Mirror Neurons Influenced By Cultural Spin

By Michael Bell

Researchers at the University of California Los Angeles have shown that mirror neurons, which are known to fire in response to other people's actions as well during our own performance of those actions, apply cultural spin to their responses, influenced by the group membership of the observed individual.

Istvan Molnar-Szakacs, a researcher at the UCLA Tennenbaum Center for the Biology of Creativity, and Dr. Marco Iacoboni, director of the Transcranial Magnetic Stimulation Lab at the Ahmanson-Lovelace Brain Mapping Center at UCLA's Semel Institute for Neuroscience and Human Behavior, researched the brain's response to gestures.

Molnar-Szakacs and Iacoboni wanted to investigate the imprint of culture on the so-called mirror neuron network. Mirror neurons in the brain fire not only when an individual performs a particular action but also when he or she watches another individual perform that same action. Neuroscientists believe this "mirroring" is the mechanism by which we can read the minds of others and empathize with them.

When it comes to the influence of culture, the researchers found that the mirror neuron network responds differently depending on whether individuals are looking at someone who shares their culture or someone who doesn't.

The researchers had two actors ? one American, the other Nicaraguan ? perform a series of American, Nicaraguan and meaningless hand gestures for a group of American subjects. A procedure called transcranial magnetic stimulation was used to measure the observers' levels of corticospinal excitability, which scientists use to gauge the activity of mirror neurons.

Molnar-Szakacs and Iacoboni found that the American observers demonstrated higher mirror neuron activity when observing the American making the gestures ? whether they were American, Nicaraguan or meaningless ? than when viewing the Nicaraguan. Even when the Nicaraguan actor performed American gestures, the observers' mirror neuron activity dropped.

"We believe these are some of the first data to show neurobiological responses to culture-specific stimuli," said Molnar-Szakacs. "Our data show that both ethnicity and culture interact to influence activity in the brain, specifically within the mirror neuron network involved in social communication and interaction."

"We are the heirs of communal but local traditions," said Iacoboni. "Mirror neurons are the brain cells that help us in shaping our own culture. However, the neural mechanisms of mirroring that shape our assimilation of local traditions could also reveal other cultures, as long as such cross-cultural encounters are truly possible. All in all, our research suggests that with mirror neurons, our brain mirrors people, not simply actions."

It appears that neural systems supporting memory, empathy and general cognition encode information differently depending on who's giving the information ? a member of one's own cultural or ethnic in-group or a member of an out-group. Ethnic in-group membership and a culturally learned motor repertoire more strongly influence the brain's responses to observed actions, specifically actions used in social communication.

"An important conclusion from these results is that culture has a measurable influence on our brain and, as a result, our behavior. Researchers need to take this into consideration when drawing conclusions about brain function and human behavior," said Molnar-Szakacs.

The findings, the researchers note, may also have implications for motor-skill acquisition, language learning and intergroup communication, as well as for the study of intergroup attitudes toward other cultures.

Other study authors include Allan D. Wu and Francisco J. Robles, both of UCLA. Molnar-Szakacs and Iacoboni are members of the Foundation for Psychocultural Research?UCLA Center for Culture, Brain and Development, which provided funding for the study.

The Semel Institute for Neuroscience and Human Behavior at UCLA is an interdisciplinary research and education institute devoted to the understanding of complex human behavior, including the genetic, biological, behavioral and sociocultural underpinnings of normal behavior, and the causes and consequences of neuropsychiatric disorders. For more information, visit www.npi.ucla.edu.



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