The signaling signature of the neurotensin type 1 receptor with endogenous ligands

The human neurotensin 1 receptor (hNTS1) is a G protein-coupled receptor involved in many physiological functions, including analgesia, hypothermia, and hypotension. To gain a better understanding of which signaling pathways or combination of pathways are linked to NTS1 activation and function, we investigated the ability of activated hNTS1, which was stably expressed by CHO-K1 cells, to directly engage G proteins, activate second messenger cascades and recruit \b{eta}-arrestins. Using BRET-based biosensors, we found that neurotensin (NT), NT(8-13) and neuromedin N (NN) activated the G{\alpha}q-, G{\alpha}i1-, G{\alpha}oA-, and G{\alpha}13-protein signaling pathways as well as the recruitment of \b{eta}-arrestins 1 and 2. Using pharmacological inhibitors, we further demonstrated that all three ligands stimulated the production of inositol phosphate and modulation of cAMP accumulation along with ERK1/2 activation. Interestingly, despite the functional coupling to G{\alpha}i1 and G{\alpha}oA, NT was found to produce higher levels of cAMP in the presence of pertussis toxin, supporting that hNTS1 activation leads to cAMP accumulation in a G{\alpha}s-dependent manner. Additionally, we demonstrated that the full activation of ERK1/2 required signaling through both a PTX-sensitive Gi/o-c-Src signaling pathway and PLCb-DAG-PKC-Raf-1- dependent pathway downstream of Gq. Finally, the whole-cell integrated signatures monitored by the cell-based surface plasmon resonance and changes in the electrical impedance of a confluent cell monolayer led to identical phenotypic responses between the three ligands. The characterization of the hNTS1-mediated cellular signaling network will be helpful to accelerate the validation of potential NTS1 biased ligands with an improved therapeutic/adverse effect profile.
Comment: This is the accepted (postprint) version of the following article: Besserer-Offroy \'E, et al. (2017). Eur J Pharmacol. doi: 10.1016/j.ejphar.2017.03.046, which has been accepted and published in its final form at http://www.sciencedirect.com/science/article/pii/S0014299917302157 V1: Preprint version V2: Accepted version (postprint)