Abstract
Advanced glycation end-products (AGEs), are reactive metabolites produced endogenously as a consequence of glucose uptake during glycolysis. AGEs accumulate in tissues and organs as we grow older to promote multiple chronic disease phenotypes. AGE pathogenic effects are mediated through modification of protein function, genetic fidelity, stress responses and cellular signaling pathways. Critically, cancer disparity factors such as a sedentary lifestyle, obesity and an unhealthy diet are external influences that also contribute to the AGE accumulation pool in the body. This research group examined circulating and tumor AGE levels in clinical specimens of prostate cancer and identified a race specific, tumor-dependent pattern of accumulation. AGE levels were highest in aggressive tumors, especially those from men with African ancestry. Increased AGE levels correlated with an upregulation in the receptor for advanced glycation end products (RAGE) and activated NFkB. In a syngeneic subcutaneous prostate cancer mouse model, chronic consumption of AGE resulted in a 3-fold increase in tumor growth. Strikingly, dietary-AGE mediated increases in tumor growth were accompanied by a cytoplasmic accumulation of AR, elevation in MYC, RAGE, and AGE as well as increased cell proliferation. Cytoplasmic accumulation of AR is elevated in CRPC tissue and is an independent predictor of biochemical recurrence. Our data show that treatment of prostate cancer cells with AGEs induces a neuroendocrine differentiated phenotype by promoting a more mesenchymal morphology and increasing the expression of associated marker genes including ENO2, MYC and SYP and the prostate cancer stem cell marker CD44 as well as the downregulation of AR. The aberrant activation and recruitment of immune cells is a major pathogenic consequence of AGE accumulation, and a series of studies have highlighted the tumor-associated immune response as a critical pathway contributing to cancer disparity. Using patient-derived primary tumor cells, the investigators found that AGEs released into the extracellular matrix may recapitulate the tumor-associated immune response observed in ancestry-specific prostate tumor tissues. Further preliminary studies indicate that AGE treatment of prostate cancer cells can alter how cancer cells metabolize glucose to promote an aggressive phenotype. The investigators' studies support the concept that AGE metabolites represent a biologic consequence of the socioeconomic and environmental factors that promote cancer health disparity. As our understanding of tumor biology advances, it is becoming increasingly clear that these inter-related lifestyle factors have distinct molecular consequences on the biologic makeup of tumors, altering cell signaling events and gene expression profiles to contribute to cancer disparity outcomes such as its earlier development or its progression to more aggressive disease.
Citation Format: Pamela Woods, Bradley A. Krisanits, Dion Foster, Lourdes M. Nogueira, Laura Spruill, Marvella E. Ford, Michael B. Lilly, Victoria J. Findlay, David P. Turner. Advanced glycation end products promote prostate tumor growth and are a potential biologic consequence of lifestyle factors contributing to cancer disparity [abstract]. In: Proceedings of the Eleventh AACR Conference on the Science of Cancer Health Disparities in Racial/Ethnic Minorities and the Medically Underserved; 2018 Nov 2-5; New Orleans, LA. Philadelphia (PA): AACR; Cancer Epidemiol Biomarkers Prev 2020;29(6 Suppl):Abstract nr B047.