Abstract 3256: Novel SOX2-targeting bioPROTACs for the treatment of cancers

Abstract

Abstract Targeted protein degradation (TPD) technology has been developed showing the therapeutic potential to modulate historically ‘undruggable’ disease-associated proteins. Currently, proteolysis targeting chimeras (PROTACs) using small-molecule binders represent the TPD field, and PROTAC-induced proximity between target proteins and E3 ligases enables specific degradation of target proteins. However, substantial amounts of clinically relevant cancer targets such as transcription factors lack active sites or allosteric binding pockets for small molecules which challenges the development of classical PROTACs for these targets. SOX2 is one of the pluripotency transcription factors and has been well-known for its crucial role in tumor development through promoting cancer cell survival, metastasis, stemness, and drug resistance. Numerous studies have also reported SOX2 amplification and overexpression in various tumor tissues. Thus, SOX2 has been validated as an attractive anticancer target, but directly targeting SOX2 has been proved to be difficult since SOX2 is an “undruggable” transcription factor. EPD Biotherapeutics develops EPDegTM, a next-generation engineered protein degrader platform in order to overcome the limitations of small molecule-based PROTAC. Here we report a series of SOX2-targeting bioPROTACs, being composed of a nanobody against SOX2 with high affinity and several ubiquitin E3 ligases with deletion of natural substrate binding domain to allow highly selective degradation of SOX2 protein. To evaluate the in vitro efficacy, SOX2 bioPROTACs were generated by mRNA IVT with CleanCap ® and modified uridine. First, robust degradation of SOX2 with a half-maximal degradation concentration (DC50) of the picomolar range was observed with the treatment of SOX2 bioPROTACs in multiple SOX2-overexpressing cancer cell lines. The degradation was ubiquitin- and proteosome-dependent manner, and neither nanobody nor ubiquitin E3 ligase alone affected SOX2 protein level. Then, SOX2 bioPROTACs led to significant cancer cell growth inhibition caused by apoptotic cell death with a half-maximal growth inhibition concentration (GI50) of the picomolar range. Notably, chemo-resistant cancer cell lines expressing SOX2 protein in high levels were sensitized to chemotherapy in combination with our SOX2 bioPROTACs. Furthermore, i.v. injection of one of our lead candidates formulated with LNP significantly inhibited tumor growth in the A549 xenograft model, proving the in vivo anti-tumor efficacy of SOX2 degraders for the first time in the world. Taken together, EPD’s SOX2 bioPROTACs show potent in vitro and in vivo anti-tumor efficacy as first-in-class SOX2 degraders and provide new insights for the therapeutic potential of transcription factor-degrading strategies. Citation Format: Jaehyun Choi, Saeyi Lim, Xuelian Bai, Hyerin Song, Yeonji Oh, Yeryoung Yong, Seunghyun Lee. Novel SOX2-targeting bioPROTACs for the treatment of cancers [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 3256.