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Scientists Identify Brain Cells Involved in Pavlovian Response

  Scientists Identify Brain Cells Involved in Pavlovian Response

Illustration: Maja Moden

In his famous experiment, Russian scientist Ivan Pavlov rang a bell each time he fed his dogs. Soon, the dogs began drooling in anticipation when they heard the bell, even before food appeared. Now a UCLA study has traced the Pavlovian response to a small cluster of brain cells — the same neurons that go awry in Huntington’s disease, Parkinson’s disease and Tourette’s syndrome. The research could eventually help scientists identify new approaches to diagnosing and treating these neurological disorders.

“Species survive because they’ve learned how to link sensory cues like specific sounds, smells and sights to rewards like food and water,” says Sotiris Masmanidis, PhD, assistant professor of neurobiology. “We wanted to uncover the brain circuitry that encodes reward-based learning and behavior.”

The UCLA team focused on cellular activity in the striatum, a part of the brain associated with reward, movement and decision-making. In a modern version of Pavlov’s experiment, Dr. Masmanidis and colleagues repeatedly exposed mice to the unfamiliar scent of banana or lemon, followed by a drop of condensed milk. Eventually, the mice learned that the fragrances predicted the arrival of a sweet reward and began fervently licking the air in anticipation.

Based on clues from earlier studies, the team zeroed in on a tiny group of cells that support the principal neurons in the striatum. Although these supporting players compose fewer than 2 percent of the cells in the region, the scientists were surprised to discover that they play a disproportionately important role. Using a combination of specialized electrodes and optogenetics — the use of light to control cells — they were able to “turn off” those support cells. “When we switched off the support cells, the mice licked the air in anticipation of the milk only half as often as normal,” Dr. Masmanidis says. “We suspect that the support cells enhance the brain circuits that encode Pavlovian response.”

The support cells’ influence appeared strongest when the mice were first learning to pair the unfamiliar scents with a reward. The change was less dramatic in mice who had already mastered the connection. “These cells were most essential to inexperienced mice who hadn’t yet mastered the Pavlovian response,” says Dr. Masmanidis, a member of UCLA’s California NanoSystems Institute and Brain Research Institute. The findings suggest that neurological disorders could be caused in part by malfunctioning support cells and that restoring the cells’ function may eventually help people with these diseases.

“Parvalbumin Interneurons Modulate Striatal Output and Enhance Performance during Associative Learning,” Neuron, March 22, 2017


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