Abstract 963: Ovarian-dependent SSM2ucd mouse mammary carcinoma cells depend on Cyp3a11 epoxygenase activity for proliferation

Introduction: Silencing of the human cytochrome P450 (CYP) monooxygenase enzyme CYP3A4 in the ER+ MCF-7 tumor cell line inhibits tumor growth in the mammary fat pad, but the relative roles of tumor cell intrinsic CYPs vs. vascular/microenvironment CYPs remain to be determined and a syngeneic animal model is needed to answer this question. The SSM2ucd ovarian dependent mouse mammary carcinoma cell line forms a transplantable estrogen-receptor positive (ER+) mouse mammary tumor in which growth dependence on cell intrinsic CYPs may be tested in vitro and in vivo. The SSM2ucd cell line is derived from 129SvJ: homozygous Stat1-null female mice, which develop ER+ mammary tumors (1,2). Expression profiling of spontaneously arising mouse mammary carcinomas in a TP53 KO model revealed that the CYP3A4 ortholog Cyp3a11 is up-regulated in these tumors. Methods: Cyp3a11 bactosomes were used to assay for NADPH dependent biosynthesis of EETs from arachidonic acid using an LC-MS/MS method. siRNA silencing and CRISPR/Cas9 knock out of the Cyp3a11 exons 2 and 3 was performed and the cell lines were characterized for EET dependence using an MTT assay. The highly potent inhibitor and chemical probe of CYP epoxygenase activity, hexyl-benzyl-biguanide (HBB), was used to test dependence of SSM2ucd cells on CYP epoxygenase activity. Total cellular EETs in SSM2ucd cells exposed to HBB at the IC50were measured by the LC-MS/MS method. Results: Cyp3a11 was shown to have robust NADPH dependent epoxygenase activity, while SSM2ucd cells were EET dependent for growth. Silencing of Cyp3a11 was demonstrated to inhibit proliferation of the SSM2ucd cell line, which was partly abrogated by EETs. CRISPR/Cas9 knock out of the Cyp3a11 in the SSM2ucd cell line was performed and exon 2 and exon 3 deleted cell lines were derived. SSM2ucd Cyp3a11 knock out cell lines were more sensitive to EET-induced proliferation under serum free condition than control lines. HBB potently inhibits the SSM2ucd cell line in vitro (IC50=25 uM) and reduces total cellular EET levels in this cell line at IC50. These results suggest that we may see inhibitory activity of HBB in a syngeneic 129/SvJ tumor transplantation model. Conclusions: The Cyp3a11 gene can be silenced in the SSM2ucd cell line, without disrupting cell viability, allowing further study of the roles of EETs in mouse mammary carcinoma proliferation, survival and clonogenicity. The Cyp3a11 gene has been knocked out in the SSM2 ucd cell line, allowing in vi