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Query: UNIPROT:P46098 (
5-HT3 receptor
)
2,290
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
5-HT3 receptors possess a number of highly conserved proline residues. We changed each of these to alanine, expressed the mutants as homomeric
5-HT3A
receptors in HEK293 cells, and analyzed them with radioligand binding, electrophysiology, and immunocytochemistry. Mutation of Pro56, Pro104, Pro123, and Pro170 resulted in ablation of radioligand binding, whereas mutation of Pro257 and Pro301 did not. Only the latter were expressed at the plasma membrane but were non-functional. Thus the former, which are in the N-terminal domain, may be involved in forming correct receptor structure, while those in the transmembrane region (Pro257 and Pro301) are necessary for the function of the protein. To explore the conformational preference (propensity) of these residues we examined the proportion of cis-prolines and the influence of adjacent residues in known protein structures. 4.7% of prolines in the protein data base were in the cis conformation, and the distribution of amino acids adjacent to cis-prolines was not randomly distributed. Comparison of the proportion of each amino acid residue adjacent to a cis-proline revealed that aromatic and bend-facilitating residues were favored while those with beta-branched chains were not. Thus five residues (Gly, Pro, Tyr, Trp, Phe) and three residues (Pro, Tyr, Phe) were found more frequently than expected before and after cis-prolines respectively, whereas five residues (Val, Ile, Leu,
Asp
, Thr) and two residues (
Asp
, Glu) were found less frequently. Of the 20 proline residues in the
5-HT3A
receptor subunit only Pro170 has adjacent residues that are favorable. Mutating these to non-favorable residues resulted in ablation of ligand binding, whereas replacement with alternative favorable residues did not. We therefore propose that Pro170, which is part of the characteristic cys-loop found in this family of proteins, may be in the cis conformation.
...
PMID:The role and predicted propensity of conserved proline residues in the 5-HT3 receptor. 1149 6
Homomeric 5-hydroxytryptamine type 3A receptors (5-HT3ARs) have a single channel conductance (gamma) below the resolution of single channel recording (966 +/- 75 fS, estimated by variance analysis). By contrast, heteromeric
5-HT3A
/B and nicotinic acetylcholine receptors (nAChRs) have picosiemen range gamma values. In this study, single channel recordings revealed that replacement of cytoplasmic membrane-associated (MA) helix arginine 432 (-4'), 436 (0'), and 440 (4') residues by 5-HT3B (-4'Gln, 0'
Asp
, and 4'Ala) residues increases gamma to 36.5 +/- 1.0 pS. The 0' residue makes the most substantial contribution to gamma of the 5-HT3AR. Replacement of 0'Arg by aspartate, glutamate (alpha7 nAChR subunit MA 0'), or glutamine (beta2 subunit MA 0') increases gamma to the resolvable range (>6 pS). By contrast, replacement of 0'Arg by phenylalanine (alpha4 subunit MA 0') reduced gamma to 416 +/- 107 fS. In reciprocal experiments with alpha4beta2 nAChRs (gamma = 31.3 +/- 0.8 pS), replacement of MA 0' residues by arginine in alpha4beta2(Q443R) and alpha4(F588R)beta2 reduced gamma slightly. By contrast, the gamma of double mutant alpha4(F588R)beta2(Q443R) was halved. The MA -4' and 4' residues also influenced gamma of 5-HT3ARs. Replacement of nAChR alpha4 or beta2 MA 4' residues by arginine made current density negligible. By contrast, replacement of both -4' residues by arginine produced functional nAChRs with substantially reduced gamma (11.4 +/- 0.5 pS). Homology models of the
5-HT3A
and alpha4beta2 nAChRs against Torpedo nAChR revealed MA -4', 0', and 4' residues within five intracellular portals. This locus may be a common determinant of ion conduction throughout the Cys loop receptor family.
...
PMID:Common determinants of single channel conductance within the large cytoplasmic loop of 5-hydroxytryptamine type 3 and alpha4beta2 nicotinic acetylcholine receptors. 1640 31
Palonosetron (Aloxi) is a potent second generation 5-HT(3) receptor antagonist whose mechanism of action is not yet fully understood. Palonosetron acts at the 5-HT(3) receptor binding site but recent computational studies indicated other possible sites of action in the extracellular domain. To test this hypothesis we mutated a series of residues in the
5-HT3A
receptor subunit (Tyr(73), Phe(130), Ser(163), and
Asp
(165)) and in the 5-HT3B receptor subunit (His(73), Phe(130), Glu(170), and Tyr(143)) that were previously predicted by in silico docking studies to interact with palonosetron. Homomeric (5-HT(3)A) and heteromeric (5-HT(3)AB) receptors were then expressed in HEK293 cells to determine the potency of palonosetron using both fluorimetric and radioligand methods to test function and ligand binding, respectively. The data show that the substitutions have little or no effect on palonosetron inhibition of 5-HT-evoked responses or binding. In contrast, substitutions in the orthosteric binding site abolish palonosetron binding. Overall, the data support a binding site for palonosetron at the classic orthosteric binding pocket between two
5-HT3A
receptor subunits but not at allosteric sites previously identified by in silico modelling and docking.
...
PMID:Exploring a potential palonosetron allosteric binding site in the 5-HT(3) receptor. 2412 13
