Abstract

Abstract Breast cancer can recur in patients long after treatment for initial disease. The mechanisms underlying recurrence as well as the characteristics of these dormant tumor cells remain poorly understood. AMPK (AMP-activated protein kinase) is the central metabolic regulator of the cell, and has two catalytic isoforms, a1 and α2. The loss of AMPK, more specifically AMPKα2, is observed in primary breast cancer and its expression could function to limit tumor expansion in vivo. We hypothesize that the expression of AMPKα2 will confer a survival advantage in dormant breast cancer cells by upregulating the p38MAPK signaling axis. In order to investigate breast cancer dormancy mechanisms in vitro, we generated mammospheres using the estrogen-dependent MCF-7 human breast cancer cell line, which has low expression of AMPKα2. Control MCF-7 cells expressing GFP and MCF-7 cells overexpressing the AMPKα1 or AMPKα2 isoforms were cultured as mammospheres and exposed to various metabolic stressors including estrogen, glucose, and serum deprivation. Spheroids were evaluated for size, viability, gene expression at the RNA level by qRT-PCR, and intracellular signaling by immunoblot as well as immunohistochemistry. AMPKα2 expressing mammospheres were larger and more viable than either the GFP or AMPKα1 expressing spheres. In addition, these cells were resistant to serum deprivation, and upregulated members of the p38MAPK signaling axis, a key player in tumor dormancy. To evaluate estrogen deprivation-induced dormancy in vivo, MCF-7 cell lines expressing either GFP or AMPKα2 embedded in a matrigel matrix were implanted in athymic nude mice containing supplemental slow-release estradiol pellets. After one week, estradiol pellets were removed to induce a dormant period for roughly thirty days. Evaluation of matrigel plugs at this time indicated that AMPKα2 expressing cells demonstrated significant survival whereas GFP expressing cells were significantly depleted. Estadiol pellets were then re-implanted for five weeks to determine if the AMPKα2 expressing cells still responded to estradiol supplementation.This resulted in the AMPKα2 expressing tumors rapidly expanding to a maximal size as compared to the GFP expressing tumors. Consistent with our findings in vitro using mammosphere cultures, the AMPKα2 expressing cells had higher levels of phospho-p38MAPK than the GFP expressing cells, as seen by immunofluorescence. We conclude that the expression of AMPKα2 promotes both survival and dormancy in estrogen-sensitive breast tumor cells, thus implying a significant role in breast cancer recurrence. Citation Information: Cancer Res 2013;73(24 Suppl): Abstract nr P5-04-15.

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