Abstract 2700: ORM-6151: A first-in-class CD33-antibody enabled GSPT1 degrader for AML

Targeted protein degraders (TPDs) have expanded the breadth of therapeutic options through both their catalytic mechanism of action and ability to degrade previously “undruggable” target proteins. Prior reports of small-molecule GSPT1 degraders such as CC-90009 in AML demonstrate potent anti-tumor cytotoxicity, but with a potentially narrow therapeutic index. To increase the efficacy vs. tolerability window of TPDs and improve drug delivery, we introduce TPD-Squared (TPD2 TM), a dual-targeted protein degradation approach of combining the catalytic mechanism of targeted protein degradation with the precision of tumor-targeting therapeutic antibodies. We have previously shown in vitro and in vivo efficacy with a HER2-targeted TPD2 conjugate: ORM-5029. Following on that success, we generated conjugates using a CD33-targeting antibody (OR000283) produced by engineering the FAb (H&L) sequences from gemtuzumab onto an IgG1 Fc with N297A variant to inhibit Fc-γR binding. Medicinal chemistry optimization of linker-payloads led to the identification of ORM-6151, which is composed of SMol006, a highly potent GSPT1 degrader conjugated to OR000283 via a novel β-glucuronide releasable linker. ORM-6151 treatment in CD33-expressing cell lines showed picomolar activity with 10-1000-fold greater potency compared to several GSPT1 degrader molecules, including CC-90009 or Mylotarg, and had robust activity in Mylotarg-resistant lines (AML193 and Kasumi6). ORM-6151 also exhibited picomolar potency in in vitro cytotoxicity to primary relapsed/refractory AML patient blasts, with better potency than CC-90009 and Mylotarg. We evaluated ORM-6151 in several in vivo disseminated xenograft models and observed robust efficacy following a single treatment at doses as low as 0.1 mg/kg. Tumor growth inhibition correlated with the degree and duration of GSPT1 depletion and changes in the expression of previously described integrated stress response biomarker genes. In summary, ORM-6151 is a promising, potential therapy for AML and currently in preclinical development as a first-in-class targeted protein degrader therapy with CD33-targeted delivery. Citation Format: James Palacino, Pedro Lee, Hangyeol Jeong, Yeonjoon Kim, Yoojin Song, Uttapol Permpoon, Wesley Wong, Chen Bai, Nathan Fishkin, Khuloud Takouri, Eunjun Yu, Yong Yi, Anna Skaletskaya, Min-Soo Kim, Da-Yeong Kim, Dong-Ki Choi, Peter U. Park. ORM-6151: A first-in-class CD33-antibody enabled GSPT1 degrader for AML [abstract]. In: Proc