Gene/Protein Disease Symptom Drug Enzyme Compound
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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 5-HT3 receptor is a transmitter-gated ion channel of the Cys-loop superfamily. Uniquely, 5-HT3 receptor subunits (5-HT3A and 5-HT3B) possess a positively charged lysine residue within the putative channel lining M2 domain (4' position). Using whole cell recording techniques, we examined the role of this residue in receptor function using wild-type (WT) and mutant 5-HT3A receptor subunits of murine origin transiently expressed in human embryonic kidney (HEK 293) cells. WT 5-HT3A receptors mediated rapidly activating currents in response to 5-HT (10-90 % rise time, 103 ms; EC50, 2.34 microM; Hill coefficient, nH, 2.87). The currents rectified inwardly, reversed in sign at a potential of -9 mV and desensitized in the continuous presence of agonist (half-time of desensitization, t(1/2), 2.13 s). 5-HT3A receptor subunits in which the 4'lysine was mutated to arginine, glutamine, serine or glycine formed functional receptors. 5-HT EC50 values were approximately 2-fold lower than for WT 5-HT3A receptors, but Hill coefficients, kinetics of current activation, rectification, and reversal potentials were unaltered. Each of the mutants desensitized more slowly than the WT 5-HT3A receptor, with the arginine and glycine mutations exhibiting the greatest effect (5-fold reduction). The rank order of effect was arginine > glycine > serine > glutamine. The single-channel conductance of the WT 5-HT3A receptor, as assessed by fluctuation analysis of macroscopic currents, was 390 fS. A similar value was obtained for the 4'lysine mutant receptors. Thus it appears unlikely that 4'lysine is exposed to the channel lumen. Mutation of residues immediately adjacent to 4'lysine to glutamate or lysine resulted in lack of receptor expression or function. We conclude that 4'lysine does not form part of the channel lining, but may play an important role in 5-HT3 receptor desensitization.
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PMID:The 4'lysine in the putative channel lining domain affects desensitization but not the single-channel conductance of recombinant homomeric 5-HT3A receptors. 1063 97

Serotonin (5-HT) exerts fast excitatory responses by activation of 5-HT3 receptors, irrespective of whether they are homomerically composed of 5-HT3A subunits or heteromerically assembled of 5-HT3A and 5-HT3B subunits. Here we describe a short, truncated (h5-HT3AT) and a long (h5-HT3AL) splice variant of the human 5-HT3A (hS-HT3A) receptor subunit. The deduced protein of the short isoform consists of 238 amino acids (aa) with a single transmembrane domain (M1). Compared to the known 5-HT3A receptor, the long isoform contains 32 additional aa in the extracellular loop between M2 and M3. Both splice variants are co-expressed together with the 5-HT3A subunit in the amygdala and hippocampus, whereas in the placenta only the short variant is co-expressed. Both splice variants, when expressed in transfected human embryonic kidney (HEK) 293 cells, are not able to form functional homomeric receptors, but modify 5-HT response at heteromeric h5-HT3A receptors. Co-expression of the short variant considerably decelerates the desensitization of the 5-HT3 receptor; thus, heteromeric assemblies of h5-HT3A and the h5-HT3AT subunit exhibit 5-HT-induced cation fluxes which are much larger than those of homomeric hS-HT3A receptors. In contrast, heteromeric complexes containing the h5-HT3AL subunit display reduced cation fluxes. In conclusion, the splice variants increase the functional diversity of 5-HT3 receptors.
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PMID:Modified 5-HT3A receptor function by co-expression of alternatively spliced human 5-HT3A receptor isoforms. 1111 33

The present study determined the detailed pharmacological profile of heterologously expressed human (h) homomeric 5-HT3A receptors in direct comparison to heteromeric h5-HT3A/3B receptors. The very minor differences in their respective pharmacological profiles indicates that the 5-HT3B receptor subunit alters, predominantly, the biophysical rather than the pharmacological properties of the 5-HT3 receptor.
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PMID:Pharmacological comparison of human homomeric 5-HT3A receptors versus heteromeric 5-HT3A/3B receptors. 1148 65

The type 3 serotonin (5-HT3) receptor is the only ligand-gated ion channel receptor for serotonin in vertebrates. Two 5-HT3 receptor subunits have been cloned, subunit A (5-HT3A) and subunit B (5-HT3B). We used in situ hybridization histochemistry and reverse transcriptase-PCR amplification to demonstrate that 5-HT3A subunit transcripts are expressed in central and peripheral neurons. In contrast, 5-HT3B subunit transcripts are restricted to peripheral neurons. Thus, the prevalent form of 5-HT3 receptor synthesized within the CNS lacks the 5-HT3B subunit. Because coexpression of 5-HT3A and 5-HT3B subunits produces heteromeric 5-HT3A/3B receptors with properties that differ from those of 5-HT3A homomeric receptors, we investigated possible coexpression of both subunits at the cellular level. We found that near to 90% of all 5-HT3B expressing neurons coexpress the 5-HT3A subunit in superior cervical and nodose ganglia (NG). In addition, there is a cellular population that expresses only the 5-HT3A subunit. Therefore, peripheral neurons have the capacity to synthesize two different 5-HT3 receptors, 5-HT3A+/3B- and 5-HT3A+/3B+ receptors. We also determined that neurons of NG projecting to the nucleus tractus solitarium and those of dorsal root ganglia projecting to superficial layers of the spinal cord express 5-HT3A or 5-HT3A/3B subunits. Thus, presynaptic 5-HT3 receptors containing the 5-HT3B subunit might be present in these target brain areas. The compartmentalized structural composition of the 5-HT3 receptor may be the basis of functional diversity within this receptor. This raises the possibility that 5-HT3 receptors participating in sympathetic, parasympathetic and sensory functions may be functionally different from those involved in cognition and emotional behavior.
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PMID:Differential composition of 5-hydroxytryptamine3 receptors synthesized in the rat CNS and peripheral nervous system. 1215 52

Neocortical neurons expressing the serotonin 5-HT3 receptor (5-HT3R) were characterized in rat acute slices by using patch-clamp recordings combined with single-cell RT-PCR and histochemical labeling. The 5-HT3A receptor subunit was expressed selectively in a subset of GABAergic interneurons coexpressing cholecystokinin (CCK) and vasoactive intestinal peptide (VIP). The 5-HT3B subunit was never detected, indicating that 5-HT3Rs expressed by neocortical interneurons did not contain this subunit. In 5-HT3A-expressing VIP/CCK interneurons, serotonin induced fast membrane potential depolarizations by activating an inward current that was blocked by the selective 5-HT3R antagonist tropisetron. Furthermore, we observed close appositions between serotonergic fibers and the dendrites and somata of 5-HT3R-expressing neurons, suggestive of possible synaptic contacts. Indeed, in interneurons exhibiting rapid excitation by serotonin, local electrical stimulations evoked fast EPSCs of large amplitude that were blocked by tropisetron. Finally, 5-HT3R-expressing neurons were also excited by a nicotinic agonist, indicating that serotonergic and cholinergic fast synaptic transmission could converge onto VIP/CCK interneurons. Our results establish a clear correlation between the presence of the 5-HT3A receptor subunit in neocortical VIP/CCK GABAergic interneurons, its functional expression, and its synaptic activation by serotonergic afferent fibers from the brainstem raphe nuclei.
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PMID:5-HT3 receptors mediate serotonergic fast synaptic excitation of neocortical vasoactive intestinal peptide/cholecystokinin interneurons. 1219 60

The ability of differing subunit combinations of 5-HT3 receptors to form functional cell surface receptors was analyzed by a variety of approaches. The results revealed that 5-HT3 receptor assembly occurred within the endoplasmic reticulum (ER) and involved the interaction with chaperone proteins. The 5-HT3A subunit could assemble into functional homomeric receptors that were expressed on the cell surface. In contrast, the 5-HT3B subunit did not exhibit 5-hydroxytryptamine binding or function, could not assemble, and was efficiently retained and degraded within the ER. However, upon the coexpression of the 5-HT3A subunit, 5-HT3B could be "rescued" from the ER and transported to the cell surface to form functional heteromeric receptors with distinct functional characteristics. In support of the existence of homomeric 5-HT3 receptors in vivo, recombinantly expressed 5-HT3A receptors were capable of clustered cell surface expression in cortical neurons.
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PMID:Assembly and cell surface expression of homomeric and heteromeric 5-HT3 receptors: the role of oligomerization and chaperone proteins. 1235 50

Clozapine is a potent antagonist of 5-HT3 receptors, which are ligand-gated ion channels that mediate rapid excitatory responses in the central nervous system. Two different isoforms of 5-HT3 receptor subunit genes (HTR3A and HTR3B) have been identified. They have been assigned to chromosome 11q23.1-q23.2, a region which in the past has been linked to schizophrenia and bipolar disorder. In this study, we performed a systematic mutation screening of the 5-HT3A and 5-HT3B receptor genes and tested the variants for association with clozapine response in a sample of 266 clozapine-treated patients. Two polymorphisms at the 5-HT3A gene and five new variants in the 5-HT3B gene were finally detected. Of these, only the more frequent mutations (178-C/T and 1596-A/G in 5-HT3A and a CA-repeat in 5-HT3B) were genotyped in our clozapine sample. Association analysis showed similar allele and genotype distributions among clozapine responders and nonresponders. These results make unlikely the possibility that 5-HT3A and 5-HT3B receptor genes underlie variation in clinical response to clozapine. However, the promoter regions of both genes have yet to be investigated.
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PMID:Novel mutations in 5-HT3A and 5-HT3B receptor genes not associated with clozapine response. 1236 96

Two subunits of the 5-hydroxytryptamine type 3 (5-HT3) have been identified (5-HT3A and 5-HT3B) that assemble into homomeric (5-HT3A) and heteromeric (5-HT3A+5-HT3B) complexes. Unassembled 5-HT3B subunits are efficiently retained within the cell. In this study, we address the mechanism controlling the release of 5-HT3B from the endoplasmic reticulum (ER). An analysis of chimeric 5-HT3A receptor(R).5-HT3BR constructs suggests the presence of elements downstream of the first transmembrane domain of 5-HT3B subunits that inhibit cell surface expression. To investigate this possibility, truncated 5-HT3B subunits were constructed and assessed for their ability to access the cell surface in COS-7 and ts201 cells. Using this approach, we have identified the presence of an ER retention signal located within the first cytoplasmic loop between transmembrane domains I and II of 5-HT3B. Transplantation of this signal (CRAR) into the homologous region of 5-HT3A results in the ER retention of this subunit until rescued by co-assembly with wild-type 5-HT3A. The mutation of this ER retention signal in 5-HT3B (5-HT3BSGER) does not lead to cell surface expression, suggesting the presence of other signals or mechanisms to control the surface expression of 5-HT3BRs. The generation of truncated 5-HT3BSGER constructs confirmed that the CRAR signal does play an important role in the ER retention of 5-HT3B.
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PMID:Cell surface expression of 5-hydroxytryptamine type 3 receptors is controlled by an endoplasmic reticulum retention signal. 1275 Mar 74

5-hydroxytryptamine type 3 (5-HT3) receptors are cation-selective transmitter-gated ion channels of the Cys-loop superfamily. The single-channel conductance of human recombinant 5-HT3 receptors assembled as homomers of 5-HT3A subunits, or heteromers of 5-HT3A and 5-HT3B subunits, are markedly different, being 0.4 pS (refs 6, 9) and 16 pS (ref. 7), respectively. Paradoxically, the channel-lining M2 domain of the 5-HT3A subunit would be predicted to promote cation conduction, whereas that of the 5-HT3B subunit would not. Here we describe a determinant of single-channel conductance that can explain these observations. By constructing chimaeric 5-HT3A and 5-HT3B subunits we identified a region (the 'HA-stretch') within the large cytoplasmic loop of the receptor that markedly influences channel conductance. Replacement of three arginine residues unique to the HA-stretch of the 5-HT3A subunit by their 5-HT3B subunit counterparts increased single-channel conductance 28-fold. Significantly, ultrastructural studies of the Torpedo nicotinic acetylcholine receptor indicate that the key residues might frame narrow openings that contribute to the permeation pathway. Our findings solve the conundrum of the anomalously low conductance of homomeric 5-HT3A receptors and indicate an important function for the HA-stretch in Cys-loop transmitter-gated ion channels.
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PMID:A cytoplasmic region determines single-channel conductance in 5-HT3 receptors. 1286 84

5-HT3 (5-hydroxytryptamine type 3) receptors are cation-selective ion channels of the Cys-loop transmitter-gated ion channel superfamily. Two 5-HT3 receptor subunits, 5-HT3A and 5-HT3B, have been characterized in detail, although additional putative 5-HT3 subunit genes (HTR3C, HTR3D and HTR3E) have recently been reported. 5-HT3 receptors function as homopentameric assemblies of the 5-HT3 subunit, or heteropentamers of 5-HT3A and 5-HT3B subunits of unknown stoichiometry. The single-channel conductances of human recombinant homomeric and heteromeric 5-HT3 receptors are markedly different, being <1 and approx. 16 pS respectively. Paradoxically, from the results of studies performed on the closely related nicotinic acetylcholine receptor, the channel-lining M2 domain of the 5-HT3A subunit is predicted to enhance cation conduction, whereas that of the 5-HT3B subunit would not. The present study describes a novel determinant of single-channel conductance, out with the M2 domain, which accounts for this anomaly. Utilizing a panel of chimaeric 5-HT3A and 5-HT3B subunits, a profound determinant of single-channel conductance was traced to a putative amphipathic helix (the 'HA stretch') within the large cytoplasmic loop of the receptor. Replacement of three arginine residues (R432, R436 and R440) unique to the HA stretch of the 5-HT3A subunit with the aligned residues (Q395, D399 and A403) of the 5-HT3B subunit increased the single-channel conductance 28-fold. Significantly, from ultrastructural studies of the Torpedo nicotinic acetylcholine receptor, the key residues may be components of narrow openings within the inner vestibule of the channel, located in the cytoplasm, which contribute to the permeation pathway. Our findings indicate an important and hitherto unappreciated function for the HA stretch in the Cys-loop family of transmitter-gated ion channels.
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PMID:The 5-hydroxytryptamine type 3 (5-HT3) receptor reveals a novel determinant of single-channel conductance. 1515 81


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