Hormone Important in Recognizing Familiar Faces
NR-01-09 (01/06/09)
HORMONE IMPORTANT IN RECOGNIZING FAMILIAR FACES
Oxytocin improves human ability to recognize faces but not places
Washington, DC January 6, 2009 – Oxytocin, a hormone involved in child-birth and breast-feeding, helps people recognize familiar faces, according to new research in the January 7 issue of The Journal of Neuroscience. Study participants who had one dose of an oxytocin nasal spray showed improved recognition memory for faces, but not for inanimate objects.
“This is the first paper showing that a single dose of oxytocin specifically improves recognition memory for social, but not for nonsocial, stimuli,” said Ernst Fehr, PhD, an economist at the University of Zurich who has studied oxytocin’s effect on trust and is unaffiliated with the new study. “The results suggest an immediate, selective effect of the hormone: strengthening neuronal systems of social memory,” Fehr said.
In mice, oxytocin has been shown to be important in social recognition — remembering that another mouse is familiar. Unlike humans, who use visual cues, mice use smell to recognize and distinguish other mice.
In humans, oxytocin increases social behaviors like trust, but its role in social memory has been unclear. “Recognizing a familiar face is a crucial feature of successful social interaction in humans,” said Peter Klaver, PhD, at the University of Zurich, the senior author of the new study, which was led by Ulrike Rimmele, PhD, at New York University. “In this study, we investigated for the first time the systematic effect of oxytocin on social memory in humans,” Klaver said.
Klaver and colleagues had study participants use a nasal spray containing either oxytocin or a placebo and then showed them images of faces and inanimate objects, including houses, sculptures, and landscapes. Participants were given a surprise test when they returned the next day — they were shown some of the images they had seen the day before as well as some new ones and were asked to distinguish between images that were “new,” images that they specifically “remembered” being presented, and images they recognized (“knew”) as familiar but could not recall the presentation context.
Volunteers who used the oxytocin spray more accurately recognized the faces they had seen before than did those in the placebo group. However, the two groups did not differ in recognizing the other, nonsocial images, suggesting that oxytocin specifically improved social memory and that different mechanisms exist for social and nonsocial memory. Further analysis showed that oxytocin selectively improved the discrimination of new and familiar faces — participants with oxytocin were less likely to mistakenly characterize unfamiliar faces as familiar. “Together, our data indicate that oxytocin in humans immediately strengthens the capability to correctly recognize and discriminate faces,” Klaver said.
“The study highlights the parallels in social information processing in mice and man, and adds further support to the notion that oxytocin plays a critical role,” said Larry Young, PhD, at Emory University, an expert on oxytocin who is unaffiliated with the current study. “This has important implications for disorders such as autism, where social information processing is clearly impaired,” Young said.
The research was supported by the Swiss National Science Foundation, the Swiss Federal Institute of Sports, and the University of Zurich.
The Journal of Neuroscience is published by the Society for Neuroscience, an organization of more than 38,000 basic scientists and clinicians who study the brain and nervous system. Klaver can be reached at peter.klaver@kispi.uzh.ch.