Synthetic Receptors for Sensing Soluble Molecules with Mammalian Cells.

Abstract

Synthetic receptors control cell behavior in response to environmental stimuli for applications in basic research and cell therapy. However, the integration of synthetic receptors in unexplored contexts is cumbersome, especially for nonspecialist laboratories. Here, I provide a detailed protocol on how to use receptors of the generalized extracellular molecule sensor (GEMS) platform. GEMS is a modular receptor system that can be adapted to sense molecules of choice by using affinity domains that dimerize in response to the target. GEMS consist of an erythropoietin receptor scaffold that has been mutated to no longer bind to erythropoietin. N-terminal fusions with affinity domains, such as single chain variable fragments (scFvs), that bind to two epitopes on the same target activate the receptor. The intracellular receptor domain can be chosen from several signal transduction domains of single-pass transmembrane receptors to activate endogenous signaling pathways. As of now, GEMS have been used for sensing prostate specific antigen (PSA), the synthetic azo dye RR120, caffeine, nicotine, rapamycin, the SunTag peptide, and a de novo designed protein displaying two viral epitopes. The tested intracellular domains were derived from FGFR1, IL-6RB, and VEGFR2, and were used to drive transgene expression from reporter plasmids responsive to the endogenous transcription factors STAT3, NFAT, NF-κB, and a synthetic transcription factor activated by the MAPK pathway. In this protocol, I focus on transient transfections of HEK293T cells and include several general notes about cell handling. While the described methods are optimized for experiments with GEMS, most of the described techniques are general procedures to set up synthetic biology experiments in mammalian cell culture. I outline how to generate stable cell lines and share tips on how to adapt GEMS for new ligands. The main objective of this protocol is to make the GEMS technology accessible also to nonspecialist laboratories to facilitate the use of synthetic receptors in new research contexts.