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Aleksander Popel: halting cancer’s spread

May 15, 2015

Aleksander S. Popel, PhD

Cancer is an invasive and insidious disease. The biochemical mysteries of how it occurs, grows and spreads are areas of intense study in cancer centers and bioscience labs across the world, but engineers also are applying their particular perspectives to understanding and stopping cancer in its tracks.

Aleksander Popel, PhD, a professor of biomedical engineering at the School of Medicine, is one such engineer. As the director of the Systems Biology Laboratory, he studies several processes and pathways of cancer growth and spread.

In one trajectory, he is developing novel peptide-based drugs to halt angiogenesis, the process by which cancer tumors are able to establish new blood vessels necessary for them to thrive. Peptides are short chains of amino acids that mimic the body’s own biochemical mechanisms, in this case to prevent the formation of new capillaries.

Popel and a fellow Hopkins biomedical engineer, Jordan Green, PhD, have formed a company, AsclepiX Therapeutics, to leverage the financial might of venture capital to explore the potential of these drugs.

In another angle of his research, Popel is studying how cancer metastasizes — how it spreads from one bodily system to others.

“Ultimately, metastasis is what kills the patient,” Popel says. “But, if we can disrupt the chemical processes that lead to and enable metastasis, we hope to shut it down.”

Popel is applying his understanding of metastasis to several kinds of cancers, including glioblastomas in the brain and certain aggressive breast cancers. Recently, Popel made headlines when his team identified the metastatic processes by which “triple-negative” breast cancer spreads. This cancer is a particularly invasive one with poor prognosis for the patient.

Using a combination of animal experiments and advanced computer models, Popel and his team identified the chemical signaling channels — the biochemical processes — by which tumors in the breast prepare the soil for metastasis in distant organs.

While simply illuminating the process has proved insightful, Popel, ever the engineer, went one step beyond and is now testing drugs in an effort to disrupt metastasis. The drugs he has chosen are already FDA-approved for treatment of other diseases — a decision that will greatly speed them to market if they prove effective in human trials.

“We are engineers. We see a problem, like cancer, and we want to understand the mechanisms behind the complex microenvironment. Then, we try to find a solution,” Popel says. “It’s challenging work, but it’s very rewarding.”


— Andrew Myers

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