BOSTON UNIVERSITY BIOMEDICAL ENGINEERS, CHEMISTS COLLABORATE ON NOVEL METHOD

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BOSTON UNIVERSITY BIOMEDICAL ENGINEERS, CHEMISTS COLLABORATE ON NOVEL METHOD
08 March 2005 - Boston University

The ability to select and develop compounds that act on specific cellular targets has just gained a computational ally, a mathematical algorithm that predicts the precise effects a given compound will have on a cell’s molecular components or chemical processes. Using this tool, drug developers can design compounds that will act on only desired gene and protein targets, eliciting therapeutic responses free of unwanted side effects.

The research, which appears in the March 4 issue of Nature Biotechnology, reports on collaborative work by a team of biomedical engineers and chemists at Boston University. The team was led by Tim Gardner, an assistant professor in the College of Engineering’s Department of Biomedical Engineering and its Center for BioDynamics, and James Collins, a professor in BME and co-director of the Center for BioDynamics, and done in collaboration with Scott Schaus and Sean Elliott, assistant professors in BU’s Department of Chemistry and Center for Chemical Methodology and Library Development.

Although drug development is an active field of research, there have been few ways to predict optimal drug design. The molecular targets of many drug candidates are unknown and are often difficult to tease out from among the thousands of gene products found in a typical organism. This “blindness” in the welter of potential cellular targets means that the process of designing therapeutic drugs is neither precise nor efficient.

The BU research team sought to bring precision and efficiency to this discovery process. The team used a combination of computational and experimental methods to build and verify their tool, first using a reverse-engineering approach to decipher the multitude of regulatory networks operating among genes in a simple organism, then testing the ability of the resulting network models to predict gene and pathway targets for a variety of drug treatments. Finally, they used the tool to predict the molecular targets of a potential new anticancer compound, PTSB, shown in CMLD studies to inhibit growth in the test organism (baker’s yeast) as well as in human small lung carcinoma cells.

Their algorithm predicted, and subsequent experiments verified, that PTSB acted on thioredoxin and thioredoxin reductase, findings that not only validate the tool’s capability but could also pave the way to investigations of a potentially new class of therapeutic compounds.

In addition to Gardner, Collins, Schaus, and Elliott, the research team included Diego di Bernardo, an investigator at the Telethon Institute for Genetics and Medicine in Naples, Italy; Michael Thompson, a research associate in BU’s Center for BioDynamics; and BU students Erin Eastwood, a graduate student in chemistry, and Sarah Chobot and Andrew Wojtovich, chemistry undergraduates in the College of Arts and Sciences.

The research was supported by funds from the Department of Energy, the National Institutes of Health, the National Heart, Lung, and Blood Institute’s Proteomics Initiative, the Whitaker Foundation, the National Science Foundation, Boston University, and the Pharmaceutical Research and Manufacturers of America Foundation.

Researchers in the College of Engineering’s Biomedical Engineering Department (http://www.bu.edu/dbin/bme/) apply engineering, computational, and analytical techniques to biological systems from the nanoscale level of DNA to the macroscopic level of organ systems. The Center for BioDynamics is a multidisciplinary, interdepartmental center whose researchers develop and implement techniques from dynamical systems theory to gain insight into the functioning of physiological systems, as well as to improve clinical devices and techniques.

http://www.bu.edu/

About: Boston University
Boston University has a well-deserved reputation for excellence in research in a wide range of disciplines and a demonstrated commitment to fostering innovative interdisciplinary research. The Office of the Associate Provost for Research and Graduate Education supports the University in facilitating research at the both the student and faculty levels.

Our mission is to enhance and encourage research at Boston University and to provide a climate conducive to maintaining the University at the cutting edge of research and scholarly activities.

We work with the Boston University community to plan and coordinate interdisciplinary research and represent the University in research matters related to Inter-University consortia. To encourage new, innovative, and cross-disciplinary efforts, this office administers the Special Program for Research Initiation Grants (SPRInG).

We showcase graduate research at Science & Technology Day. This annual event features nearly 200 research posters by graduate students from both the Medical and Charles River Campuses working in a wide range of disciplines.

Our annual research magazine, Research at Boston University, informs a wide audience about a selection of our significant research findings and ongoing studies at Boston University. We also maintain a strong presence on the web through this site and through the Science Coalition’s website, which brings our research successes to the attention of Congress and other policy makers in the federal government.

To assist Boston University researchers, this office oversees the Undergraduate Research Opportunities Program and coordinates with the Office of Sponsored Programs on the Charles River Campus , the research administration on the Medical Campus, the Office of Research Compliance, and the various graduate programs. For the development of commercially viable ideas, we administer the Provost's Innovation Fund and work closely with the Office of Technology Transfer. We also coordinate proposals where there are institutional limits to the number of proposals that may be submitted, cost sharing requirements, significant laboratory renovations, or other special circumstances.

This office assists departments and centers to achieve a diverse faculty and graduate student body through our membership and activities with the Northeast Alliance for Graduate Education and the Professoriate and through our affiliation with the Clare Boothe Luce program of the Henry Luce Foundation.

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