Abstract A39: A role for src kinase in estrogen receptor-positive breast cancer

Abstract

Abstract Estrogen (E2) stimulation promotes proliferation in estrogen receptor-positive (ER+) breast cancer, which accounts for 60-75% of all breast cancer. E2 signals through the ER via three pathways: the classical genomic pathway involving transcriptional activation of the ER, crosstalk between ER and other transcription factors, and “non-genomic” signaling cascades, which do not involve the transcriptional activity of the ER. This “non-genomic” pathway likely involves Src family kinases (SFKs) and has been implicated in cell cycle progression in fibroblasts engineered to express the ER (Castoria 1999). While not typically amplified or mutationally activated in ER+ breast cancer, Src is hyperactive in most breast cancers. To test whether SFK activity is required for G1/S cell cycle progression in breast cancer cells, we pretreated quiescent ER+ MCF7 or ZR75-1 cells with a selective SFK inhibitor (SU11333) prior to stimulation with E2. Inhibition of SFK activity blocked progression from G1 to S phase. Previous data from our laboratory has demonstrated that G1/S progression in response to peptide growth factor stimulation of quiescent fibroblasts is dependent upon SFK-mediated stabilization of myc mRNA (Bromann 2005). We therefore tested whether SFK activity also regulates myc expression in breast cancer cells. Our data suggest that SFK activity is required for accumulation of myc mRNA in quiescent MCF7s after E2 stimulation, and that E2 stimulated stabilization of myc mRNA is dependent on SFK activity. We are currently investigating the mechanism involved in stabilizing myc mRNA levels.