CTNI-48. TRIAL UPDATE -RESULTS OF A PHASE I WINDOW OF OPPORTUNITY TRIAL EVALUATING A FIRST-IN-CLASS CD29 INHIBITOR, OS2966, IN RECURRENT HIGH-GRADE GLIOMA

Abstract

Abstract BACKGROUND OS2966 is a first-in-class, humanized, and deimmunized anti-CD29 (β1integrin) monoclonal antibody. CD29 is a mechanosignaling receptor prominently upregulated in glioblastoma. Preclinical studies in mice and non-human primates have demonstrated safety and encouraging efficacy. A phase I clinical trial was therefore initiated to evaluate the safety and feasibility of delivering OS2966 directly to the site of disease via convection-enhanced delivery (CED) in recurrent high-grade glioma patients. METHODS This study employs a 2-part design: In part 1, patients undergo stereotactic tumor biopsy followed by placement of a CED catheter(s) for delivery of OS2966 to the bulk contrast-enhancing tumor. Subsequently, in part 2, patients undergo a clinically-indicated tumor resection followed by placement of CED catheter(s) and delivery of OS2966 to the surrounding tumor-infiltrated brain. Co-convection of gadolinium enables real-time monitoring of therapeutic delivery. A concentration-based accelerated titration design is utilized for dose escalation. Given availability of pre and post-infusion samples, pharmacodynamic data will be analyzed to explore mechanism of action of OS2966. RESULTS Four patients have completed treatment in both study parts. No dose-limiting toxicity or adverse events related to treatment with OS2966 or CED catheter placement have been reported at the first 3 dose levels (ie, doses up to 0.6 mg/mL). For the four patients treated an average of 4.2 mL and 3.2 mL were infused in study parts 1 and 2 respectively. The Vd/Vi ratio ranged from 0.6 to 1.6 in part 1, and from 2.0 to 4.3 in Study Part 2. Analysis of tissue samples collected during the trial has demonstrated decreased VEGF expression post-treatment, with preinfusion samples showing > 50% VEGF expression and post-infusion samples showing 10% expression. Additional pharmacodynamic analysis via tissue-level biomarkers is ongoing and will be presented. CONCLUSION Initial data demonstrate the safety and feasibility of direct intracranial delivery of OS2966.