Synthetic Artificial Apoptosis‐Inducing Receptor for On‐Demand Deactivation of Engineered Cells

Pere Monge; Kaja Borup Løvschall; Ane Bretschneider Søgaard; Raoul Walther; Thaddeus W. Golbek; Lars Schmüser; Tobias Weidner; Alexander N. Zelikin

doi:10.1002/advs.202004432

Advanced Science (Jul 2021)

Synthetic Artificial Apoptosis‐Inducing Receptor for On‐Demand Deactivation of Engineered Cells

Pere Monge,
Kaja Borup Løvschall,
Ane Bretschneider Søgaard,
Raoul Walther,
Thaddeus W. Golbek,
Lars Schmüser,
Tobias Weidner,
Alexander N. Zelikin

Affiliations

Pere Monge: Department of Chemistry and iNano Interdisciplinary Nanoscience Centre Aarhus University Aarhus 8000 Denmark
Kaja Borup Løvschall: Department of Chemistry and iNano Interdisciplinary Nanoscience Centre Aarhus University Aarhus 8000 Denmark
Ane Bretschneider Søgaard: Department of Chemistry and iNano Interdisciplinary Nanoscience Centre Aarhus University Aarhus 8000 Denmark
Raoul Walther: Department of Chemistry and iNano Interdisciplinary Nanoscience Centre Aarhus University Aarhus 8000 Denmark
Thaddeus W. Golbek: Department of Chemistry and iNano Interdisciplinary Nanoscience Centre Aarhus University Aarhus 8000 Denmark
Lars Schmüser: Department of Chemistry and iNano Interdisciplinary Nanoscience Centre Aarhus University Aarhus 8000 Denmark
Tobias Weidner: Department of Chemistry and iNano Interdisciplinary Nanoscience Centre Aarhus University Aarhus 8000 Denmark
Alexander N. Zelikin: Department of Chemistry and iNano Interdisciplinary Nanoscience Centre Aarhus University Aarhus 8000 Denmark

DOI: https://doi.org/10.1002/advs.202004432
Journal volume & issue: Vol. 8, no. 13
pp. n/a – n/a

Abstract

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Abstract The design of a fully synthetic, chemical “apoptosis‐inducing receptor” (AIR) molecule is reported that is anchored into the lipid bilayer of cells, is activated by the incoming biological input, and responds with the release of a secondary messenger—a highly potent toxin for cell killing. The AIR molecule has four elements, namely, an exofacial trigger group, a bilayer anchor, a toxin as a secondary messenger, and a self‐immolative scaffold as a mechanism for signal transduction. Receptor installation into cells is established via a robust protocol with minimal cell handling. The synthetic receptor remains dormant in the engineered cells, but is effectively triggered externally by the addition of an activating biomolecule (enzyme) or in a mixed cell population through interaction with the surrounding cells. In 3D cell culture (spheroids), receptor activation is accessible for at least 5 days, which compares favorably with other state of the art receptor designs.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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