A High-Throughput Human Display Screen to Identify Target-Specific Binder Proteins via Chimeric Antigen Receptors

Lin Zhao; Aditya Mohan; Anoop P. Patel; Pranam Chatterjee

A High-Throughput Human Display Screen to Identify Target-Specific Binder Proteins via Chimeric Antigen Receptors

Lin Zhao, Aditya Mohan, Anoop P. Patel, Pranam Chatterjee

Published: 04 Mar 2024, Last Modified: 29 Apr 2024GEM PosterEveryoneRevisionsBibTeXCC BY 4.0

Track: Biology: datasets and/or experimental results

Keywords: High-throughput screening, Chimeric antigen receptors

TL;DR: We design a human cell-based screen to identify protein binders to target sequences.

Abstract: The design of specific protein binders is a core-goal of biologics design. However, current techniques rely on medium-throughput, laborious, well-by-well screening, or standard phage, yeast, or mRNA display, which screen binders in non-human contexts. To create a human cell-based binder screening platform, here, we developed a high-throughput screening approach based on genetically engineering chimeric antigen receptors (CAR)-expressing cells with libraries of binding proteins, and co-culturing them with target-expressing cells. Using an NFAT-inducible GFP reporter to monitor CAR activation, we establish a novel platform to screen experimentally and artificial intelligence-generated binders toward diverse target substrates on the surface of human cells for downstream therapeutics development.

Submission Number: 29

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