Research News

UB receives $1.8 million grant to make cancer treatments less toxic

By MARCENE ROBINSON

Published August 10, 2021

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headshot of Joseph Balthasar.
“If successful, our approach may be applied broadly, potentially benefiting large populations of cancer patients, including 1.8 million in the U.S., by making treatments safer and allowing patients to tolerate larger ADC doses. ”
Joseph Balthasar, David and Jane Chu Endowed Chair in Drug Discovery and Development
School of Pharmacy and Pharmaceutical Sciences

Cancer treatments are effective at destroying tumors, but they are also harmful to healthy cells. To reduce unwanted toxicity, UB faculty member Joseph Balthasar has received a $1.8 million grant from the National Cancer Institute to develop a novel strategy that blocks the delivery of anticancer toxins to healthy tissue. 

The five-year study will explore combining antibody-drug conjugates (ADCs) — a class of drugs that targets cancer cells — with payload-binding selectivity enhancers (PBSE), a class of drugs developed in Balthasar’s lab that may prevent the entry of anticancer drug molecules into non-targeted cells.

“Substantial progress in cancer treatment has been made in the past two decades, largely through the development of highly targeted therapies such as ADCs,” says Balthasar, the David and Jane Chu Endowed Chair in Drug Discovery and Development in the School of Pharmacy and Pharmaceutical Sciences.

“Although the use of antibody conjugates to achieve targeted drug delivery has proven to be effective, with 11 anticancer ADCs approved for use in the United States, ADC therapies are often associated with substantial toxicity, narrow therapeutic windows and high failure rates in clinical testing,” says Balthasar, who is also director of the Center for Protein Therapeutics in the pharmacy school.

“Our PBSE agents are designed to increase the safety and therapeutic selectivity of ADC therapy. If successful, our approach may be applied broadly, potentially benefiting large populations of cancer patients, including 1.8 million in the U.S., by making treatments safer and allowing patients to tolerate larger ADC doses.”

Researchers will develop a series of PBSEs, as well as evaluate their ability to prevent ADCs from harming healthy cells by hindering the diffusion of anticancer drug molecules across the plasma membrane of healthy cells without altering the drug’s ability to target tumor cells.

Mathematical models will be used to assist in the selection of optimal PBSE agents and optimal PBSE dosing regimens. Balthasar has submitted patent applications for the novel strategy, and has formed the startup Abceutics Inc. to pursue clinical development of new PBSEs.

Additional investigators in the School of Pharmacy and Pharmaceutical Sciences include Dhaval Shah, associate professor; Marilyn Morris, SUNY Distinguished Professor and chair of the Department of Pharmaceutical Sciences; postdoctoral associate Brandon Bordeau; and doctoral candidates Jue (Joy) Gong and Toan Duc Nguyen. Bruce Molitoris, distinguished professor of medicine at Indiana University, is also an investigator.