Who is Shih?

By Monika Guttman
Spring 2008

When Jean Shih, Ph.D., has a free moment —which is not often for the newly appointed Fellow of the American Association for the Advancement of Science—she writes articles in her native Chinese about her family, her feelings, and all the things that motivate and move people.

It’s a fitting sideline for the University Professor and the Boyd P. and Elsie D. Welin Professor in Pharmacology and Pharmaceutical Sciences. After all, Shih began researching the brain because “since I was young I have always been curious about how people think. I found studying people fascinating, and never thought I would work in a laboratory because it seemed too isolated.”

Yet it is in the laboratory that Shih has discovered a piece of what drives human actions: she has won international acclaim for her study of how the brain enzyme, monoamine oxidase (MAO), affects behaviors.

She is a two-time winner of the MERIT Award, given by the National Institutes of Health to the top 1 percent of investigators in the country. She is a Fellow of the American College of Neuropsychopharmacology and of Academia Sinica, Taiwan.
She is also a member of the International Brain Research Committee of the National Academy of Sciences and past president of the Society of Chinese Bioscientists in America.

MAO influences many different neurotransmitters (chemicals that help nerve cells communicate), including serotonin, dopamine and norepinephrine. Shih has worked on understanding how genes affect neurotransmitter functions through genetically engineered MAO. Creating perfect models for testing new drugs, MAO “knockout mice” (without the enzyme), Shih is able to alter neurotransmitters and study the resulting behaviors.

Shih’s knockout mice are significantly more aggressive than their counterparts with plenty of MAO. “The mice help us see what compounds induce a certain behavior and what compounds can rescue this behavior,” Shih says.
Her work has uncovered other behavioral effects related to MAO evident in her genetically altered mice, such as depression, alcohol abuse, obesity, autism and schizophrenia.

“I’d like to see our work help us better understand mental diseases and the environmental impact on behavior,” she says. “That’s how we’ll really be able to help reduce human suffering.”