Abstract
Abstract Prostate Cancer (PCa) is the second leading cause of cancer death in American men and African Americans are twice as likely to get PCa as their Caucasian counterparts. As with most forms of cancer, PCa patients’ mortality is mainly attributed to complications caused by metastasis of the disease to organs critical for survival such as bone. As such, it is important to understand cancer-bone microenvironment interactions in order to develop therapeutics that will slow or halt the process of cancer metastasis. It is also known that African Americans have a higher bone mineral density compared to any other race. Snail1 is a zinc-finger transcription factor that induces epithelial-mesenchymal transition (EMT) which is associated with cell migration and metastasis in cancer cells. In preliminary studies, cancer cells co-cultured with bovine bone discs led to increased calcium release that was higher in cancer cells overexpressing Snail, as well as in bone discs of higher density. We hypothesized that cancer cell-bone interactions would promote higher calcium release from bone by cancer cells overexpressing Snail, which would lead to increased paracrine cell migration. For this study, we utilized prostate (ARCaP) or breast (MCF-7) cancer cells stably overexpressing Snail as well as prostate (C4-2) cancer cells with stable Snail knockdown. Cancer cells were co-cultured with bovine bone disc or Hydroxyapatite (HA; inorganic component of bone) of different densities to represent the African American vs Caucasian bone ratio. The conditioned media was then used for to assay calcium levels, test paracrine cell viability and migration assays using C4-2 parental cells. We observed that calcium levels were elevated in conditioned media from cancer cell-bone co-cultures, compared to media alone or media plus bone, and this could be antagonized by EGTA, a calcium chelator. It was increased with higher bone density as well as with bone co-cultured with MCF-7-Snail, ARCaP-Snail and C4-2 cancer cells as compared to MCF-7 Neo, ARCaP-Neo or C4-2 with Snail knockdown. When we utilized the conditioned media for a paracrine cell viability assay, there was no significant differences. However, C4-2 cancer-bone co-culture conditioned media increased paracrine cell migration which was decreased by Snail knockdown as well as lower bone density. Hence Snail expressing PCa cells co-cultured with HA led to increased paracrine cell migration. We are currently studying the signaling mechanism(s) involved in this cancer-bone interactions. In conclusion, our study shows that Snail can mediate cancer-bone microenvironment interactions that can possibly promote increased cell migration towards bone of high mineral density such as is found in African Americans. GRANT SUPPORT: 1P20MD002285 Citation Format: Veronica M. Henderson, Liza J. Burton, Simone M. Howard, Valerie A. Odero-Marah. Role of snail in cancer-bone microenvironment interactions. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 1692.
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