Abstract 2006: Targeting AXL kinase with TP-0903 successfully reverses the mesenchymal phenotype and extends survival in preclinical models of advanced ovarian cancer

Epithelial-to-mesenchymal transition (EMT) is a critical step in the progression of ovarian cancer (OVCA), which drives local invasion, metastasis and drug resistance leading to poor survival. AXL, a receptor tyrosine kinase, functions as a molecular driver of EMT in multiple cancers, including OVCA. The high mortality of this tumor is explained by the fact that the majority (75%) of patients present at an advanced stage, with widely metastatic disease within the peritoneal cavity often associated with ascites. The extent of ascites is a prognostic factor for survival, impacts quality of life, and correlates with the EMT phenotype. Approaches to block or reverse EMT are needed to improve the prognosis of OVCA patients, particularly those with refractory or early relapse (5 μM), yet sensitive to TP-0903 (210 nM). Baseline phospho-AXL (Y702) was exceptionally high in Kuramochi cells and TP-0903 inhibited this phosphorylation at concentrations as low as 100 nM. TP-0903 reversed EMT in OVCA cells as evident by the down-regulation of mesenchymal markers including Snail and Slug. Consistent with the reversal of the EMT, TP-0903 inhibited the migration of ES-2 OVCA cells in a scratch assay. TP-0903 suppressed ascites development in preclinical models of OVCA and inhibited metastatic intraperitoneal tumor dissemination. Treatment suppressed ascites development (ascites volume, vehicle: 3.34 mL, TP-0903: 0.28 mL; abdominal circumference, vehicle: 7.96 cm (day 15), TP-0903: 6.82 cm (day 15), p