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| Ajay Singh, Ph.D, professor of pathology, is principal investigator of the project. |
According to the Centers for Disease Control and Prevention, cancer of the prostate is the second most common malignancy in American men. Black men are 70% to 80% more likely to develop prostate cancer than white men and are twice more likely to die because of the disease. Importantly, poor clinical outcomes in Black patients are noted at every stage of the cancer continuum.
The prostate gland’s growth and function are highly dependent on the male hormones collectively referred to as androgens. Androgens promote the growth of both healthy and cancerous prostate cells by binding to and activating the androgen receptor, a protein that is expressed in prostate cells. Reducing androgen levels via androgen-deprivation therapy, or castration therapy, is the primary treatment option for advanced and metastatic prostate cancer. However, the cancer comes back in most patients due to abnormal reactivation of the androgen receptor.
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| Mohammad Aslam Khan, Ph.D., is lead author of the study. |
“Even prostate cancer thought to be slow growing and less lethal based on morphological features and other available markers can be deadlier in Black men,” said Singh, who is also a professor of pathology at the Whiddon College of Medicine. “Thus, there remains a need for more reliable biomarkers to make better risk predictions and treatment decisions for the survival of all prostate cancer patients and reduce the disparity gaps.”
MYB is a proto-oncogene encoding for a transcription factor that helps turn specific genes “on” or “off” by binding to nearby regulatory DNA sequences. MYB is involved in the regulation of several cancer-associated genes that promote tumor cell aggressiveness and helps them adapt to constantly changing environmental conditions.
“In an earlier study, we showed that MYB not only makes prostate cancer cells more aggressive but also plays a significant role in failure of castration therapy, leading to its recurrence,” said Mohammad Aslam Khan, Ph.D., lead author of the iScience article. Formerly a senior research associate at the Mitchell Cancer Institute, Khan recently accepted a position at St. Jude Children’s Research Hospital.
Since Black men experience higher incidence and mortality of prostate cancer than white men, in this study, the researchers examined if MYB was differentially expressed in prostate tumors from patients of these racial backgrounds. “Our research shows that MYB expression increases progressively in malignant prostate cells as it gains more aggressive features,” Khan said. “We also found that prostate tumors in Black men have a higher abundance of this protein even in some low-grade cancers.”
Singh said the data suggests that MYB is a better predictor of prostate cancer recurrence than existing morphologic and molecular prognostic markers, such as serum levels of prostate-specific antigen (PSA) at the time of diagnosis and Gleason scores.
“Thus, MYB can be exploited as a biomarker to distinguish between indolent and aggressive disease and help in making better treatment decisions,” he said. “Our data also pushes for developing newer therapies and prevention strategies that either target MYB directly or the mechanisms that control its overexpression in prostate cancer in the first place.”
The next step, Singh said, would be to initiate a multi-center study in larger cohorts of prostate cancer patients.
Additional authors of the study from the Mitchell Cancer Institute and the University of South Alabama include Srijan Acharya, Ph.D.; Shashi Anand, Ph.D.; Fnu Sameeta, Ph.D.; Paramahansa Pramanik, Ph.D.; Christopher Keel, D.O.; Seema Singh, Ph.D.; James Elliot Carter, M.D.; and Santanu Dasgupta, Ph.D.
Read the full article in iScience: “MYB exhibits racially disparate expression, clinicopathologic association, and predictive potential for biochemical recurrence in prostate cancer.”
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