SAT019 Ligand-independent Signaling And Migration Of Breast Cancer Cells Overexpressing Membrane Androgen Receptor, ZIP9

Abstract

Abstract Disclosure: P. Thomas: None. The zinc transporter ZIP9 also functions as a membrane androgen receptor (mAR) that mediates androgen-dependent rapid signaling and pro- or anti-apoptotic, proliferative, and migratory responses in fish, rodent, and human cells. Testosterone activation of ZIP9 in two triple-negative breast cancer cell lines, MDA-MB-468 cells and MDA-MB-231 cells transfected with ZIP9 (231-ZIP9), induces G-protein-dependent second messenger signaling and increases in intracellular free zinc. However, the relative importance of these two signaling pathways in the regulation of pro- and anti-tumorigenic responses in these cell lines is unclear because both androgen signaling and zinc status influence tumorigenesis in breast tissues. The effects of overexpression of ZIP9 on free zinc status, G protein- and zinc-dependent regulation of migration, and migration marker expression in 231-ZIP9 cells in the absence of testosterone were compared to those observed in MDA-MB-231 cells transfected with vector alone (231-vect). Migration and invasion of 231-ZIP9 cells were significantly increased after 24-48 hr culture in serum-free media compared to 231-vect cells which was accompanied by a significant increase in free zinc levels. Treatment of 231-vect cells with a zinc ionophore also increased migration, whereas migration of 231-ZIP9 cells was attenuated by treatment with an intracellular zinc chelator, TPEN. Expression of the migration markers, MYL9 and CYR61, was increased in 231-ZIP9 after 24-48 hr culture, whereas expression of apoptotic markers was decreased compared to 231-vect controls. Proximity Ligation Analysis revealed that ZIP9 is closely associated with a stimulatory G protein (Gs) in 231-ZIP9 cells which is consistent with the finding that treatment with the adenylyl cyclase (AC) stimulator forskolin, further increased migration marker expression and migration compared to vehicle controls, whereas the PKA inhibitor, H-89, attenuated these responses as well as the increase in free zinc concentrations. Knockdown of ZIP9 expression in MDA-MB-468 cells which express relatively high levels of ZIP9 with siRNA decreased cell migration and invasion as well as free zinc levels, confirming a role of unliganded ZIP9 in migration in another breast cancer cell line. Treatment of 231-ZIP9 cells with 100 nM testosterone further stimulated CYR61 and MYL9 expression and cell migration which were blocked by co-treatment with a Gs inhibitor and TPEN. The results indicate that high ZIP9 expression in breast cancer cells causes androgen-independent increased cell migration and invasion which in 231-ZIP9 cells is through Gs/mAC/PKA-mediated increases in intracellular zinc concentrations and upregulation of MYL9 and CYR-61 expression. Furthermore, the results suggest that testosterone-dependent signaling through ZIP9 acts through the same pathways to further enhance signaling and migration. Presentation: Saturday, June 17, 2023