PO.ET02.12 · 实验与分子治疗

Discovery of the RAD51 inhibitor JKYN-1 and characterization of its anticancer activity in preclinical models of non-small cell lung cancer

海报缩略图:Discovery of the RAD51 inhibitor JKYN-1 and characterization of its anticancer activity in preclinical models of non-small cell lung cancer
编号 3098 展板 26 时间 4/20 02:00–05:00 区域 Section 16 主讲 Yifan Yu, BS
分会场 Novel Therapeutics and Drug Targets 2
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作者与单位

Yifan Yu1, Morgan Black2, Nikolina Radulovich1, Peter Ferguson2, James Koropatnick3, Ming Sound Tsao1, Mark D. Vincent3, Geoffrey Liu1, Samir H. Barghout1

1Princess Margaret Cancer Center, Toronto, ON, Canada,2London Health Sciences Center, London, ON, Canada,3Western University, London, ON, Canada

摘要 Abstract

BACKGROUND: RAD51 is a recombinase that plays a central role in homologous recombination-mediated double-strand DNA break repair and is required for the maintenance of genome stability. In addition to this canonical function, RAD51 contributes to the tolerance of replication stress, a phenotype frequently observed in tumor cells, thereby establishing RAD51 as a potential pharmacologic target in multiple malignancies including non-small cell lung cancer (NSCLC). The development of direct small-molecule RAD51 inhibitors has been limited by suboptimal potency and solubility. Here, we report the discovery of JKYN-1, an optimized RAD51 inhibitor, and the characterization of its single-agent and combinatorial antitumor activity in preclinical models of NSCLC. METHODS: Using molecular docking, JKYN-1 was discovered through virtual chemical modifications of the previously reported RAD51 inhibitor IBR120. Target engagement in cells was evaluated by the cellular thermal shift assay (CETSA) and immunoblotting. CellTiter-Glo assay was used to measure cytotoxicity in cell lines and patient-derived organoids (PDOs) of NSCLC after 6-day treatment. RESULTS: JKYN-1 (patent application # CA3204011A1) is a derivative of IBR120, with improved solubility and potency. As assessed by CETSA, JKYN-1 bound to and destabilized RAD51 in H1975. Using immunoblotting, we demonstrated downregulation of RAD51 in response to JKYN-1 treatment in a concentration-dependent manner. Compared to the classical RAD51 inhibitor B02, JKYN-1 demonstrated higher cytotoxicity in A549 and H1975 cell lines with over 50% reduction in the IC 50 values (H1975, 3.2 vs 8.3 μM; A549, 4.9 vs >10 μM). In a panel of 8 EGFR -mutated NSCLC PDOs, JKYN-1 and its more soluble mesylate salt displayed sub-micromolar IC 50 values (0.1-0.88 μM) as opposed to B02 (2.4 to >10 μM). We subsequently evaluated the synergistic potential of JKYN-1 in combination with the EGFR inhibitor osimertinib in osimertinib-resistant models. Combination with JKYN-1 resulted in > 4-fold reduction in the IC 50 of osimertinib in the laboratory-evolved osimertinib-resistant H1975 cells, and > 2-fold reduction in the LPTO357 PDO. Mechanistically, both JKYN-1 and osimertinib induced downregulation of RAD51 in cell lines and PDOs in a concentration-dependent manner as assessed by immunoblotting, explaining in part the synergistic combinatorial activity. CONCLUSIONS: Our data identify JKYN-1 and its mesylate salt as promising RAD51 inhibitors with superior anticancer activity compared to existing inhibitors in preclinical models of NSCLC. Moreover, JKYN-1 can potentially overcome resistance to osimertinib in a subset of NSCLC models.
利益披露 Disclosure
Y. Yu, None.. M. Black, None.. N. Radulovich, None.. P. Ferguson, None. J. Koropatnick, Sarissa Inc Owner. M. S. Tsao, None. M. D. Vincent, Sarissa Inc Owner. G. Liu, None.. S. H. Barghout, None.

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