Abstract
GPR139 is a Gq‐coupled receptor activated by the essential amino acids L‐tryptophan (L‐Trp) and L‐phenylalanine (L‐Phe). We carried out mutagenesis studies of the human GPR139 receptor to identify the critical structural motifs required for GPR139 activation. We applied site‐directed and high throughput random mutagenesis approaches using a double addition normalization strategy to identify novel GPR139 sequences coding receptors that have altered sensitivity to endogenous ligands. This approach resulted in GPR139 clones with gain‐of‐function, reduction‐of‐function or loss‐of‐function mutations. The agonist pharmacology of these mutant receptors was characterized and compared to wild‐type receptor using calcium mobilization, radioligand binding, and protein expression assays. The structure‐activity data were incorporated into a homology model which highlights that many of the gain‐of‐function mutations are either in or immediately adjacent to the purported orthosteric ligand binding site, whereas the loss‐of‐function mutations were largely in the intracellular G‐protein binding area or were disrupters of the helix integrity. There were also some reduction‐of‐function mutations in the orthosteric ligand binding site. These findings may not only facilitate the rational design of novel agonists and antagonists of GPR139, but also may guide the design of transgenic animal models to study the physiological function of GPR139.
Highlights
GPR139, aka GPRg1 or GPCR12, is a highly conserved Gq‐coupled receptor that belongs to the rhodopsin‐like family of G‐protein coupled receptors (GPCR).1GPR139 is almost exclusively expressed in central nervous system[2,3] where it is abundantly expressed in the medial habenula, caudate putamen and lateral septum, and is detected in pituitary, with much higher levels in rat compared to human.[1]
We and others have established that GPR139 is activated by the essential amino acids L‐tryptophan (L‐Trp) and L‐phenylalanine (L‐Phe) with EC50 values in the 30‐ to 300‐μmol L−1 range, which is consistent with the physiologic concentrations of both amino acids.[1,4]
We identified a number of human GPR139 receptor mutations that resulted in reduction‐of‐function as measured by ligand‐ induced calcium mobilization (Table 3)
Summary
GPR139, aka GPRg1 or GPCR12, is a highly conserved Gq‐coupled receptor that belongs to the rhodopsin‐like family of G‐protein coupled receptors (GPCR).1GPR139 is almost exclusively expressed in central nervous system[2,3] where it is abundantly expressed in the medial habenula, caudate putamen and lateral septum, and is detected in pituitary, with much higher levels in rat compared to human.[1]. The larger GPR139 agonists (TC‐O 9311 and JNJ‐63533054), share a less buried hydrophobic pocket defined by residues Val[76], Phe[79], Ile[104], Val[83], and Ile[80] This common binding site was previously identified by Norh et al[15] Perhaps more importantly, we were able to identify mutations that rendered the receptor either more sensitive or less sensitive to the purported amino acid ligands. This should allow for the creation of transgenic animals that will require higher or lower levels of endogenous ligand to achieve activation, and enable more insight into the in vivo function of GPR139
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
