Accelerating Biomedical Discovery and Therapeutic Biologic Design with Machine Learning

Speaker: Ge Liu

Location: 60 Fifth Avenue, Room 150
Videoconference link: https://nyu.zoom.us/j/94944261938

Date: Friday, March 24, 2023

Biological molecules, such as proteins, are highly diverse and hold great therapeutic potential. However, the discovery of functional biological molecules can be challenging and costly due to their complex design pace and the need to consider various design criteria for safety and efficacy. In this talk, I will discuss how machine learning and computational methods can be used to accelerate the biomedical discovery cycle in a holistic fashion. I will first motivate an AI-driven paradigm that combines interpretable and uncertainty-aware deep learning models with active learning and black-box optimization techniques to efficiently guide iterative experiment design. I will then introduce a novel approach for training deep ensemble models that produce reliable out-of-distribution prediction and better uncertainty estimates for efficient Bayesian Optimization over biological sequence space. To showcase the effectiveness of my approaches, I will present two high-impact applications in real-world therapeutics design. Firstly, I will present a pioneering deep-learning-driven antibody design framework that transforms conventional screening-based discovery by learning from high-throughput phage display data and proposing superior candidates through ML-directed optimization. My method produces monoclonal antibodies with experimentally verified better affinity and specificity without structural information. Secondly, I will introduce a novel COVID-19 peptide vaccine formulation that rectifies the insufficient coverage of underrepresented groups and is designed to provide durable, pan-variant, and broadly effective T-cell response. Our designed mRNA vaccine was able to prevent mortality in transgenic mice infected with the Beta variant, and showed improved T-cell response and lower side effect compared to the Pfizer-BioNTech vaccine.