Race-specific coregulatory and transcriptomic profiles associated with DNA methylation and androgen receptor in prostate cancer.

Background: Prostate cancer is a significant health concern, particularly among African American (AA) men who exhibit higher incidence and mortality compared to European American (EA) men. Understanding the molecular mechanisms underlying these disparities is imperative for enhancing clinical management and achieving better outcomes.

Methods: Employing a multi-omics approach, we analyzed prostate cancer in both AA and EA men.

Biological differences underlying sex and gender disparities in bladder cancer: current synopsis and future directions.

Sex and gender disparities in bladder cancer have long been a subject of interest to the cancer research community, wherein men have a 4 times higher incidence rate than women, and female patients often present with higher-grade disease and experience worse outcomes. Despite the known differences in disease incidence and clinical outcomes between male and female bladder cancer patients, clinical management remains the same. In this review, we critically analyze studies that report on the biological differences between men and women and evaluate how these differences contribute to sex and gender disparities in bladder cancer.

STAG2 expression is associated with adverse survival outcomes and regulates cell phenotype in muscle-invasive bladder cancer.

STAG2 (Stromal Antigen 2), in healthy somatic cells, functions in sister chromatid cohesion, DNA damage repair, and genome organization, but its role in muscle invasive bladder cancer (MIBC) remains unknown. Here, using whole-exome and targeted sequencing (n=119 bladder cancer clinical samples), we found several STAG2 mutations in MIBC that correlate with loss of protein expression. The analysis of a bladder cancer tissue microarray (n=346) revealed that decreased STAG2 protein expression is associated with improved overall and progression-free survival for MIBC patients.