Bioinspired Design of Artificial Signaling Systems

Overview

Journal Biochemistry

Specialty Biochemistry

Date 2022 Aug 19

PMID 35984429

Authors

Jeffrey C Way

Devin R Burrill

Pamela A Silver

Affiliations

Soon will be listed here.

Abstract

Natural systems use weak interactions and avidity effects to give biological systems high specificity and signal-to-noise ratios. Here we describe design principles for engineering fusion proteins that target therapeutic fusion proteins to membrane-bound signaling receptors by first binding to designer-chosen co-receptors on the same cell surface. The key design elements are separate protein modules, one that has no signaling activity and binds to a cell surface receptor with high affinity and a second that binds to a receptor with low or moderate affinity and carries out a desired signaling or inhibitory activity. These principles are inspired by natural cytokines such as CNTF, IL-2, and IL-4 that bind strongly to nonsignaling receptors and then signal through low-affinity receptors. Such designs take advantage of the fact that when a protein is anchored to a cell membrane, its local concentration is extremely high with respect to those of other membrane proteins, so a second-step, low-affinity binding event is favored. Protein engineers have used these principles to design treatments for cancer, anemia, hypoxia, and HIV infection.

Citing Articles

Engineering signalling pathways in mammalian cells.

Leopold A, Verkhusha V Nat Biomed Eng. 2024; 8(12):1523-1539.

PMID: 39237709 PMC: 11852397. DOI: 10.1038/s41551-024-01237-z.

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