Abstract

Abstract Triple negative breast cancer (TNBC) is the most aggressive breast cancer subtype. It accounts for ~15% of all breast cancer patients yet is responsible for 30% of breast cancer deaths. TNBC is treated primarily with conventional chemotherapy; however, resistance to therapy is common, leading to high mortality rates. Importantly, the benefit of current therapeutic strategies used in chemoresistant TNBC, i.e., immunotherapy and antibody-drug conjugates, is confined to only a fraction of patients, and survival benefit is limited. Therefore, there is an urgent need to identify novel and effective treatment strategies to overcome chemoresistance. Recently, we identified hypoxia-induced ECM re-modeler, lysyl oxidase (LOX), a member of LOX family, as a key mediator of chemoresistance in TNBC. However, currently available LOX inhibitors are either non-selective and/or show toxicity. Here, we performed a high-throughput cell-based LOX activity screen (HTS) with more than 5,000 molecules selected from a diversified compound library and identified the bi-thiazole derivatives as novel potent LOX inhibitors. Our structure activity relationship (SAR) analysis resulted in two lead compounds 6403, a relatively LOX-specific inhibitor, and 6415, a more LOX/LOXL2 inhibitor. Both compounds reduced collagen cross-linking (canonical function of LOX) and led to chemosensitization in TNBC cell lines and in chemoresistant TNBC PDX organoids. In addition, 6403 and 6415 reduced the TGF-beta induced fibrosis and inhibited migration capacity of the breast cancer cell lines. Importantly, 6403 showed excellent pharmacokinetic profile and did not lead to any observable toxicity in mice. Notably, 6403 overcame doxorubicin resistance in LOX-expressing 4T1 syngeneic model with no apparent toxicity. Furthermore, our novel LOX and LOX/LOXL2 dual inhibitors show superior inhibition of LOX activity compared to the recently developed and clinically tested LOX family or LOXL2/LOXL3 inhibitors. Overall, we identified novel potent LOX inhibitors with no observable toxicity for further preclinical development and future clinical testing to overcome chemoresistance in TNBC. Citation Format: Metin Cetin, Ozge Saatci, Ozge Akbulut, Chad Beneker, Abdol-Hossein Rezaeian, Mikhail Chernov, Campbell McInnes, Ozgur Sahin. Developing novel lysyl oxidase (LOX) inhibitors to overcome chemotherapy resistance in triple negative breast cancer [abstract]. In: Proceedings of the 2022 San Antonio Breast Cancer Symposium; 2022 Dec 6-10; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2023;83(5 Suppl):Abstract nr P6-10-18.

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