麻豆淫院

Biomedical innovation in the fast lane

Researchers aim for speedier techniques to analyze cellular processes.

Traditionally it has taken decades to understand how particular drugs affect an organism鈥檚 biological system.

A project funded by the U.S. Department of Defense鈥檚 Advanced Research Projects Agency (DARPA) and underway at CU-Boulder has the potential to significantly change that.

鈥淥ur goal is to rapidly speed up this process, identifying how the compounds work in just weeks. This could lower the barriers to developing effective drugs that have minimal side effects,鈥� said Assistant Professor William Old of the Department of Molecular, Cellular and Developmental Biology (MCDB).

The project, Subcellular Pan-Omics for Advanced Rapid Threat Assessment (SPARTA), targets the development of a new technological system to rapidly determine how drugs or biological or chemical agents exert their effects on human cells. And while the project was designed to help prevent or reduce mortality during possible armed conflicts, the larger goal is to develop new techniques to analyze cellular processes for a variety of applications, including biomedicine.

Old is the principal investigator on a cooperative agreement expected to be worth roughly $14 million to CU-Boulder over five years.

The team is well-armed with the latest technology to do the job: it has been building and integrating complex instrument platforms to perform molecular analysis since the DARPA cooperative agreement was signed in January 2014. Key instruments CU-Boulder is using for SPARTA include mass spectrometers that can be used to identify and measure the molecular components of cells at unprecedented scales.

The team is also developing microfluidic devices to automate sample preparation and control and manipulate individual cell components in order to investigate how RNA, DNA and protein molecules change in response to a given drug or toxin. As part of the SPARTA project, a group of nine CU-Boulder engineering undergraduates led by mechanical engineering Professor Y.C. Lee designed, built and tested a microfluidic device during a year-long senior design class.

Because of the quality, accuracy and novelty of the small, student-built device鈥攁 chip roughly 3 inches by 1.5 inches鈥攖he university plans to apply for a U.S. patent on the new technology, according to Old.

鈥淲e believe the technology developed under the DARPA agreement will go far beyond military and commercial applications,鈥� said SPARTA program manager Emina Begovic. 鈥淲e envision powerful applications of these new tools in a biomedical setting. Understanding how cells are affected by bacterial infection, for example, could lead to the development of new treatments.鈥�

Other SPARTA team members include Associate Professor Michael Stowell of MCDB and Professors Natalie Ahn and Xuedong Liu of the Department of Chemistry & Biochemistry. The team also includes Associate Professor Nichole Reisdorph of the University of Colorado Anschutz Medical Campus.

In addition to developing breakthrough technologies for national security, DARPA has developed a number of technologies used by civilians, including the Internet, automated voice-recognition systems, high-tech prosthetic devices and neurological therapies.听