Abstract 1237: Preclinical evaluation of ERX-41 in triple negative breast cancer

Background: Women with triple-negative breast cancer (TNBC) have a more aggressive clinical course, with a higher propensity to metastasize and a worse outcome due to a lack of effective therapies and significant intratumoral and intertumoral heterogeneity. Development of novel therapeutic strategies represents a clear unmet need. We have developed a first-in-class compound, an oligobenzamide, ERX-41, that has anti-proliferative activity against all six molecular subtypes of TNBC. Methods: In vitro activity of ERX-41 on TNBC cell lines was tested using CellTiter glo, MTT, and apoptosis assays. Efficacy of ERX-41 was tested using TNBC patient derived explants (PDEs) ex vivo, cell line-derived xenografts (CDXs), and patient derived xenografts (PDX) in vivo. To examine the mechanism, we conducted mass spec analyses using total lysates of TNBC cells treated with vehicle or ERX-41. Results: ERX-41 demonstrated potent activity in both blocking proliferation and inducing apoptosis in 30 distinct cell line models of TNBC, (representing all six molecular subtypes of TNBC), with an IC50 that ranges from 50-250nM. Incubation of ERX-41 with PDEs from primary TNBC patient tumors ex vivo caused a significant reduction in proliferation indices, as measured by Ki67 staining. ERX-41 also decreased proliferation and increased apoptosis in explants from TNBC CDX and PDX tumors cultured ex vivo. Oral administration of ERX-41 (10 mg/kg/daily) was shown to be non-toxic and dramatically limited the growth of CDX tumors derived from MDA-MB-231, SUM-159 or D2A1 syngeneic tumors. Importantly, ERX-41 treatment also significantly reduced tumor progression in four TNBC PDX (PDX-1, PDX-89, PDX-96 and PDX-98) models compared to the vehicle treated control group. Our ultrastructural and molecular studies indicate that ERX-41 induces significant endoplasmic reticulum (ER) stress within TNBC cells but not in primary epithelial cells. Global mass spectrometry studies indicated that ERX-41 treatment resulted in the alteration [down regulation (265 proteins) or upregulation (218 proteins)] of 483 proteins out of ~4000 proteins quantified with two or more peptides. Reactome pathway analysis indicated that the top pathways modulated by ERX-41 included Intra-Golgi and retrograde Golgi-to-ER traffic, membrane trafficking and TP53 mediated apoptosis. ER stress induced by ERX-41 blocks de novo protein synthesis, and triggers ER-assisted degradation (ERAD) pathways, causing TNBC apoptotic cell death