trait. But we also differ in how much of an impact our experiences have on us. Scientists have always thought there was a genetic basis for sensitivity, but this is the first time we’ve been able to actually quantify how much of these differences in sensitivity are explained by genetic factors.”

Over 2800 twins were involved in the study, split between around 1000 identical twins and 1800 non-identical twins, roughly half of whom were same sex. The twins were asked to fill out a questionnaire, developed by Professor Pluess, which has been widely used to test an individual’s levels of sensitivity to their environment. This test will be made available online later this month so anyone can assess their own sensitivity.

The questionnaire is also able to tease out different types of sensitivity—whether someone is more sensitive to negative experiences or positive experiences—as well as general sensitivity. The analysis by the team suggested that these different sensitivities also have a genetic basis.

Co-researcher Dr. Elham Assary said: “If a child is more sensitive to negative experiences, it may be that they become more easily stressed and anxious in challenging situations. On the other hand, if a child has a higher sensitivity to positive experiences, it may be that they are more responsive to good parenting or benefit more from psychological interventions at school. What our study shows is that these different aspects of sensitivity all have a genetic basis.”

This shows twin girls
Scientists have always thought there was a genetic basis for sensitivity, but this is the first time we’ve been able to actually quantify how much of these differences in sensitivity are explained by genetic factors.” Image is in the public domain.

Finally, the team explored how sensitivity to other common and established personality traits, known as the ‘Big Five’: openness, conscientiousness, agreeableness, extraversion and neuroticism. They found that there was a shared genetic component between sensitivity, neuroticism and extraversion, but not with any of the other personality traits.

Professor Pluess believes the findings could help us in how we understand and handle sensitivity, in ourselves and others.

“We know from previous research that around a third of people are at the higher end of the sensitivity spectrum. They are generally more strongly affected by their experiences,” he said. “This can have both advantages and disadvantages. Because we now know that this sensitivity is as much due to biology as environment, it is important for people to accept their sensitivity as an important part of who they are and consider it as a strength not just as a weakness.”

About this neuroscience research article

Source:
Queen Mary University of London
Media Contacts:
Sophie McLachlan – Queen Mary University of London
Image Source:
The image is in the public domain.

Original Research: Open access
“Genetic Architecture of Environmental Sensitivity Reflects Multiple Heritable Components: a Twin Study with Adolescents”. by Elham Assary, Helena M.S. Zavos, Eva Krapohl, Robert Keers and Michael Pluess.
Molecular Psychiatry doi:10.1038/s41380-020-0783-8

Abstract

Genetic Architecture of Environmental Sensitivity Reflects Multiple Heritable Components: a Twin Study with Adolescents

Humans differ substantially in how strongly they respond to similar experiences. Theory suggests that such individual differences in susceptibility to environmental influences have a genetic basis. The present study investigated the genetic architecture of Environmental Sensitivity (ES) by estimating its heritability, exploring the presence of multiple heritable components and its genetic overlap with common personality traits. ES was measured with the Highly Sensitive Child (HSC) questionnaire and heritability estimates were obtained using classic twin design methodology in a sample of 2868 adolescent twins. Results indicate that the heritability of sensitivity was 0.47, and that the genetic influences underlying sensitivity to negative experiences are relatively distinct from sensitivity to more positive aspects of the environment, supporting a multi-dimensional genetic model of ES. The correlation between sensitivity, neuroticism and extraversion was largely explained by shared genetic influences, with differences between these traits mainly attributed to unique environmental influences operating on each trait.

Feel Free To Share This Neuroscience News.

Join our Newsletter
I agree to have my personal information transferred to AWeber for Neuroscience Newsletter ( more information )
Sign up to receive our recent neuroscience headlines and summaries sent to your email once a day, totally free.
We hate spam and only use your email to contact you about newsletters. You can cancel your subscription any time.