Lauren Kingsley

June 2002

Lab experiences bring home the thrill of discovery

Lauren Kingsley began her science career with a bang — her freshman year she was a WISP (Women in Science Project) intern, a Dartmouth program that places first-year woman science majors in laboratories with scientist mentors. Her placement paired her with toxicologist Joshua Hamilton, director of the Toxic Metals Research Program at Dartmouth. Last summer she received the Barbara Crute Award, given to an outstanding WISP intern to continue her work her sophomore year.

Chemistry is not new to Dartmouth junior Lauren Kingsley. In fact, both her parents were chemistry majors who met as lab partners in college. “Science was always important in my house and my parents encouraged me to participate in science fairs and take science classes, but I wouldn't say they directed me into studying science in college. It's just something that I liked.” Actually, Lauren, who comes from Hershey, Pennsylvania, began college planning to be an English major, but then a handful of fantastic chemistry classes her freshman year changed her mind. Now she is a star science student — earning awards and doing research since she began her major. She just became a Presidential Scholar, which will allow her to do two terms of research starting this summer and continuing next winter with Dr. Hamilton. “I really enjoy all the science classes that I've taken and how what I learn in class and from working in Josh's lab fits together.”

Lauren’s research is part of a larger research project studying the long-term effects of arsenic in drinking water. Her laboratory is looking at the mechanisms involved in the arsenic-induced diabetes, cancer, and heart disease. Specifically Lauren is looking at the glucocorticoid receptor, a hormone receptor protein in the cell membrane of most cells in the body. Glucocorticoid itself is a hormone that, among other things, switches on genes that are expressed to repress cell growth. Lauren’s research team is studying a phenomenon in which it appears that arsenic acts the same way as the glucocorticoid hormone — activating the receptor to initiate growth repression gene expression.

And its implications for humans exposed to arsenic? If arsenic affects the cell repression aspect of the glucocorticoid receptor, it may also affect other mechanisms that the receptor is responsible for and even other aspects of the cell. Other researchers at Dartmouth have shown that arsenic can affect DNA repair for example, which can have implications for cancer. Growth is an easy parameter to measure in the lab, but there are likely to be other things affected simultaneously that researchers are not yet looking at. In fact, some of the research Lauren has been involved in shows that a mutant cell line that was missing the glucocorticoid receptor was still adversely affected with the exposure to both the glucocorticoid hormone and arsenic. This indicates that there are multiple mechanisms by which arsenic can affect the cell aside from simply acting as the glucocorticoid hormone. This summer, Lauren is planning to look at the structure of the glucocorticoid receptor to understand how arsenic binds to it and the mechanisms involved in arsenic reaching the inside of the cell. “I like working in the lab because I'm doing work that hasn't been done before and you don't know where the results are going to lead you.”

This fall after her continued work with Dr. Hamilton, Lauren is taking a leave term and working at New England Baptist Hospital in Boston through Dartmouth’s Partners in Community Service Program. “I'd like to go to graduate or medical school. I'm thinking about applying to an MD/Ph.D. program and I'm interested in endocrinology from the little bit I've learned about the field from my research.”

Bethany Fleishman
CEHS intern