De novo-designed minibinders expand the synthetic biology sensing repertoire

Author:

Weinberg Zara Y.1ORCID,Soliman Sarah S.1ORCID,Kim Matthew S.23ORCID,Chen Irene P.45ORCID,Ott Melanie456ORCID,El-Samad Hana1367ORCID

Affiliation:

1. Department of Biochemistry & Biophysics, UCSF

2. Tetrad Gradudate Program, UCSF

3. Cell Design Institute

4. Gladstone Institutes

5. Department of Medicine, UCSF

6. Chan Zuckerberg Biohub–San Francisco

7. Altos Labs

Abstract

Synthetic and chimeric receptors capable of recognizing and responding to user-defined antigens have enabled “smart” therapeutics based on engineered cells. These cell engineering tools depend on antigen sensors which are most often derived from antibodies. Advances in the de novo design of proteins have enabled the design of protein binders with the potential to target epitopes with unique properties and faster production timelines compared to antibodies. Building upon our previous work combining a de novo -designed minibinder of the Spike protein of SARS-CoV-2 with the synthetic receptor synNotch (SARSNotch), we investigated whether minibinders can be readily adapted to a diversity of cell engineering tools. We show that the Spike minibinder LCB1 easily generalizes to a next-generation proteolytic receptor SNIPR that performs similarly to our previously reported SARSNotch. LCB1-SNIPR successfully enables the detection of live SARS-CoV-2, an improvement over SARSNotch which can only detect cell-expressed Spike. To test the generalizability of minibinders to diverse applications, we tested LCB1 as an antigen sensor for a chimeric antigen receptor (CAR). LCB1-CAR enabled CD8+ T cells to cytotoxically target Spike-expressing cells. Our findings suggest that minibinders represent a novel class of antigen sensors that have the potential to dramatically expand the sensing repertoire of cell engineering tools.

Publisher

eLife Sciences Publications, Ltd

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