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Headlines at Hopkins
News Release

Office of News and Information
Johns Hopkins University
3003 N. Charles Street, Suite 100
Baltimore, Maryland 21218-3843
Phone: (410) 516-7160 | Fax (410) 516-5251

May 22, 2001
FOR IMMEDIATE RELEASE
CONTACT: Phil Sneiderman
prs@jhu.edu


Digital Model of Amoeba Helps Scientists
Study Human Cells

Undergraduate Teams with Medical Researchers
to Mimic a Microbe's Behavior

A Johns Hopkins undergraduate has developed a two-dimensional computer model that simulates the inner workings of a tiny amoeba that behaves like a human white blood cell. Her electronic model is aiding biologists who believe these microscopic animals hold the key to creating new treatments for diseases ranging from asthma and psoriasis to cancer.

Jane H. Kim, a senior majoring in biomedical engineering, presented her model at the International Symposium on Computational Cell Biology, held recently in Lenox, Mass. The 22-year-old student, a graduate of Westlake High School in Thousand Oaks, Calif., focused her research on the chain of events that trigger and guide movement in a widely studied organism called Dictyostelium discoideum.

Jane Kim
Photo by Keith Weller

A Dictyostelium is a single-celled organism that lives in the soil and feeds on bacteria, living a solitary life until its food supply is exhausted. When these animals begin to starve, they signal each other and join together to form a new multicellular organism. This process of picking up chemical signals and moving toward the source is called chemotaxis. It closely resembles the way in which human white blood cells track down and destroy bacteria and other pathogens that release a chemical "scent" or trail. Biologists who study Dictyostelium believe that understanding chemotaxis will help them develop new drug therapies for a range of diseases

Kim's collaborators say her chemotaxis simulation represents very advanced research. "I think it is highly unusual for an undergraduate to develop such a complex model," said Chris Janetopoulos, a postdoctoral fellow in the Department of Cell Biology and Anatomy at the Johns Hopkins School of Medicine. "Not only does Jane seem to grasp the biological phenomena, she also has a firm understanding of computer modeling and programming." Janetopoulos has worked with Kim to determine how well her model predicts the behavior of live Dictyostelium in a lab.

Kim, whose studies included a concentration in electrical and computer engineering, developed her model by pursuing a research opportunity offered last year by Pablo Iglesias (pictured at right), a professor in the Department of Electrical and Computer Engineering. Iglesias and Andre Levchenko, a postdoctoral fellow at Cal Tech, had already created a pioneering one-dimensional model of Dictyostelium. Iglesias sought a student to expand upon this research by devising a more detailed two-dimensional version, using a new software called Virtual Cell. "I just jumped at the opportunity," Kim said. She learned how to use the challenging software during an internship last summer at the University of Connecticut Health Center, then returned to Johns Hopkins to work on the project.

Jane Kim and postdoctoral fellow Chris Janetopoulos have begun testing her Dictyostelium computer model in the Johns Hopkins School of Medicine Microscope Facility.
Photo by Keith Weller

Building on the mathematical foundation created by Iglesias and Levchenko, Kim created a two-dimensional model that replicates the chemotaxis process in Dictyostelium. The model, being tested in a lab set up by Peter Devreotes, a professor in the medical school's Department of Biological Chemistry, is designed to save time and money by steering biologists toward the experiments that are most likely to yield useful results. "Although it's still in the developmental phase, Jane's computer model is already beginning to mimic the biological response we see in the cell during chemotaxis," said Janetopoulos. "It is unlikely that it can mirror what we see in the living cell precisely, but one of our goals is to watch the virtual cell respond to a chemical gradient. Then, on the computer, we change the way the components are interacting or add new ones and see what happens. This type of experimentation can help us direct our efforts toward finding certain proteins and analyzing certain pathways more aggressively."

In developing the model, Kim said training her engineering skills on a biology problem was particularly helpful. "A cell can be seen as a microscopic machine," she said. "A biologist may not look at it that way, but an engineer does. We can break it down into equations. A biologist may see the cell as a living organism, but we engineers look at the mathematics behind the science. It makes for a really great collaboration."

Kim, whose mother is a nurse, has long been interested in helping others through medical research and treatment. As a child visiting relatives in Korea, she was involved in a serious car accident that claimed the lives of her grandparents and left Kim hospitalized with injuries. The experience taught her about the importance of prompt and up-to-date medical care, which is often lacking in poor, rural areas. The message was brought home again last summer when she volunteered at a Connecticut health clinic for migrant workers who could not afford regular visits to a physician. "It was an eye-opening experience," she said.

Kim's project was supported by a Johns Hopkins Biomedical Engineering Dean's Research Award and by a National Science Foundation Biocomplexity Award given to Iglesias and Devreotes. Next fall, Kim plans to continue her computational biology research when she enters the M.D./Ph.D. program at the University of Southern California's Keck School of Medicine.

Color images of Jane Kim and Chris Janetopoulos available; contact Phil Sneiderman

Related Web Sites

Prof. Pablo Iglesias' Lab
Prof. Peter Devreotes' Lab
Johns Hopkins Department of Electrical and Computer Engineering
Johns Hopkins Department of Biomedical Engineering
 


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