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Query: UNIPROT:P46098 (
5-HT3 receptor
)
2,290
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The wild-type and a mutant
5-HT3 receptor
were expressed in Xenopus oocytes to further explore how the rate of onset of desensitization of the
5-HT3 receptor
was dependent on membrane voltage and primary structure of the channel. The rapid application of serotonin (5-HT; 50 microM) in a Ca(2+)-containing (1.8 mM) bathing solution elicited inward currents that decayed rapidly and with a biphasic time course in most cases. For oocytes expressing the wild-type
5-HT3 receptor
and held at a potential of -90 mV, the value of the fast time constant of decay (tau fast) was 0.79 +/- 0.3 s (n = 7), while tau slow was 16 +/- 3 s; the area of the decay phase contributed by tau fast (i.e., Afast) was 50 +/- 4% and Aslow was 38 +/- 5%, with a remainder (i.e., non-desensitizing component) of 12%. The kinetics of the decay phase were strongly voltage-dependent. At a holding potential of -30 mV, the desensitization decay phase was now monophasic, with a time constant of 14.0 +/- 3.1 s (n = 4). Mutating the
leucine
at position 286 of the wild-type
5-HT3 receptor
to threonine (i.e., mutant L286T) resulted in desensitization kinetics that were biphasic at all membrane potentials tested and with a rate of decay that was not voltage dependent. Therefore, desensitization is a multifaceted and complex process, whose rate of onset depends in part to membrane voltage and primary structure of the ion channel.
...
PMID:Desensitization of 5-HT3 receptors expressed in Xenopus oocytes: dependence on voltage and primary structure. 878 16
To understand the wide variation of calcium permeability seen in native and recombinant
5-HT3 receptor
(
5-HT3R
) channels, we reported previously the novel hypothesis that the serotonin
5-HT3R
subunit can co-assemble with the alpha4 subunit of the nicotinic acetylcholine receptor (van Hooft, J. A., Spier, A. D., Yakel, J. L., Lummis, S. C. R. & Vijverberg, H. P. M. (1998) Proc. Natl. Acad. Sci. U. S. A. 95, 11456-11461). To test the hypothesis that the alpha4 subunit contributes to the lining of the pore of the resulting
5-HT3R
channel, a mutant nicotinic alpha4 subunit with a reactive cysteine residue engineered into the putative pore region was constructed by substituting the
leucine
at position 285 (alpha4-L285C). The sulfhydryl-modifying reagent [2-(trimethylammonium) ethyl]methanethiosulfonate (MTSET) reduced the acetylcholine-induced current in oocytes expressing this mutant nicotinic alpha4-L285C subunit along with the nicotinic beta2 subunit by approximately 60%. When the alpha4-L285C subunit was co-expressed with the
5-HT3R
subunit, both MTSET and silver nitrate (AgNO3), another cysteine-modifying reagent, significantly reduced the serotonin-induced current. No reduction was seen when the
5-HT3R
was expressed alone or with the wild-type alpha4 subunit. These data provide direct molecular evidence that the nicotinic alpha4 subunit co-assembles with the
5-HT3R
subunit and forms an integral part of the ion channel pore.
...
PMID:The nicotinic alpha4 receptor subunit contributes to the lining of the ion channel pore when expressed with the 5-HT3 receptor subunit. 993 81
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
Previously, we reported that the GABA(A) receptor antagonist picrotoxin also antagonizes serotonin (5-HT)3 receptors and that its effects are subunit-dependent. Here, we sought to identify amino acids involved in picrotoxin inhibition of 5-HT3 receptors. Mutation of serine to alanine at the transmembrane domain 2 (TM2) 2' position did not affect picrotoxin (PTX) sensitivity in murine
5-HT3A
receptors. However, mutation of the 6' TM2 threonine to phenylalanine dramatically reduced PTX sensitivity. Mutation of 6' asparagine to threonine in the 5-HT3B subunit enhanced PTX sensitivity in heteromeric
5-HT3A
/3B receptors. Introduction of serine (native to the human 3B subunit) at the 6' position also increased PTX sensitivity, suggesting a species-specific effect. Mutation of the 7'
leucine
to threonine in
5-HT3A
receptors increased PTX sensitivity roughly 10-fold, comparable with that observed in GABA(A) receptors, and also conferred distinct gating kinetics. The equivalent mutation in the 3B subunit (i.e., 7' valine to threonine) had no impact on PTX sensitivity in
5-HT3A
/3B receptors. Interestingly, [3H]ethynylbicycloorthobenzoate ([3H]EBOB), a high-affinity ligand to the convulsant site in GABA(A) receptors, did not exhibit specific binding in
5-HT3A
receptors. The structurally related compound, tert-butylbicyclophosphorothionate (TBPS), which potently inhibits GABA(A) receptors, did not inhibit 5-HT3 currents. Our results indicate that the TM2 6' residue is a common determinant of PTX inhibition of both 5-HT3 and GABA(A) receptors and demonstrate a role of the 7' residue in PTX inhibition. However, lack of effects of EBOB and TBPS in
5-HT3A
receptors suggests that the functional domains in the two receptors are not equivalent and underscores the complexity of PTX modulation of LGICs.
...
PMID:Molecular determinants of picrotoxin inhibition of 5-hydroxytryptamine type 3 receptors. 1581 70
Amongst the family members of Cys-loop LGICs, the atypical ability of the
5-HT3A
subunit to form functional homomeric receptors allowed a direct investigation of the role of the C-terminus. Deletion of the three C-terminal amino acids (DeltaGln453-DeltaTyr454-DeltaAla455) from the h5-HT3A subunit prevented formation of a specific radioligand binding site as well as expression within the cell membrane. Removal of merely the C-terminal residue (DeltaAla455) reduced specific radioligand binding (to 4+/-1% relative to the wild-type; cells grown at 37 degrees C) and also cell membrane expression; these reductions were less evident when the DeltaAla455 expressing cells were grown at 27 degrees C (specific radioligand binding levels 27+/-5% relative to wild-type also grown at 27 degrees C). Mutation of the h5-HT3A C-terminal amino acid, alanine, for either glycine (Ala455Gly), valine (Ala455Val) or
leucine
(Ala455Leu) reduced specific radioligand binding levels by 24+/-23%, 32+/-12% and 88+/-1%, respectively; the latter mutant also displaying reduced membrane expression. In contrast, mutation to alanine of the two amino acids preceding the C-terminal alanine (Gln453Ala and Tyr454Ala) had no detrimental effects on specific radioligand binding or cell membrane expression levels. The present study demonstrates an important role for the C-terminus in the formation of the functional h5-HT3A receptor. The partial restoration of
5-HT3 receptor
binding and cell membrane expression when cells expressing C-terminal mutant
5-HT3A
subunits were grown at a lower temperature (27 degrees C) suggests that the C-terminus stabilises the
5-HT3 receptor
allowing subunit folding and subsequent maturation.
...
PMID:Importance of the C-terminus of the human 5-HT3A receptor subunit. 1878 52
