Abstract 2138: Creating next-generation biologics using a novel chemistry platform technology

Bright Peak Therapeutics is developing a portfolio of differentiated biotherapeutics using chemistry for applications in immuno-oncology and autoimmune diseases. Our unique chemical protein synthesis and engineering platform allows us to fine-tune cytokines and other proteins to interrogate and modulate biological functions by incorporating new functional modifications. Standard recombinant bacterial or cellular expression systems used to produce proteins are largely restricted to using canonical amino acids, which limits access to diverse modifications that can bestow additional functional properties. With chemical protein synthesis technology, canonical and non-canonical modifications including conjugation handles can be easily introduced, ultimately enabling a medicinal chemistry approach for engineering cytokine structures. Enhanced cytokines with differentiated biology developed using this approach can be further elaborated by conjugating to a diverse array of molecules. We first applied our technology platform to identify BPT-143, a rationally designed enhanced IL-2 variant currently in IND-enabling studies. BPT-143 is engineered to have enhanced binding to IL2Rβ and no binding to IL2Rα for improved efficacy and safety independent of the conjugation to a half-life extending 30 kDa PEG. The chemical synthesis technology is robust, reproducible, and scalable. We are applying our platform to enhance a number of other cytokines for use in immuno-oncology and autoimmune diseases. Additionally, our synthetically engineered cytokines can be easily conjugated to monoclonal antibodies as ‘payloads’ using a distinct chemical conjugation technology. A rapid and simple chemical process allows site-selective conjugation of our engineered cytokines to existing antibodies ‘as-is’ to generate novel immunocytokines (IC). This ‘off-the-shelf’ approach is orthogonal to recombinant fusion methods to create ICs and does not require complex recombinant protein expression optimization and lengthy cell-line development. Moreover, it allows rapid screening of cytokine payloads in a structure-activity relationship (SAR) format to identify dual-targeting ICs with precisely tailored properties to generate the desired biological effect. We have prepared a number of ICs including anti-PD-1/IL-2 ICs with various drug-antibody ratio (DAR) and conjugation sites within the antibody. We will provide an overview of the platform technology and present highlights of its application for d