Characterisation of 5-HT receptors in human coronary arteries by molecular and pharmacological techniques.

5-Hydroxytryptamine (5-HT) can produce both vasoconstrictor and vasorelaxant effects in human coronary arteries and the response to 5-HT can be influenced by the presence of disease. The aim of the present study was to elucidate the 5-HT receptor subtypes responsible for mediating 5-HT-evoked contraction of human coronary arteries using pharmacological, molecular and immunocytochemical approaches. Normal human coronary arteries, with intact endothelium, were mounted in tissue baths, and the vascular responses to 5-HT and 5-HT receptor agonists were studied. The effects of 5-HT1 and 5-HT2 receptor antagonists on these responses were also studied. Expression of messenger ribonucleic acid (mRNA) encoding different 5-HT receptors in human coronary arteries, atrium, ventricle wall and epicardium was determined using reverse transcriptase-polymerase chain reaction (RT-PCR) and Southern blot analysis. The expression of 5-HT1B or 5-HT1D receptor protein was studied using subtype selective antibodies and standard immunocytochemical techniques. The rank order of 5-HT receptor agonist potency in causing vasoconstriction was 5-carboxamido tryptamine, (5-CT) > zolmitriptan = BW183C91 (N10-desmethyl zolmitriptan) = alpha-methyl-5-hydroxytryptamine (alpha-CH3-5-HT) = 5-HT = sumatriptan > 2-methyl-5-hydroxytryptamine (2-CH3-5-HT) = 8-hydroxy-DPAT (8-OH-DPAT). Alpha-CH3-5-HT, 5-CT, 5-HT, zolmitriptan and BW 183C91 were significantly more potent (approximately 3-fold) than sumatriptan and 2-CH3-5-HT, which in turn were more potent than 8-OH-DPAT. Ketanserin and methiothepin (5-HT2 and 5-HT1 receptor antagonists, respectively) caused parallel rightward shifts of the concentration-effect curves to alpha-CH3-5-HT or 5-CT, respectively, without changing the maximum contractile response. In human coronary arteries, atrium. ventricle and epicardium. RT-PCR products corresponding to the human 5-HT2A, 5-HT1B and 5-HT1F receptors were expressed in high levels, mRNAs coding for 5-HT7, 5-HT1A and 5-HT1D receptors were only weakly expressed. No 5-HT1F receptor mRNA was detected. In coronary arteries there was a differential expression of 5-HT1B versus 5-HT1D receptor mRNAs, with 5-HT1B mRNAs being found in greater abundance. Dense 5-HT1B-immunoreactivity was detected on smooth muscle layer within coronary artery, however, 5-HT1D-immunoreactivity was not detected. It is concluded that 5-HT-evoked contraction of human coronary arteries is most probably mediated via the activation of both 5-HT1B and 5-HT2A receptors.

Molecular cloning and pharmacological characterization of guinea pig 5-HT1B and 5-HT1D receptors.

Human 5-HT1B and 5-HT1D receptors have been implicated as molecular targets for the treatment of acute migraine based upon the pharmacological actions and clinical efficacy of sumatriptan, an agonist for human 5-HT1B/1D receptors. The guinea pig has served as an animal model to assess 5-HT1B/1D receptor function, most recently in evaluating 5-HT1B/1D receptor agonists as potential anti-migraine agents. Since two distinct, but closely-related receptors displaying "5-HT1D receptor pharmacology" have been cloned previously from most mammalian species, the genes encoding these receptors were isolated from a guinea pig liver genomic DNA library using oligonucleotide probes targeted to nonconserved regions of recombinant human 5-HT1B and 5-HT1D receptors. Sequence analysis indicates that guinea pig 5-HT1B and 5-HT1D receptors are comprised 390 and 378 amino acids, respectively. Comparison of the deduced amino acid sequences of guinea pig 5-HT1B and 5-HT1D receptor subtypes show that they display overall and transmembrane (TM) identities of 63% and 77%, respectively. Both clones contain a conserved threonine residue in TM7, a structural feature imparting "5-HT1D receptor pharmacology". Guinea pig 5-HT1B and 5-HT1D receptor genes were transiently expressed in Cos-7 cells and their binding properties were evaluated using [3H]5-HT. Both cloned receptor subtypes displayed "5-HT1D receptor pharmacology" with the following rank order of binding affinities: 5-CT > 5-HT > sumatriptan > 8-OH-DPAT > (-)-pindolol. Ketanserin displayed modest (five-fold) 5-HT1D receptor selectivity, while methiothepin exhibited a similar selectivity for the 5-HT1B subtype. In particular, ketanserin exhibits profound differences in 5-HT1D receptor affinity (and selectivity) across species. High correlations were observed between the binding affinities of serotonergic ligands for 5-HT1D binding sites measured in guinea pig cortical membranes and both cloned guinea pig 5-HT1B (r2 = 0.88) and 5-HT1D (r2 = 0.80) receptors, indicating that the development of subtype selective compounds (i.e. 5-HT1B versus 5-HT1D) using native tissues may be more difficult to achieve without the advantage of using recombinant receptor subtypes. Additionally, there is a good correspondence between binding profiles of recombinant guinea pig 5-HT1B and 5-HT1D receptor subtypes and to their respective cloned human homologs. However, species differences in binding affinities of a subset of compounds are evident. These data extend previous observations that subtype selective (i.e. 5-HT1D) compounds identified in one species may not discriminate between closely related receptors (i.e. 5-HT1B and 5-HT1D) in all animal model systems.

Cloning and characterization of the guinea pig 5-HT1F receptor subtype: a comparison of the pharmacological profile to the human species homolog.

The anti-migraine compound, sumatriptan, has been shown to have substantial affinity for the cloned human 5-HT1F receptor suggesting that, in addition to 5-HT1B/5-HT1D receptor subtypes, the 5-HT1F receptor may be a therapeutic target for the treatment of migraine. Several investigators have used the guinea pig plasma extravasation model to evaluate potential anti-migraine drugs. Since species differences in the pharmacology of serotonin receptors are well known, we compared the pharmacological profiles of the cloned human and guinea pig 5-HT1F receptors in order to validate the usefulness of the in vivo model in predicting anti-migraine activity of compounds targeted for humans. We have cloned the guinea pig 5-HT1F by homology to the human 5-HT1F receptor and evaluated its pharmacological profile using radioligand binding assays. The cloned guinea pig 5-HT1F gene exhibited 94% amino acid identity to the corresponding human homolog. High affinity (Kd approximately 10 nM) [3H]5-HT binding was detected to membranes obtained from Cos-7 cells transiently expressing the guinea pig 5-HT1F receptor. The cloned guinea pig receptor displayed typical 5-HT1F receptor pharmacology with the following rank order of binding affinities: 5-HT > sumatriptan > 1-NP = DHE > alpha-methyl 5-HT > metergoline > methiothepin > 5-CT. The pharmacological profiles of the cloned guinea pig and human 5-HT1F receptors were very similar as reflected by the high correlation (r2 = 0.72, slope = 0.76) observed between the binding affinities of compounds for these two species homologs. In situ hybridization studies in guinea pig tissue revealed 5-HT1F receptor mRNA expression in the neurons of the trigeminal ganglion, suggesting that the 5-HT1F receptor may play a role in the presynaptic inhibition of neuropeptide release at the level of the intracranial vasculature, thereby blocking the development of neurogenic inflammation. Dorsal root ganglion cells also moderately expressed the 5-HT1F transcripts. The localization of the 5-HT1F receptor to areas involved in the mediation and transfer of nociceptive information implies a role for this receptor in pain processing. These findings indicate that a selective 5-HT1F agonist may be a novel approach to treat migraine.

Differences in ligand binding profiles between cloned rabbit and human 5-HT1D alpha and 5-HT1D beta receptors: ketanserin and methiothepin distinguish rabbit 5-HT1D receptor subtypes.

The study of serotonin receptor function has been complicated by the extreme molecular diversity of serotonin receptor subtypes, the lack of selective agonists and antagonists for many of the subtypes, and divergence in the pharmacological properties of a single receptor subtype across different animal species. An example of this pharmacological diversity between species homologues is provided by the 5-HT1D receptor subfamily. To further advance the ability to characterize and pharmacologically compare functional responses mediated by native 5-HT1D receptors, we have cloned the 5-HT1D alpha and 5-HT1D beta receptor subtypes from the rabbit and evaluated their pharmacological profiles using radioligand binding assays. The deduced amino acid sequences of the rabbit 5-HT1D alpha and 5-HT1D beta receptor genes displayed 60% overall identity [75% transmembrane (TM) identity] to each other and > 90% overall identity (95% TM identity) to their corresponding human homologues. Two compounds were identified in binding assays which discriminated between the closely-related 5-HT1D receptors. Ketanserin exhibited high affinity (pKi = 7.66) and selectivity (> 20-fold) for the 5-HT1D alpha receptor while methiothepin displayed high affinity (pKi = 7.86) and selectivity (16-fold) for the 5-HT1D beta receptor subtype. The rabbit and human recombinant 5-HT1D receptors showed significant intraspecies (rabbit 5-HT1D alpha vs. 5-HT1D beta) and interspecies (i.e. rabbit vs. human 5-HT1D alpha) similarities in their ligand binding profiles. These data suggest that 5-HT1D-mediated responses in rabbit preparations may provide information relevant to the pharmacology of the 5-HT1D receptor subtypes in humans.

A receptor autoradiographic and in situ hybridization analysis of the distribution of the 5-ht7 receptor in rat brain.

1. Receptor autoradiography and in situ hybridization histochemistry have been used to delineate the distribution of the 5-ht7 receptor and its mRNA in rat brain. Receptor autoradiographic studies were performed using [3H]-5-carboxamidotryptamine (5-CT) as the radioligand. The binding characteristics of the masking compounds were determined in Cos-7 cells transfected with a panel of 5-HT receptor subtype cDNAs, including the rat 5-ht7 cDNA. In situ hybridization studies were carried out with 35S-labelled oligonucleotide probes to the rat 5-ht7 mRNA. 2. Specific binding of [3H]-5-CT was observed in many areas of the rat brain. Following co-incubation with 1 microM ergotamine, this binding was completely eliminated. After addition of the masking ligands, [3H]-5-CT binding remained in layers 1-3 of cortex, septum, globus pallidus, thalamus, hypothalamus, centromedial amygdala, substantia nigra, periaquaductal gray, and superior colliculus. Addition of the antagonist, methiothepin, to the incubation regimen eliminated most of the remaining [3H]-5-CT binding in the brain, with the exception of the globus pallidus and substantia nigra. 3. The 5-ht7 mRNA was discretely localized in rat brain. The most intense hybridization signals were observed over the thalamus, the anterior hippocampal rudiment, and over the CA3 region of the hippocampus. Other regions containing hybridization signals included the septum, the hypothalamus, the centromedial amygdala and the periaquaductal gray. The regions exhibiting a modest receptor binding signal after methiothepin incubation, the globus pallidus and the substantia nigra, contained no 5-ht7 hybridization signals, suggesting a non-5-ht7 subtype in these two related structures. 4. The distribution of the 5-ht7 receptor and its mRNA is suggestive of multiple roles for this novel 5-HT receptor, within several brain systems. The limbic system (centromedial amygdala, anterior hippocampal rudiment, hypothalamus) is particularly well-represented, indicating a potential role for the 5-ht7 receptor in affective processes.

Cloning and functional expression of a human Y4 subtype receptor for pancreatic polypeptide, neuropeptide Y, and peptide YY.

The pancreatic polypeptide family includes pancreatic polypeptide (PP), neuropeptide Y (NPY), and peptide YY (PYY). Members of the PP family regulate numerous physiological processes, including appetite, gastrointestinal transit, anxiety, and blood pressure. Of the multiple Y-type receptors proposed for PP family members, only the Y1 subtype has been cloned previously. We now report the cloning of an additional Y-type receptor, designated Y4, by homology screening of a human placental genomic library with transmembrane (TM) probes derived from the rat Y1 gene. The Y4 genomic clone encodes a predicted protein of 375 amino acids that is most homologous to Y1 receptors from human, rat, and mouse (42% overall; 55% in TM). 125I-PYY binding to transiently expressed Y4 receptors was saturable (pKd = 9.89) and displaceable by human PP family derivatives: PP (pKi = 10.25) approximately PP2-36 (pKi = 10.06) > PYY (pKi = 9.06) approximately [Leu31,Pro34]NPY (pKi = 8.95) > NPY (pKi = 8.68) > PP13-36 (pKi = 7.13) > PP31-36 (pKi = 6.46) > PP31-36 free acid (pKi < 5). Human PP decreased [cAMP] and increased intracellular [Ca2+] in Y4-transfected LMTK- cells. Y4 mRNA was detected by reverse transcriptase-polymerase chain reaction in human brain, coronary artery, and ileum, suggesting potential roles for Y4 receptors in central nervous system, cardiovascular, and gastrointestinal function.

The 5-HT4 receptor: molecular cloning and pharmacological characterization of two splice variants.

Molecular cloning efforts have provided primary amino acid sequence and signal transduction data for a large collection of serotonin receptor subtypes. These include five 5-HT1-like receptors, three 5-HT2 receptors, one 5-HT3 receptor, two 5-HT5 receptors, one 5-HT6 receptor and one 5-HT7 receptor. Molecular biological information on the 5-HT4 receptor is notably absent from this list. We now report the cloning of the pharmacologically defined 5-HT4 receptor. Using degenerate oligonucleotide primers, we identified a rat brain PCR fragment which encoded a '5-HT receptor-like' amino acid sequence. The corresponding full length cDNA was isolated from a rat brain cDNA library. Transiently expressed in COS-7 cells, this receptor stimulates adenylyl cyclase activity and is sensitive to the benzamide derivative cisapride. The response is also blocked by ICS-205930. Interestingly, we isolated two splice variants of the receptor, 5-HT4L and 5-HT4S, differing in the length and sequence of their C-termini. In rat brain, the 5-HT4S transcripts are restricted to the striatum, but the 5-HT4L transcripts are expressed throughout the brain, except in the cerebellum where it was barely detectable. In peripheral tissues, differential expression was also observed in the atrium of the heart where only the 5-HT4S isoform was detectable.

The human serotonin 5-hydroxytryptamine1D receptor pseudogene is transcribed.

An examination of mRNA expression of the serotonin genes encoding both psi 5HT1D alpha and the related 5HT1D alpha, demonstrated that the pseudogene is transcribed, and has a tissue distribution similar to the 5HT1D alpha receptor-encoding gene. This psi 5HT1D alpha transcript is capable of being translated into a polypeptide of only 28 amino acids in length, and the psi 5HT1D alpha pseudogene most likely arose from a gene duplication or transposition event.

Rearrangement of a VH-associated LINE-1 element with the expressed IgH cluster in a murine myeloma cell line.

The MPC11 mouse myeloma cell line (IgG2b kappa) has yielded numerous variants in Ig heavy-chain production. One such variant, E5.7A14, fails to produce gamma 2b heavy chain but still produces kappa light chain. Comparison of the restriction maps of E5.7A14 and MPC11 has shown that in E5.7A14, the expressed MPC11VH gene has been deleted and replaced by a different DNA segment. Cloning and sequencing of the rearranged heavy-chain gene has identified the new DNA segment as a virtually full-length LINE-1 element that, in germ line, apparently lies in a inverted transcriptional orientation downstream of a previously unknown member (pseudogene) of the VH3609 gene family. The LINE-1 rearrangement was associated with an inversion of a 2-kb segment of the J-C gamma 2b intron and a deletion of switch sequences. The nature of the rearrangements and the sequences at recombination and inversion breakpoints suggest that the rearrangement event was mediated via class switch mechanisms. This is one of a limited number of reports that both characterizes a LINE rearrangement and localizes the germ-line origin of the particular LINE element involved.

The rat homologue of the bovine alpha 1c-adrenergic receptor shows the pharmacological properties of the classical alpha 1A subtype.

The cDNA for the rat alpha 1c-adrenergic receptor (AR) has been cloned using a probe derived from the bovine alpha 1c-AR sequence. Clone rB7a has a 2.6-kilobase insert with a 1390-base pair open reading frame and encodes a receptor of 466 amino acids. The cloned receptor has 91% amino acid identity with the bovine alpha 1c-AR. The rat alpha 1c-AR mRNA was detected in tissues known to be enriched for the alpha 1A-AR subtype, including vas deferens, heart, kidney, and hippocampus. Rat alpha 1c-AR mRNA was absent from liver and spleen when assayed by Northern blot analyses and RNase protection assays. In COS-7 cells transfected with cDNAs encoding the three rat alpha 1-ARs, WB-4101 and benoxathian had similar binding affinities for the alpha 1a/d-AR and the alpha 1c-AR and 10-fold lower affinities for the alpha 1b-AR. The affinity of 5-methylurapidil was found to be 10- and 30-fold higher at the alpha 1c-AR than at the alpha 1a/d- and alpha 1b-ARs, respectively. (S)-(+)-Niguldipine was found to have high affinity for the rat alpha 1c-AR, with 42- and 22-fold lower affinity at the alpha 1a/d- and alpha 1b-ARs, respectively. Treatment of intact transfected COS-7 cells with chlorethylclonidine resulted in the inactivation of 19% of the alpha 1c-ARs, in contrast to 72% and 85% inactivation of the alpha 1a/d- and alpha 1b-ARs, respectively. Similarly to the other two alpha 1-ARs, the rat alpha 1c-AR is coupled to the activation of phospholipase C. Our data suggest that the rat alpha 1c-AR cDNA encodes an alpha 1-AR with the pharmacological properties previously defined for the alpha 1A subtype found in tissues.

The alpha 1-adrenergic receptor that mediates smooth muscle contraction in human prostate has the pharmacological properties of the cloned human alpha 1c subtype.

Molecular cloning studies have revealed the existence of three subtypes of alpha 1-adrenergic receptors. However, the link between any individual subtype and its functional role in the body has remained elusive. In an effort to bridge the gap between molecular biology and pathophysiology, we have chosen a model smooth muscle system, the human prostate, and investigated the role of alpha 1 subtypes in this tissue. To determine which alpha 1-adrenergic receptor subtype mediates the contractile response of the human prostate, we first studied the pharmacological properties of three cloned human alpha 1 subtypes (alpha 1a/d, alpha 1b, and alpha 1c). Prazosin, terazosin, doxazosin, alfuzosin, and abanoquil showed no selectivity for the human alpha 1 subtypes. WB-4101 and 5-methylurapidil showed a rank order of potency of alpha 1c > alpha 1a/d >> alpha 1b. Indoramin and (+)-niguldipine were selective for the alpha 1c-adrenergic receptor, with at least 10-fold lower affinity at either alpha 1a/d or alpha 1b subtypes. SK&F104856 was found to be 6-fold more potent at the alpha 1a/d receptor subtype than at alpha 1b- or alpha 1c-adrenergic receptors. We next determined the potency of these antagonists to inhibit the phenylephrine-induced contraction of human prostatic tissue in vitro. The potencies of indoramin, 5-methylurapidil, and SK&F104856 to inhibit the contractile response and to displace [3H]prazosin from the cloned human alpha 1c subtype were similar. Our data suggest that the alpha 1 receptor that mediates the contraction of human prostate smooth muscle has the pharmacological properties of the cloned human alpha 1c-adrenergic receptor. The findings of the present study suggest that selective alpha 1c-adrenergic receptor antagonists may be clinically more efficacious and better tolerated agents for the treatment of symptomatic benign prostatic hyperplasia.

Cloning of a novel human serotonin receptor (5-HT7) positively linked to adenylate cyclase.

An intron-containing gene encoding a novel human serotonin (5-HT) receptor was isolated from human genomic and cDNA libraries with probes directed to transmembrane regions of the adenylate cyclase stimulatory Drosophila serotonin receptor gene, 5-HTdrol. Membranes harvested from transiently transfected Cos-7 cells displayed high affinity (Kd = 8.5 nM), saturable (Bmax = 6.6 pmol/mg protein) [3H]5-HT binding. The rank order of potencies for serotonergic ligands to displace specific [3H]5-HT binding was: 5-carboxamido-tryptamine > methiothepin > metergoline > 5-HT > 8-hydroxy-2-(di-n-propylamino)tetralin > sumatriptan > ketanserin > zacopride. 5-HT produced a dose-dependent (EC50 = 992 nM) stimulation (approximately 20-fold) of cAMP accumulation in transiently transfected cells, and this response was antagonized by the nonselective 5-HT antagonist methiothepin. RNA for this gene was predominantly detected in the human brain and a subset of peripheral tissues including coronary artery and several tissues of the gastrointestinal tract. The molecular biological and pharmacological properties of this receptor suggest that it is the first member of a new serotonin receptor subfamily (5-HT7). The second messenger coupling, and tissue distribution indicate a possible identity to 5-HT receptors that mediate relaxant responses in certain isolated blood vessels.

DNA rearrangements affecting both variable and constant regions of Ig H chain genes in MPC11 mouse myeloma variants.

We have examined the mechanisms that account for short Ig H chain production in two variants of the mouse myeloma cell line MPC11 (IgG2b, kappa) by mRNA sequencing and restriction enzyme mapping. One variant, F5.5, has a thymidine residue inserted into the (CH3) domain, of the Ig H chain, resulting in premature termination and translation of a gamma 2b H chain of 50,000 m.w. A second variant, E5.7A12, contains gamma 2a-derived sequences that extend from near the 3' end of the CH2 domain to the intervening sequence between the CH2 and CH3 domains, consistent with a microrecombination event (defined as either a double cross-over or gene conversion event). In this variant, the 5' end of the CH3 domain has been deleted, but the remainder of the gamma 2b(CH3) domain is present, resulting in the translation of a gamma 2b-gamma 2a-gamma 2b H chain of 52,000 m.w. Additional rearrangements affecting sequences in or adjacent to the variable region accompany H chain constant region alterations in these cell lines and subclones of these cell lines. In F5.5, novel sequences have recombined within one of two duplicated copies of the VH gene. In a sister clone of E5.7A12 that has ceased H chain production (E5.7A14), new sequences have recombined within 300 bp 5' of the enhancer element. Both F5.5 and E5.7A12, like their immediate unstable precursor cells, fail to assemble H-H dimers, halting the Ig assembly process at the heavy-light stage, and do not secrete H chains. We speculate that defects in H chain assembly and secretion, as exemplified by the parents of these variants (i.e., intermediates of these secondary variants), reactivate the Ig gene rearrangement machinery and result in the formation of these putatively equally unstable secondary variants.

Binding, ingestion, and multiplication of Chlamydia trachomatis (L2 serovar) in human leukocyte cell lines.

We examined the ability of lymphoblastoid-myeloid cell lines to bind, ingest, and permit multiplication of Chlamydia trachomatis (L2 serovar). Four types of chlamydia-cell line interactions were observed: minimal bacterial binding; bacterial binding, followed by ingestion and high-level multiplication; bacterial binding, followed by ingestion but minimal multiplication; and bacterial binding, but minimal ingestion or replication. Our data demonstrate that at 37 degrees C in vitro the L2 serovar can both bind avidly to a cell without entering it and enter nonphagocytic cells but not grow.