Monday, May 14, 2012

Loneliness is a Molecule



It's already known that a person's social environment can affect their health, with those who are socially isolated --- that is, lonely---suffering from higher mortality than people who are not. Now, in the first study of its kind, published in a recent issue of Genome Biology, University of California, Los Angeles, (UCLA) researchers have identified a distinct pattern of gene expression in immune cells from people who experience chronically high levels of loneliness. The findings suggest that feelings of social isolation are linked to alterations in the activity of genes that drive inflammation, the first response of the immune system. The study provides a molecular framework for understanding why social factors are linked to an increased risk of heart disease, viral infections and cancer.

Having previously established that lonely people suffer from higher mortality than people who are not, researchers are now trying to determine whether that risk is a result of reduced social resources, such as physical or economic assistance, or from the biological impact of social isolation on the function of the human body. "What this study shows is that the biological impact of social isolation reaches down into some of our most basic internal processes the activity of our genes," says Steve Cole, an associate professor of medicine in the division of Hematology-Oncology at the David Geffen School of Medicine, and a member of the UCLA Cousins Center for Psychoneuroimmunology.

"We found that changes in immune cell gene expression were specificall linked to the subjective experience of social distance," says Cole. "The differences we observed were independent of other known risk factors, such as health status, age, weight, and medication use. The changes were even independent of the objective size of a person's social network." Genes overexpressed in lonely individuals included many involved in immune system activation and inflammation. But interestingly, several other key gene sets were underexpressed, including those involved in antiviral responses and antibody production. "These findings provide molecular targets for our efforts to block the adverse health effects of social isolation," says Cole.

"We found that what counts at the level of gene expression is not how many people you know, it's how many you feel really close to over time." In the future, he says, the transcriptional fingerprint they've identified might become useful as a 'biomarker' to monitor interventions designed to reduce the impact of loneliness on health.

______ Source: University of California, Los Angeles, Health Sciences

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