Microbial fluorescence sensing for human neurotensin receptor type 1 using Gα-engineered yeast cells

Abstract

Neurotensin receptor type-1 (NTSR1) is a member of the G-protein-coupled receptor (GPCR) family. The natural ligand of NTSR1 is neurotensin (NT), a neuromodulator of the central nervous system. Because NT is also involved in many oncogenic actions, the signaling mediator NTSR1 is a significant molecular target in medicinal and therapeutic fields. In the current study, we constructed a fluorescence-based microbial yeast biosensor that can monitor the activation of human NTSR1 signaling responding to its agonist. To increase the sensitivity of the biosensor, a yeast strain with the green fluorescent protein (GFP) reporter gene was genetically engineered to enhance binding with human NTSR1 expressed on the membrane. Following previous reports, the 5 carboxy-terminal amino acid residues of the guanine nucleotide binding protein α-subunit (Gα) in yeast Gpa1p were substituted with the equivalent human Gαq sequences (Gpa1/Gαq transplant). After optimizing the assay conditions, the Gα-engineered yeast demonstrated significantly improved sensing for NTSR1 signaling. Because detection using a GFP fluorescence reporter considerably simplifies the measurement procedure, this microbial fluorescence sensor holds promise for use in the diagnosis of NTSR1-associated diseases and the development of agonists.