Alpha-helical small molecular size analogues of neuropeptide Y: structure-activity relationships.

C-terminal analogues of neuropeptide Y (NPY) of small molecular size have been synthesized. The influence of chain length, single or multiple amino acid substitution, and segment substitutions on receptor binding, pre- and postsynaptic biological activity, and conformational properties have been investigated. Receptor binding and in vivo assays revealed biological activity for NPY Ac-25-36 that increased with increasing alpha-helicity. In attempts to stabilize the alpha-helical content, three independent types of modified NPY Ac-25-36 analogues were synthesized. Strong agonistic activities could be detected in a series of discontinuous analogues, which are constructs of N-terminal parts linked via different spacer molecules to C-terminal segments. One of the most active molecules was NPY 1-4-Aca-25-36 (Aca, epsilon-aminocaproic acid). For the first time conformational properties of a series of small NPY analogues have been investigated by CD, and correlated with biological activity and receptor binding. A C-terminal dodecapeptide segment of NPY with an amount of 50% substitution to the native C-terminal sequence of NPY was found to exhibit significant receptor binding.     

Further evidence that the serotonin receptor in the rat stomach fundus is not 5HT1A or 5HT1B

The nature of the receptor mediating serotonin contraction in the rat stomach fundus has not been clearly associated with either 5HT1 or 5HT2 receptors. We have explored the possibility that such receptors in the rat fundus may better correlate with 5HT1A or 5HT1B receptor subtypes as defined by radiolabeled ligand binding studies with brain cortical membranes. Meta chlorophenylpiperazine (CPP) and meta trifluoromethylphenylpiperazine (TFMPP), selective ligands for the 5HT1B receptor and LY165163, a selective ligand for the 5HT1A receptor, have been evaluated for their agonist and antagonist activity at serotonin receptors in the rat stomach fundus. CPP and TFMPP were partial agonists in the rat stomach fundus whereas LY165163 showed no agonist activity in this smooth muscle in concentrations up to 10(-4)M. All three phenylpiperazines antagonized serotonin-induced contractions in the rat stomach fundus. The affinity for serotonin receptors in the rat fundus was similar for all three phenylpiperazines in spite of the reported selectivity of MCPP and TFMPP for 5HT1B and of LY165163 for 5HT1A receptors. Furthermore, the affinity of these agents for serotonin receptors in the rat stomach fundus did not agree with their reported affinity for either 5HT1A or 5HT1B binding sites in rat cortical membranes. Thus, the similarity in affinities of these phenylpiperazine derivatives for serotonin receptors mediating contraction in the rat fundus along with their different affinities for 5HT1A and 5HT1B binding sites argues against the possibility that the serotonin receptor in the rat fundus is of the 5HT1A or 5HT1B subtype of serotonin receptor.     

5HT7 receptors in the rodent suprachiasmatic nucleus

Serotonergic modulation of circadian rhythms in rodent model preparations has received considerable attention over the past decade. Investigators have also been trying to determine which of the many serotonin receptor subtypes may be mediating the effects of serotonin in the suprachiasmatic nucleus, the location of the biological clock that generates the circadian rhythms. A single study in 1993 using the in vitro rat hypothalamic slice preparation suggested that serotonergic modulation of circadian rhythms at the level of the suprachiasmatic nucleus was acting via the newly discovered 5HT7 receptor subtype. Since that initial claim, serotonin modulation of circadian rhythms at the level of the suprachiasmatic nucleus has generally been attributed to 5HT7 receptor activation. However, when trying to cite relevant literature in support of 5HT7 involvement, it becomes evident that attributing rhythm-related serotonin activity in the suprachiasmatic nucleus to 5HT7 receptors may be somewhat premature. There are issues related to pharmacological specificity, species-specific results, and significant knowledge gaps that necessitate a careful review of the literature to make a judgment as to whether 5HT7 receptors are responsible for serotonergic activity in the rodent suprachiasmatic nucleus. In addition, there is sufficient data available at present to make an initial determination as to the degree of 5HT7 receptor involvement at any level in the generation or modulation of circadian rhythms in rodent species.     

Design, synthesis, and evaluation of linear and cyclic peptide ligands for PDZ10 of the multi-PDZ domain protein MUPP1

PDZ10 is the 10th of 13 PDZ domains found within MUPP1, a cytoplasmic scaffolding protein first identified as an endogenous binding partner of serotonin receptor type 2c (5HT2c). This association, as with those of several other interacting proteins that have subsequently been identified, is mediated through the C-terminal tail of the PDZ domain partner. Using isothermal titration calorimetry (ITC), we measured the thermodynamic binding parameters [changes in Gibbs free energy (DeltaG), enthalpy (DeltaH) and entropy (TDeltaS)] of the isolated PDZ10 domain for variable-length N-acetylated peptides from the 5HT2c serotonin receptor C-terminal sequence, as well as for octapeptides of eight other putative partner proteins of PDZ10 (5HT2a, hc-kit, hTapp1, mTapp2, TARP, NG2, claudin-1, and HPV-18 E6). In length dependence studies of the 5HT2c sequence, the maximal affinity of the peptides leveled off rapidly and further elongation did not significantly improve the dissociation constant (Kd) of 11 microM observed with the pentapeptide. Among the native partners of PDZ10, octapeptides derived from the hc-kit and 5HT2c proteins were the strongest binders, with Kd values of 5.2 and 8.5 microM, respectively. The heat capacity change (DeltaCp) for the 5HT2c octapeptide was determined to be -94 cal/mol, and a calculated estimate indicates burial of polar and apolar surface areas in equal measure upon ligand binding. Peptides with phosphoserine at either the P-1 or P-2 position experienced decreased affinity, which is in accord with the hypothesis that reversible phosphorylation is a possible mechanism for regulating PDZ domain-mediated interactions. Additionally, two conformationally constrained side chain-bridged cyclic peptide ligands were also designed, prepared, evaluated by ITC, and shown to bind PDZ10 primarily through a favorable change in entropy.     

Synthesis and characterization of photolabile derivatives of serotonin for chemical kinetic investigations of the serotonin 5-HT(3) receptor

A series of photolabile o-nitrobenzyl derivatives of serotonin (caged serotonin) were synthesized: the amine-linked serotonin derivatives N-(2-nitrobenzyl) serotonin (Bz-5HT) and N-(alpha-carboxy-2-nitrobenzyl) serotonin (N-CNB-5HT), and O-alpha-carboxy-2-nitrobenzyl) serotonin (O-CNB-5HT), which has the caging group attached to the phenolic OH group. All the derivatives released free serotonin when excited by 308-nm or 337-nm laser pulses. The time constant of serotonin release from N-CNB-5HT was 1. 2 ms, with a quantum yield of 0.08. This is too slow for rapid chemical kinetic measurements. O-CNB-5HT is suitable for transient kinetic investigations of the serotonin 5-HT(3) receptor. It released serotonin with a time constant of 16 micros and a quantum yield of 0.03. The biological properties of O-CNB-5HT were evaluated, and the applicability of the compound for kinetic studies of the 5-HT(3) receptor was demonstrated. O-CNB-5HT does not activate the 5-HT(3) receptor by itself, nor does it modulate the response of a cell when co-applied with serotonin. When irradiated with a 337-nm laser pulse, O-CNB-5HT released free serotonin that evoked 5-HT(3) receptor-mediated whole-cell currents in NIE-115 mouse neuroblastoma cells.     

Serotonin-activated signal transduction via serotonin receptors on Jurkat cells

Serotonin (5-hydroxytryptamine) (5HT) a neurotransmitter and vasoactive amine, is a major storage product of platelets that are released at sites of inflammation. Several different subtypes of serotonin receptors have been defined. 5HT receptors have been divided into three major families based on molecular, biochemical, and pharmacologic properties. Binding of serotonin to the 5HT1 family results in inhibition of adenylate cyclase whereas binding to the 5HT2 family results in stimulation of phosphatidylinositol turnover and mobilization of intracellular Ca2+. 5HT has been shown to have effects on lymphoid cells. The question of whether human T lymphocytes express receptors for 5HT and transduce signals through 5HT receptors has not been adequately addressed. As a model system, Jurkat cells (a transformed human T lymphocyte line) were examined to determine if they expressed 5HT receptors and whether 5HT stimulated an increase in inositol phosphates or affected adenylate cyclase activity. The results show that Jurkat cells bind 5HT with an average dissociation constant of 90 nM and that 5HT stimulates an increase in inositol phosphate and intracellular Ca2+ levels. These results link the 5HT receptor on Jurkat cells to the 5HT2 family; however, studies with 5HT receptor agonists and antagonists failed to clearly classify the 5HT receptor on Jurkat cells as a known member of the 5HT2 family.     

In vitro receptor specificity of the 5HT1A selective phenylpiperazine, LY165163

LY165163, a ligand reported to be selective for the 5HT1A subtype of serotonin receptor, was examined for its ability to interact with 5HT2 receptors in the rat jugular vein and alpha-receptors in the rat aorta. In these smooth muscle preparations, no agonist activity of LY165163 occurred in concentrations up to 10(-5) M. However, LY165163 was an antagonist of serotonin-induced contractions in the jugular vein and of norepinephrine-induced contractions in the rat aorta. The dissociation constant calculated for LY165163 at 5HT2 receptors in the rat jugular vein was 10(-8) M and at alpha-receptors in the rat aorta was 2 X 10(-7) M. Thus, LY165163 is a relatively potent antagonist at vascular 5HT2 sites and possesses appreciable affinity at alpha-receptors. Based on these data, the multiple receptor interactions of LY165163 must be taken into consideration when utilizing this agent as a probe for the 5HT1A subtype of serotonin receptor.     

The cloning of one putative octopamine receptor and two putative serotonin receptors from the tobacco hawkmoth, Manduca sexta

Serotonin and octopamine (OA) are biogenic amines that are active throughout the nervous systems of insects, affecting sensory processing, information coding and behavior. As an initial step towards understanding the modulatory roles of these amines in olfactory processing we cloned two putative serotonin receptors (Ms5HT1A and Ms5HT1B) and one putative OA (MsOAR) receptor from the moth Manduca sexta. Ms5HT1A and Ms5HT1B were both similar to 5HT1-type receptors but differed from each other in their N-terminus and 3rd cytoplasmic loop. Ms5HT1A was nearly identical to a serotonin receptor from Heliothis virescens and Ms5HT1B was almost identical to a serotonin receptor from Bombyx mori. The sequences for homologs of Ms5HT1A from B. mori and Ms5HT1B from H. virescens were also obtained, suggesting that the Lepidoptera likely have at least two serotonin receptors. The MsOAR shares significant sequence homology with pharmacologically characterized OA receptors, but less similarity to putative OA/tyramine receptors from the moths B. mori and H. virescens. Using the MsOAR sequence, fragments encoding putative OA receptors were obtained from B. mori and H. virescens, suggesting that MsOAR is the first OA receptor cloned from a lepidopteran.     

The mouse 5HT5 receptor reveals a remarkable heterogeneity within the 5HT1D receptor family.

Serotonin (5-HT) is a neuromodulator that mediates a wide range of physiological functions by activating multiple receptors. Using a strategy based on amino acid sequence homology between 5-HT receptors that interact with G proteins, we have isolated a cDNA encoding a new serotonin receptor from a mouse brain library. Amino acid sequence comparisons revealed that this receptor was a distant relative of all previously identified 5-HT receptors; we therefore named it 5HT5. When expressed in Cos-7 cells and NIH-3T3 cells, the 5HT5 receptor displayed a high affinity for the serotonergic radioligand [125I]LSD. Surprisingly, its pharmacological profile resembled that of the 5HT1D receptor, which is a 5-HT receptor subtype which has been shown to inhibit adenylate cyclase and which is predominantly expressed in basal ganglia. However, unlike 5HT1D receptors, the 5HT5 receptor did not inhibit adenylate cyclase and its mRNA was not found in basal ganglia. On the contrary, in situ hybridization experiments revealed that the 5HT5 mRNA was expressed predominantly in cerebral cortex, hippocampus, habenula, olfactory bulb and granular layer of the cerebellum. Our results therefore demonstrate that the 5HT1D receptors constitute a heterogeneous family of receptors with distinct intracellular signalling properties and expression patterns.     

Structure/activity relationships of C-terminal neuropeptide Y peptide segments and analogues composed of sequence 1-4 linked to 25-36

C-terminal analogues of neuropeptide Y have been synthesized. The influence of chain length, single-amino-acid substitutions and segment substitutions on receptor binding, biological activity and conformational properties has been investigated. Receptor binding and in vivo assays revealed biological activity already for amino acids 28-36 of neuropeptide Y [neuropeptide Y-(Ac-28-36)-peptide] which increased with increasing chain length. Replacement of Arg25 in neuropeptide Y-(Ac-25-36)-peptide had no influence on binding, whereas Arg33 and Arg35 cannot be replaced by lysine or ornithine without considerable decrease in receptor binding. The introduction of conformational constraints by the 2-aminoisobutyric acid residue (Aib) in position 30 and replacing the amino acids 28-32 by Ala-Aib-Ala-Aib-Ala decreased receptor binding. However, the corresponding Aib-Ala-Aib-Ala-Aib-substituted analogue and a more flexible analogue with Gly5 at position 28-32 exhibited considerable affinity for the receptor. All these substitutions led to a decrease in postsynaptic activity. Strong agonistic activities could be detected in a series of 10 discontinuous analogues, which are constructs of N-terminal parts linked via different spacer molecules to C-terminal segments. One of the most active molecules was neuropeptide Y amino acids 1-4 linked to amino acids 25-36 through aminohexanoic acid (Ahx) [neuropeptide Y-(1-4-Ahx-25-36)-peptide].     

A-to-I editing of the 5HT2C receptor and behaviour.

Site-specific deamination of five adenosine residues in the pre-mRNA of the serotonin 2C receptor, 5HT2CR, alters the amino acid sequence of the encoded protein. Such RNA editing can produce 32 mRNA variants, encoding 24 protein isoforms that vary in biochemical and pharmacological properties. Because serotonin functions in the regulation of mood and behaviour, modulation of serotonin signalling by RNA editing may be relevant to such psychiatric disorders as anxiety and depression. Several recent human studies have reported changes in 5HT2CR editing in schizophrenia, major depression or suicide, but results are variable and not conclusive. Rodent studies have begun to examine effects of drug treatments and stress. Understanding the importance of 5HT2CR editing in mood and behaviour will be assisted by experiments designed to analyse multiple strains of mice, in different behavioural tests, with optimal evaluation of the time course of molecular changes.     

Cloning and characterization of a Drosophila tyramine receptor.

Receptors for biogenic amines such as dopamine, serotonin and epinephrine belong to the family of receptors that interact with G proteins and share a putative seven transmembrane domain structure. Using a strategy based on nucleotide sequence homology between the corresponding genes, we have isolated Drosophila cDNA clones encoding a new member of the G protein-coupled receptor family. This protein exhibits highest homology to the human alpha 2 adrenergic receptors, the human 5HT1A receptor and a recently cloned Drosophila serotonin receptor. The corresponding mRNA is found predominantly in adult Drosophila heads. Membranes from mammalian cells expressing this receptor displayed high affinity binding sites for [3H]yohimbine, an alpha 2 adrenergic receptor antagonist (Kd = 4.45 x 10(-9) M). Tyramine was the most efficient of the putative Drosophila neurotransmitters at displacing [3H]yohimbine binding (EC50 = 1.25 x 10(-6) M). Furthermore tyramine induced an inhibition of adenylate cyclase activity in NIH 3T3 cells expressing this receptor. The Drosophila tyramine receptor that we have isolated might therefore be an invertebrate equivalent of the mammalian alpha 2 adrenergic receptors.     

Effect of LY53857, a selective 5HT2 receptor antagonist, on 5HT-induced increases in cutaneous vascular permeability in rats

Both serotonin and histamine increased cutaneous vascular permeability in rats; however, serotonin was approximately 100-fold more potent than histamine. LY53857 (0.1 and 1.0 mg/kg, i.p.), a selective 5HT2 receptor antagonist, blocked serotonin- but not histamine-induced increases in cutaneous vascular permeability. the alpha 1 receptor antagonist, prazosin, did not significantly affect increases in vascular permeability produced by serotonin. These data extend previous studies with LY53857 by further documenting its selectivity as a 5HT2 receptor antagonist. In addition, these results with a selective 5HT2 receptor antagonist provide evidence that 5HT2 receptor activation may be the predominant mechanism associated with vascular permeability changes induced by serotonin.     

Human C5a-related synthetic peptides as neutrophil chemotactic factors.

The pentapeptide L-methionyl-L-glutaminyl-L-leucyl-glycyl-L-arginine, which mimics the C-terminal sequence of human C5a anaphylatoxin, and two additional N-formylmethionyl derivatives of this peptide have been assessed for their ability to simulate C5a-related biological activities. Only the N-formylated peptides display chemotactic activity or induce lysosomal enzyme release when assayed with human neutrophils. Additional studies indicate that the active peptides, although designed after the C-terminal structure of the human C5a molecule, were apparently active because of their interaction with the N-formylmethionyl peptide receptor rather than the C5a receptor on neutrophils.     

Mutagenesis analysis of the serotonin 5-HT2C receptor and a Caenorhabditis elegans 5-HT2 homologue: conserved residues of helix 4 and helix 7 contribute to agonist-dependent activation of 5-HT2 receptors

An alignment of serotonin [5-hydroxytryptamine (5-HT)] G protein-coupled receptors identified a lysine at position 4.45 (helix 4) and a small polar residue (serine or cysteine) at 7.45 (helix 7) that occur exclusively in the 5-HT2 receptor family. Other serotonin receptors have a hydrophobic amino acid, typically a methionine, at 4.45 and an invariant asparagine at 7.45. The functional significance of these class-specific substitutions was tested by site-directed mutagenesis of two distantly related 5-HT2 receptors, Caenorhabditis elegans 5-HT2ce and rat 5-HT2C. Residues 4.45 and 7.45 were each mutated to a methionine and asparagine, respectively, or an alanine and the resulting constructs were tested for activity. A K4.45M mutation decreased serotonin-dependent activity (Emax) of the rat 5-HT2C receptor by 60% and that of the C. elegans homologue by 40%, as determined by a fluorometric plate-based calcium assay. The rat mutant also exhibited nearly sixfold higher agonist binding affinity and significantly lower constitutive activity compared with wildtype. Mutagenesis of S7.45 in the C. elegans receptor increased serotonin binding affinity by up to 25-fold and decreased Emax by up to 65%. The same mutations of the cognate C7.45 in rat 5-HT2C produced a smaller fourfold change in the affinity for serotonin and decreased agonist efficacy by up to 50%. Substitutions of S/C7.45 did not produce a significant change in the basal activity of either receptor. All mutants tested exhibited levels of receptor expression similar to the corresponding wildtype based on measurements of specific [3H]-mesulergine binding or flow cytometry analyses. Taken together, these results suggest that K4.45 and S/C7.45 play an important role in the conformational rearrangements leading to agonist-induced activation of 5-HT2 receptors.     

Computational exploration of polymorphisms in 5-hydoxytryptamine 5-HT₁A and 5-HT₂A receptors associated with psychiatric disease

The huge polymorphic data have been prioritized towards a specific disease based on sequence and structure homology tools to a large extent. In this study, we have explored the potential non-synonymous Single Nucleotide Polymorphism (nsSNP) in serotonin (5-HT) receptors involved in psychotic syndromes and their response pathway. The most damaging point mutations were screened from 12 classes of serotonin receptors comprising 7743 variants. In 5HT(1A) receptor, two alleles were found to be highly deleterious located at ligand binding extracellular-2 and one at intracellular loop-3 domains. Similarly, we found two alleles predicted to be highly damaging in 5HT(2A) residing at N and C-Terminal domains. The above alleles were further confirmed based on their flexibility and stability difference using the molecular dynamic simulation analysis. Integrating these results appeared promising for being able to filter out potential non-synonymous Single Nucleotide Polymorphisms for neuropsychiatric disorders.     

Lack of Association Between Down Syndrome and Polymorphisms in Dopamine Receptor D4 and Serotonin Transporter Genes

Down Syndrome (DS) patients suffer from cognitive dysfunction, depression, hyperactivity, irritability etc. Dopamine (DA) and serotonin (5HT) are known to control cognitive and behavioral attributes. An increased number of the DA receptor 4 (DRD4) is detected in brain regions primarily involved in cognition. Impairments in executive function have also been reported with depletion in 5HT. A variable number of tandem repeat (VNTR) in the exon 3 of DRD4 and an insertion/deletion polymorphism in the promoter region of 5HT transporter (5HTTLPR) have been found to be associated with different neurobehavioral disorders; however, association of these polymorphisms with DS has never been explored. The present family-based analysis on DS revealed significant over-transmission of a DRD4 VNTR allele which encodes for D4 receptor with average activity. No association was noticed for the 5HTTLPR. We may conclude that these genetic polymorphisms are not contributing to the neuromotor and cognitive dysfunctions observed in DS.