October 17, 2022
Research led by Dr. Suresh Alahari, Professor of Biochemistry at LSU Health New Orleans’ Schools of Medicine and Graduate Studies, reports a combination of a novel small inhibitory molecule and an FDA-approved chemotherapy drug suppresses the growth of triple-negative breast cancer cells synergistically. The findings are published in the Nature journal, Oncogene, available here.After screening the National Cancer Institute’s Diversity Set IV (a collection of compounds selected for structural diversity and potential anti-tumor efficacy), the research team selected the molecule, NSC33353, as a potential anti-tumor compound against triple-negative breast cancer (TNBC). They tested it on human triple-negative breast cancer cells and found that it significantly suppressed cell proliferation, migration and invasion.
The researchers then turned their attention to using the molecule in combination. Triple-negative breast cancer cells develop resistance to doxorubicin, one of the most effective chemotherapeutic drugs against these tumors. The researchers showed that the combination of NSC33353 and doxorubicin suppresses the growth of TNBC cells synergistically, suggesting that NSC33353 enhances TNBC sensitivity to doxorubicin.More common in younger women, triple-negative breast cancer (TNBC) accounts for 15-20% of breast cancers. It’s called triple-negative because these tumors lack estrogen and progesterone receptors and the human epidermal growth factor receptor 2 (HER2).
“Because the cancer cells don't have these proteins, hormone therapy and drugs that target HER2 are not helpful,” notes Dr. Alahari.Triple-negative breast cancer is aggressive and responds poorly to treatment, so therapy options are very limited.
“The discovery of new drugs will be of immense help for TNBC patients,” says Dr. Alahari. “Our data indicate that the small molecule inhibitor, NSC33353, exhibits anti-tumor activity in TNBC cells and works in a synergistic fashion with a well-known chemotherapeutic agent.”LSU Health New Orleans co-authors also included Hassan Yousefi, Maninder Khosla, Samuel C. Okpechi, Jessie Guidry, and Drs. Lothar Lauterboeck, David Worthylake, Jone Garai, Jovanny Zabaleta, Dorota Wyczechowska, and Qinglin Yang. Mohammad Amin Zarandi and Dr. Janarthanan Jayawickramarajah from Tulane University and Dr. Joseph Kissil from the H. Lee Moffitt Cancer Center also participated in the research.
The project was supported by LSU Health New Orleans School of Medicine and the Fred G. Brazda Foundation.______________________________________________________________________________________________________________ LSU Health Sciences Center New Orleans (LSU Health New Orleans) educates Louisiana's health care professionals. The state's health sciences university leader, LSU Health New Orleans includes a School of Medicine with campuses in Baton Rouge and Lafayette, the state's only School of Dentistry, Louisiana's only public School of Public Health, and Schools of Allied Health Professions, Nursing, and Graduate Studies. LSU Health New Orleans faculty take care of patients in public and private hospitals and clinics throughout the region. In the vanguard of biosciences research, the LSU Health New Orleans research enterprise generates jobs and enormous annual economic impact. LSU Health New Orleans faculty have made lifesaving discoveries and continue to work to prevent, advance treatment or cure disease. To learn more, visit http://www.lsuhsc.edu, http://www.twitter.com/LSUHealthNO, or http://www.facebook.com/LSUHSC.