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Posted: August 24, 2010
Michael Roukes, Pamela Bjorkman recognized for their 'highly innovative approaches' to biomedical research
(Nanowerk News) Two scientists from the California Institute of Technology (Caltech) have been recognized by the National Institutes of Health (NIH) for their innovative and high-impact biomedical research programs.
Pamela Bjorkman, Caltech's Max Delbrück Professor of Biology and a Howard Hughes Medical Institute investigator, now join the 81 Pioneers—including Caltech researchers Rob Phillips and Bruce Hay—who have been selected since the program's inception in 2004.
Michael Roukes, left; Pamela Bjorkman, right
"NIH is pleased to be supporting scientists from across the country who are taking considered risks in a wide range of areas in order to accelerate research," said NIH Director Francis S. Collins in announcing the awards. "We look forward to the result of their work."
According to its website, the program provides each investigator chosen with up to $500,000 in direct costs each year for five years to pursue what the NIH refers to as "high-risk research," and was created to "support individual scientists of exceptional creativity who propose pioneering—and possibly transforming—approaches to major challenges in biomedical and behavioral research."
For Roukes, that means using "nanoscale tools to push biomedical frontiers." Specifically, he plans to leverage advances in nanosystems technology, "an approach that coordinates vast numbers of individual nanodevices into a coherent whole," he explains.
The goal? To create tiny "chips" that can be used to rapidly identify which specific bacteria are plaguing an individual patient—quickly, at the patient's bedside, and without the need for culturing. Similar chips, he says, will be capable of "obtaining physiological 'fingerprints' from exhaled breath" for use in disease diagnostics.
Roukes says the chips will also provide new approaches to cancer research through the analysis of cell mechanics and motility, and will provide less-costly ways to screen libraries of therapeutic drug candidates. Roukes's highly collaborative efforts are aimed at jump-starting what he calls a "nanobiotech incubator" at Caltech.
Roukes received his PhD in physics in 1985 from Cornell University. He has been at Caltech since 1992, and was named founding director of the Kavli Nanoscience Institute in 2004.
Bjorkman's Pioneer project will focus on ways to improve the human immune response to HIV. "HIV/AIDS remains one of the most important current threats to global public health," she says. "Although humans can mount effective immune responses using antibodies against many other viruses, the antibody response to HIV in infected individuals is generally ineffective."
This, she believes, is the result of the "unusually low number and low density of spikes" on the surface membrane of the virus. Antibodies have two identical "arms" with which to attach to a virus or bacterium. In most cases, the density of spikes on a pathogen's surface is high enough that these arms can simultaneously attach to neighboring spikes. Not so with HIV; because its spikes are so few and far between, antibodies tend to bind with only one arm attaching to a single spike. Such binding is weak, says Bjorkman, "much like if you were hanging from a bar with only one arm," and is easily eliminated by viral mutations.
That is why Bjorkman is proposing "a new methodology, designed to screen for and produce novel anti-HIV binding proteins that can bind simultaneously to all three monomers in an HIV spike trimer." A trimer is a protein made of three identical macromolecules; if an antibody can bind to all three proteins at one time, it will "interact very tightly and render the low spike density of HIV and its high mutation rate irrelevant to effective neutralization," Bjorkman explains.
Bjorkman received her PhD in biochemistry and molecular biology in 1984 from Harvard University. She has been at Caltech since 1989, and was named the Delbrück Professor in 2004.