Design of Fast Proteolysis-based Signaling and Logic Circuits in Mammalian Cells

Overview

Journal Nat Chem Biol

Specialties Biochemistry
Biology
Chemistry

Date 2018 Dec 12

PMID 30531965

Citations 84

Authors

Tina Fink

Jan Lonzaric

Arne Praznik

Tjasa Plaper

Estera Merljak

Katja Leben

Nina Jerala

Tina Lebar

Ziga Strmsek

Fabio Lapenta

Mojca Bencina

Roman Jerala

Affiliations

Soon will be listed here.

Abstract

Cellular signal transduction is predominantly based on protein interactions and their post-translational modifications, which enable a fast response to input signals. Owing to difficulties in designing new unique protein-protein interactions, designed cellular logic has focused on transcriptional regulation; however, that process has a substantially slower response, because it requires transcription and translation. Here, we present de novo design of modular, scalable signaling pathways based on proteolysis and designed coiled coils (CC) and implemented in mammalian cells. A set of split proteases with highly specific orthogonal cleavage motifs was constructed and combined with strategically positioned cleavage sites and designed orthogonal CC dimerizing domains with tunable affinity for competitive displacement after proteolytic cleavage. This framework enabled the implementation of Boolean logic functions and signaling cascades in mammalian cells. The designed split-protease-cleavable orthogonal-CC-based (SPOC) logic circuits enable response to chemical or biological signals within minutes rather than hours and should be useful for diverse medical and nonmedical applications.

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