GPR50-Ctail cleavage and nuclear translocation: a new signal transduction mode for G protein-coupled receptors
journal contribution
posted on 2023-05-03, 18:56authored byRaise AhmadRaise Ahmad, Olivier Lahuna, Anissa Sidibe, Avais Daulat, Qiang Zhang, Marine Luka, Jean-Luc Guillaume, Sarah Gallet, Francois Guillonneau, Juliette Hamroune, Sophie Polo, Vincent Prevot, Philippe Delagrange, Julie Dam, Ralf Jockers
Transmission of extracellular signals by G protein-coupled receptors typically relies on a cascade of intracellular events initiated by the activation of heterotrimeric G proteins or β-arrestins followed by effector activation/inhibition. Here, we report an alternative signal transduction mode used by the orphan GPR50 that relies on the nuclear translocation of its carboxyl-terminal domain (CTD). Activation of the calcium-dependent calpain protease cleaves off the CTD from the transmembrane-bound GPR50 core domain between Phe-408 and Ser-409 as determined by MALDI-TOF-mass spectrometry. The cytosolic CTD then translocates into the nucleus assisted by its ‘DPD’ motif, where it interacts with the general transcription factor TFII-I to regulate c-fos gene transcription. RNA-Seq analysis indicates a broad role of the CTD in modulating gene transcription with ~ 8000 differentially expressed genes. Our study describes a non-canonical, direct signaling mode of GPCRs to the nucleus with similarities to other receptor families such as the NOTCH receptor
Ahmad, R., Lahuna, O., Sidibe, A., Daulat, A., Zhang, Q., Luka, M., … Jockers, R. (2020). GPR50-Ctail cleavage and nuclear translocation: a new signal transduction mode for G protein-coupled receptors. Cellular and Molecular Life Sciences. doi:10.1007/s00018-019-03440-7