Newswise — BIRMINGHAM, Ala. – There are five subtypes of breast cancer, and they are distinct diseases with vastly different biologies that drastically alter their progression and responses to treatment. Understanding those differences is the starting point to a more effective, personalized treatment of breast cancer, which strikes more than 230,000 women in the U.S. each year.

A paper by University of Alabama at Birmingham cancer researcher Eddy S. Yang, M.D., Ph.D., and colleagues has found that a significant portion of one of the subtypes — called HER2-enriched or HER2+ — has elevated expression of two proteins called PARP1 and phospho-p65. This basic biology finding paves the way for a future human clinical trial to see if drugs called PARP inhibitors can better treat women who develop HER2+ breast cancer, a cancer with a fairly poor prognosis.

These PARP inhibitors have already generated excitement in clinical studies as possible therapies for a different subtype of cancer in which the DNA repair pathway in cells is defective due to a BRCA1 or BRCA2 mutation, says Yang, an associate professor in the Department of Radiation Oncology and a scientist the UAB Comprehensive Cancer Center.

In 2012, UAB cancer researchers extended the potential application of these drugs when they discovered that HER2+ cancer cells were susceptible to PARP inhibitors, even though they have intact DNA repair pathways.

In the current research, published online in the journal Breast Cancer Research and Treatment, the UAB group tested breast cancer tissue from 307 patients who had either HER2+, basal or luminal breast cancer. They found that HER2+ tumors had higher levels of PARP1 and phospho-p65 compared to HER2– tumors. They also found that PARP1 and phospho-p65 are coordinately expressed.

These high PARP1 levels may explain the 2012 finding of sensitivity of HER2+ cells to PARP inhibitors. High phospho-p65 is a marker for increased activity of NF-kB signaling, which appears to correlate with tumor aggressiveness.

“Whether elevated PARP1 and phospho-p65 levels can serve as a potential marker of PARP inhibitor sensitivity should be tested in future clinical trials,” the authors concluded.

Further details:PARP stands for a DNA repair enzyme called poly (ADP-ribose) polymerase, and NF-kB is a protein complex called “nuclear factor kappa-light-chain-enhancer of activated B cells” that controls transcription of DNA. Aberrant regulation of NF-kB appears to play roles in cancer, autoimmune diseases, viral infections and septic shock.

In the paper, the researchers obtained preliminary evidence through a cBioPortal analysis of the PAM50-defined subtype patient gene sets from The Cancer Genome Atlas, an NIH research program to characterize the genomic underpinnings of dozens of cancers. They then extended that preliminary finding by studying 307 breast cancer tissue samples that came from cancer patients diagnosed at UAB between 1999 and 2012, and from the Minority Biospecimen/Biobanking Geographic Management Program, Region 3 consortium, which is part of a systematic NIH effort to further collaboration among cancer health disparities researchers.

Besides finding the higher PARP1 levels in HER2+ subtype breast cancer tissues, the paper confirmed data previously reported by others of elevated PARP1 levels in basal subtype breast cancers.

Several PARP inhibitors from different companies are in clinical trials, Yang says. One PARP inhibitor called olaparib or Lynparza is FDA-approved for advanced ovarian cancer patients who have a BRCA mutation and have failed several lines of chemotherapy.

Co-authors of the paper, “PARP1 and phospho-p65 protein expression is increased in HER2-positive breast cancers,” all from the UAB School of Medicine, are Jennifer Stanley, Lisa Klepczyk, M.D., Kimberly Keene, M.D., and Monica Wielgos of the Department of Radiation Oncology; Shi Wei, M.D., Ph.D., William Grizzle, M.D., Ph.D., and Jason Brazelton, M.D., of the Department of Pathology; Yufeng Li, Ph.D., of the Division of Preventive Medicine; Andres Forero, M.D., of the Division of Hematology and Oncology; and Albert F. LoBuglio, M.D., of the Department of Medicine. LoBuglio was director of the UAB Comprehensive Cancer Center from 1983 to 2004.

About UABKnown for its innovative and interdisciplinary approach to education at both the graduate and undergraduate levels, the University of Alabama at Birmingham is an internationally renowned research university and academic medical center and the state of Alabama’s largest employer, with some 23,000 employees and an economic impact exceeding $5 billion annually on the state. The five pillars of UAB’s mission include education, research, patient care, community service and economic development. UAB: Knowledge that will change your world. Learn more at www.uab.edu.

EDITOR’S NOTE: The University of Alabama at Birmingham is a separate, independent institution from the University of Alabama, which is located in Tuscaloosa. Please use University of Alabama at Birmingham on first reference and UAB on all subsequent references.

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