Structural manipulation of aporphines via C10 nitrogenation leads to the identification of new 5-HT7AR ligands

Aporphine alkaloids containing a C10 nitrogen motif were synthesized and evaluated for affinity at 5-HT_1AR, 5-HT_2AR, 5-HT₆R and 5-HT_7AR. Three series of racemic aporphines were investigated: 1,2,10-trisubstituted, C10 N-monosubstituted and compounds containing a C10 benzofused aminothiazole moiety. The 1,2,10-trisubstituted series of compounds as a group displayed modest selectivity for 5-HT_7AR and also had moderate 5-HT_7AR affinity. Compounds from the C10 N-monosubstituted series generally lacked affinity for 5-HT_2AR and 5-HT₆R and showed strong affinity for 5-HT_1A or 5-HT_7AR. Compounds in this series that contained an N6-methyl group were up to 27-fold selective for 5-HT_7AR over 5-HT_1AR, whereas compounds with an N6-propyl substituent showed a reversal in this selectivity. The C10 benzofused aminothiazole analogues showed a similar binding profile as the C10 N-monosubstituted series i.e. strong affinity for 5-HT_1AR or 5-HT_7AR, with selectivity between the two receptors being similarly influenced by N6-methyl or N6-propyl substituents. Compounds 29 and 34a exhibit high 5-HT_7AR affinity, excellent selectivity versus dopamine receptors and function as antagonists in 5-HT_7AR cAMP-based assays. Compounds 29 and 34a have been identified as new lead molecules for further tool and pharmaceutical optimization.     

Identification of 3-sulfonylindazole derivatives as potent and selective 5-HT(6) antagonists

As part of our efforts to develop agents for cognitive enhancement, we have been focused on the 5-HT₆ receptor in order to identify potent and selective ligands for this purpose. Herein we report the identification of a novel series of 3-sulfonylindazole derivatives with acyclic amino side chains as potent and selective 5-HT₆ antagonists. The synthesis and detailed SAR of this class of compounds are reported.     

Design and synthesis of novel series of 5-HT6 receptor ligands having indole,a central aromatic core and 1-amino-4 methyl piperazine as a positive ionizable group

The exclusive distribution of 5-HT₆ receptor in the brain regions and high affinity for antipsychotic and antidepressant drugs makes 5-HT₆ receptor a promising target in treatment of CNS diseases. Based on a pharmacophore model reported in the literature, we designed and synthesized a novel series of 5-HT₆ receptor ligands having indole as a central aromatic core and 1-amino-4-methyl piperazine as positive ionizable group. Out of 32 compounds we have successfully identified 10 new compounds as 5-HT₆ receptor antagonists. The structure–activity relationship (SAR) studies have been carried out by mapping the compounds with the 3D QSAR model.     

Identification of a series of benzoxazoles as potent 5-HT6 ligands

As part of our continuing efforts to identify therapeutics for CNS diseases such as schizophrenia and Alzheimer’s disease (AD), we have been focused on the 5-HT₆ receptor in order to identify potent and selective ligands as a potential treatment for cognitive dysfunction. Herein we report the identification of a novel series of benzoxazole derivatives as potent 5-HT₆ ligands. The synthesis and detailed SAR of this class of compounds are reported. The compounds have been shown to be full antagonists in a cyclic AMP functional assay.     

SR 57227A is a partial agonist/partial antagonist of 5-HT3 receptor and inhibits subsequent 5-HT- or SR 57227A-induced 5-HT3 receptor current

The serotonin (5-hydroxytryptamine) type 3 (5-HT₃) receptors are transmembrane ligand-gated ion channels. Although several 5-HT₃ receptor agonists have been used as preclinical tools, SR 57227A is the most commonly used 5-HT₃ receptor agonist with the ability to cross the blood brain barrier. However, the precise pharmacological profile of SR 57227A remains unclear. Therefore, we examined the pharmacological profile of SR 57227A at the 5-HT₃A and 5-HT₃AB receptors. We microinjected Xenopus laevis oocytes with human 5-HT₃A complementary RNA (cRNA) or a combination of human 5-HT₃A and human 5-HT₃AB cRNA and performed two electrode voltage clamp recordings of 5-HT₃A and 5-HT₃AB receptor current in the presence of SR 57227A. Results showed that SR 57227A acts as partial agonist/partial antagonist at the 5-HT₃ receptor. Interestingly, SR 57227A specifically reduced subsequent current amplitudes induced by 5-HT or SR 57227A. Based on its 5-HT₃ receptor partial agonist/partial antagonist properties, we predict that SR 57227A functions as a serotonin stabilizer.     

Procognitive 5-HT6 antagonists in the rat forced swimming test: Potential therapeutic utility in mood disorders associated with Alzheimer's disease

Aims5-HT₆ receptor subtype is predominantly expressed in the brain, and preclinical evidence suggests its potential role in the cognitive function. Brain microdialysis studies demonstrated that 5-HT₆ antagonists enhance not only cholinergic but also monoaminergic neurotransmission, a property that may differentiate from acetylcholine esterase (AChE) inhibitors such as donepezil. In this study we compared the antidepressant-like effects of 5-HT₆ antagonists with donepezil to determine whether their different effects on monoamines are behaviorally relevant.Main methodsSelective 5-HT₆ antagonists (SB-399885 and SB-271046) and donepezil were evaluated in the rat forced swimming test since this is known to identify drugs such as antidepressants which can increase brain monoamine levels. Binding assay was undertaken by using [¹²⁵I]SB-258585 to measure brain 5-HT₆ receptor occupancy.Key findingsSystemic administration of SB-399885 (3 and 10 mg/kg, i.p.) and SB-271046 (10 and 30 mg/kg, i.p.) produced a significant reduction of immobility time in the rat forced swimming test with a similar profile in terms of 5-HT₆ receptor occupancy (62 and 96% for 3 and 10 mg/kg SB-399885 respectively; 56 and 84% for 10 and 30 mg/kg SB-271046 respectively). In contrast, donepezil (0.5 and 1 mg/kg i.p.) did not show any effects in this model.SignificanceThese data suggest that 5-HT₆ antagonists, at doses corresponding to those occupy central 5-HT₆ receptors, could have an antidepressive effect in humans. This may differentiate 5-HT₆ antagonists from AChE inhibitors with respect to the mood control in the symptomatic treatment of Alzheimer's disease.     

Serotonin 5-HT3 receptors in the central nervous system

The 5-HT₃ receptor is a ligand-gated ion channel activated by serotonin (5-HT). Although originally identified in the peripheral nervous system, the 5-HT₃ receptor is also ubiquitously expressed in the central nervous system. Sites of expression include several brain stem nuclei and higher cortical areas such as the amygdala, hippocampus, and cortex. On the subcellular level, both presynaptic and postsynaptic 5-HT₃ receptors can be found. Presynaptic 5-HT₃ receptors are involved in mediating or modulating neurotransmitter release. Postsynaptic 5-HT₃ receptors are preferentially expressed on interneurons. In view of this specific expression pattern and of the well-established role of 5-HT as a neurotransmitter shaping development, we speculate that 5-HT₃ receptors play a role in the formation and function of cortical circuits.     

The Peptides Mimicking the Third Intracellular Loop of 5-Hydroxytryptamine Receptors of the Types 1B and 6 Selectively Activate G Proteins and Receptor-Specifically Inhibit Serotonin Signaling via the Adenylyl Cyclase System

The third intracellular loop (ICL3) of G protein-coupled receptors has, as a rule, a key role in their interaction with heterotrimeric G proteins. We synthesized peptides corresponding to the C-terminal region of the ICL3 (C-ICL3) of 5-hydroxytryptamine receptors of the type 1B (5-HT_1BR) and 6 (5-HT₆R) and studied their influence on the functional activity of adenylyl cyclase signaling system (ACSS) in synaptosomal membranes isolated from the rat brain. The 5-HT_1BR-peptide ARERKATKTL^307–316K-amide mimicking agonist-activated 5-HT_1BR reduced forskolin-stimulated adenylyl cyclase (AC) activity and activated pertussis toxin-sensitive G proteins. It lowered inhibitory effects of serotonin and 5-HT_1BR-agonists on forskolin-stimulated AC activity and their stimulating effects on GTP binding. This was not the case in the presence of 5-HT_1BR-antagonists. The 5-HT₆R-peptides mimicking 5-HT₆R activated both the basal AC activity and GTP binding of cholera toxin-sensitive G proteins. They lowered the stimulating effect of serotonin and 5-HT₆R-agonists on AC and G_s proteins, but in the presence of 5-HT₆R-antagonists their action was blocked. Of all the 5-HT₆R-peptides with linear and dimeric structure we studied the palmitoylated peptide KHSRKALKASL^258–268K(Pal)A-amide had a most pronounced effect both on the basal and 5-HT₆R-agonist-stimulated ACSS. The data was obtained indicating that the peptides corresponding to C-ICL3 of 5-HT_1BR and 5-HT₆R selectively activate G_i and G_s proteins, respectively, and in a receptor-specific manner reduce signal transduction via serotonin-sensitive ACSS in the rat brain. The results of the study give strong evidence in favor of active participation of C-ICL3 of these 5-HTRs in their coupling with the G proteins.     

5-HT1A and 5-HT2A receptors affinity,docking studies and pharmacological evaluation of a series of 8-acetyl-7-hydroxy-4-methylcoumarin derivatives

In this work we describe the synthesis, docking studies and biological evaluation of a focused library of novel arylpiperazinyl derivatives of 8-acetyl-7-hydroxy-4-methylcoumarin. The new compounds were screened for their 5-HT_1A and 5-HT_2A receptor affinity. Among the evaluated compounds, six displayed high affinities to 5-HT_1A receptors (4a-0.9?nM, 6a-0.5?nM, 10a-0.6?nM, 3b-0.9?nM, 6b-1.5?nM, 10b-1?nM). Compound 6a and 10a bearing a bromo- or methoxy- substituent in ortho position of the piperazine phenyl ring, were identified as potent antagonists of the 5-HT_1A receptors. In the tail suspension test, mice injected with 6a showed a dose-dependent increase in depressive-like behavior that was related to a decrease in locomotor activity. Compound 10a did not decrease or prolong immobility time nor did it affect home cage activity. Molecular docking studies using 5-HT_1A and 5-HT_2A homology models revealed structural basis of the high affinity of ortho-substituted derivatives and subtle changes in amino acid interactions patterns depending on the length of the alkyl linker.     

Evaluation of isotryptamine derivatives at 5-HT2 serotonin receptors

On the basis that meta-chlorophenylpiperazine (mCPP; 1) is a nonselective 5-HT_2C agonist, that benz-fused tryptamines (e.g., 5) display enhanced 5-HT₂ affinity, and that certain isotryptamines 3 reportedly bind with enhanced affinity and selectivity at 5-HT_2C receptors, we prepared and examined a series of isotryptamine-related analogues as potentially selective 5-HT_2C agonists. None of the compounds displayed selectivity for 5-HT_2C versus 5-HT_2A receptors. Detailed re-examination of a compound previously reported to display 100-fold 5-HT_2C selectivity [i.e., S(+)-5,6-difluoro-α-methylisotryptamine] revealed that its selectivity versus 5-HT_2A receptors was, at best, only 10-fold.     

Synthesis of novel 5-substituted-2-aminotetralin analogs: 5-HT1A and 5-HT7 G protein-coupled receptor affinity, 3D-QSAR and molecular modeling

The serotonin 5-HT₇ G protein-coupled receptor (GPCR) is a proposed pharmacotherapeutic target for a variety of central and peripheral indications, albeit, there are no approved drugs selective for binding 5-HT₇. We previously reported that a lead analog based on the 5-substituted-N,N-disubstituted-1,2,3,4-tetrahydronaphthalen-2-amine (5-substituted-2-aminotetralin, 5-SAT) scaffold binds with high affinity at the 5-HT₇ GPCR, and can treat symptoms of autism in mouse models; subsequently, the lead was found to have high affinity at the 5-HT_1A GPCR. Herein, we report the synthesis of novel 5-SAT analogs to develop a 3-dimensional quantitative structure—affinity relationship (3D-QSAR) at the human 5-HT₇ receptor for comparison with similar studies at the highly homologous 5-HT_1A receptor. We report 35 new 5-SAT ligands, some with very high affinity (K_i ≤ 1 nM) and stereoselectivity at 5-HT₇ + or 5-HT_1A receptors, several with modest selectivity (up to 12-fold) for binding at 5-HT₇, and, several ligands with high selectivity (up to 40-fold) at the 5-HT_1A receptor. 3D-QSAR results indicate that steric extensions at the C(5)-position improve selectivity for the 5-HT₇ over 5-HT_1A receptor, while steric and hydrophobic extensions at the chiral C(2)-amino position impart 5-HT_1A selectivity. In silico receptor homology modeling studies, supplemented with molecular dynamics simulations and binding free energy calculations, were used to rationalize experimentally-determined receptor selectivity and stereoselective affinity results. The data from these studies indicate that the 5-SAT chemotype, previously shown to be safe and efficacious in rodent paradigms of neurodevelopmental and neuropsychiatric disorders, is amenable to structural modification to optimize affinity at serotonin 5-HT₇ vs. 5-HT_1A GPCRs, as may be required for successful clinical translation.     

Novel N-biphenyl-2-ylmethyl 2-methoxyphenylpiperazinylalkanamides as 5-HT7R antagonists for the treatment of depression

5-HT₇ receptor (5-HT₇R) is a promising target for the treatment of depression and neuropathic pain. 5-HT₇R antagonists exhibited antidepressant effects, while the agonists produced strong anti-hyperalgesic effects. In our efforts to discover selective 5-HT₇R antagonists or agonists, N-biphenylylmethyl 2-methoxyphenylpiperazinylalkanamides 1 were designed, synthesized, and biologically evaluated against 5-HT₇R. Among the synthesized compounds, N-2′-chlorobiphenylylmethyl 2-methoxyphenylpiperazinylpentanamide 1–8 showed the best binding affinity with a K_i value of 8.69 nM and it was verified as a novel antagonist according to functional assays. The compound 1–8 was very selective over 5-HT_1DR, 5-HT_2AR, 5-HT₃R, 5-HT_5AR and 5-HT₆R and moderately selective over 5-HT_1AR, 5-HT_1BR and 5-HT_2CR. The novel 5-HT₇R antagonist 1–8 exhibited an antidepressant effect at a dose of 25 mg/kg in the forced swimming test in mice and showed a U-shaped dose–response curve which typically appears in 5-HT₇R antagonists such as SB-269970 and lurasidone.     

Evaluation of structural effects on 5-HT2A receptor antagonism by aporphines: Identification of a new aporphine with 5-HT2A antagonist activity

A set of aporphine analogs related to nantenine was evaluated for antagonist activity at 5-HT_2A and α_1A adrenergic receptors.With regards to 5-HT_2A receptor antagonism, a C2 allyl group is detrimental to activity. The chiral center of nantenine is not important for 5-HT_2A antagonist activity, however the N6 nitrogen atom is a critical feature for 5-HT_2A antagonism.Compound 12b was the most potent 5-HT_2A aporphine antagonist identified in this study and has similar potency to previously identified aporphine antagonists 2 and 3. The ring A and N6 modifications examined were detrimental to α_1A antagonism. A slight eutomeric preference for the R enantiomer of nantenine was observed in relation to α_1A antagonism.     

Synthesis and computer-aided analysis of the role of linker for novel ligands of the 5-HT6 serotonin receptor among substituted 1,3,5-triazinylpiperazines

A series of 2-amino-4-(4-methylpiperazin-1-yl)-1,3,5-triazines was designed based on previously published 2-amino-4-benzyl-(4-methylpiperazin-1-yl)-1,3,5-triazines in order to evaluate the role of a linker between the triazine moiety and an aromatic substituent for the human serotonin 5-HT₆ receptor affinity. As new linkers two carbon atoms (ethyl or ethenyl) or an oxyalkyl chain (methoxy, 2-ethoxy, 2-propoxy) were introduced. Affinities of the compounds for the 5-HT₆R as the main target, and for the 5-HT_1AR, 5-HT₇R and D₂R as competitive ones, were determined in the radioligand binding assays. Docking to the 5-HT₆R homology model was performed to support SAR analysis. Results showed that the branching of the methoxyl linker increased affinity for the human 5-HT₆R whereas an unsaturated bond within the linker dramatically reduced desirable activity. Both experimental and theoretical studies confirmed the previously postulated beneficial role of the aromatic size for interaction with the 5-HT₆R. Thus, the largest naphthyl moiety yielded the highest activity. In particular, 4-(4-methylpiperazin-1-yl)-6-(1-(naphthalen-1-yloxy)ethyl)-1,3,5-triazin-2-amine (24), the most potent 5-HT₆R agent found (K_i = 23 nM), can be a new lead structure for further search and development.     

1-Sulfonylindazoles as potent and selective 5-HT6 ligands

As part of our continuing efforts to identify therapeutics for CNS diseases, such as schizophrenia and Alzheimer’s disease (AD), we have been focused on the 5-HT₆ receptor in an attempt to identify ligands as a potential treatment for cognitive dysfunction. Herein we report the identification of a novel series of 1-sulfonylindazole derivatives as potent and selective 5-HT₆ antagonists. The synthesis and SAR of this class of compounds are reported. Several potent compounds in both binding and cyclase functional assays also display good selectivity, microsomal stability, solubility, and brain penetration as well as low cytochrome P450 inhibition. One compound exemplified in this series showed 24% oral bioavailability and in vivo efficacy in a NOR cognition model at 10 mg/kg following an oral administration in rats.     

Chemical puzzles in the search for new,flexible derivatives of lurasidone as antipsychotic drugs

In the pharmacotherapy of schizophrenia, there is a lack of effective drugs, and currently used agents cause a large number of side effects. The D₂, 5-HT_1A, 5-HT_2A receptors are among the most important receptor targets in the treatment of schizophrenia, but antagonism at 5-HT₆ and 5-HT₇ receptors may bring about additional improvement of cognitive functions. However, doubt exists regarding the importance of 5-HT₇R in the pharmacotherapy. In 2010, lurasidone (with high affinity for D₂, D₃, 5-HT_1A, 5-HT_2A, 5-HT₇ receptors) was approved for the treatment of schizophrenia. Due to the efficacy of the mentioned drug and doubts related to the role of 5-HT₇R, we decided to obtain compounds with an activity profile similar to that of lurasidone, but with the reduced affinity for 5-HT₇R and increased affinity for 5-HT₆R. For this purpose, we chose a flexible hexyl derivative of lurasidone (2-(6-(4-(benzo[d]isothiazol-3-yl)piperazin-1-yl)hexyl)hexahydro-1H-4,7-methanoisoindole-1,3(2H)-dione 1a) as a hit structure. After molecular modeling, we modified it, in the area of the arylpiperazine and imide group, using the moieties found in other known CNS drugs. We received the compounds in accordance with the previously developed method of ecological synthesis in the microwave radiation field. Among the obtained compounds, N-(6-(4-(benzo[d]isothiazol-3-yl)piperazin-1-yl)hexyl)naphthalene-sulfonamides 1v and 1w were distinguished as multifunctional ligands showing increased affinity for 5-HT₆R, and 2-(6-(4-(benzo[d]isothiazol-3-yl)piperazin-1-yl)hexyl)-[1,2,4]triazolo[4,3-a]pyridin-3(2H)-one 1i – a multifunctional ligand showing moderate affinity for 5-HT₆R and threefold lower for 5-HT₇R. In the paper, we discuss some of the observed dependencies regarding 5-HT₆/5-HT₇R affinity using molecular docking methods.     

Physical Interaction of Jab1 with Human Serotonin 6 G-protein-coupled Receptor and Their Possible Roles in Cell Survival

The 5-HT₆ receptor (5-HT₆R) is one of the most recently cloned serotonin receptors, and it plays important roles in Alzheimer disease, depression, and learning and memory disorders. However, unlike the other serotonin receptors, the cellular mechanisms of 5-HT₆R are poorly elucidated relative to its significance in human brain diseases. Here, using a yeast two-hybrid assay, we found that the human 5-HT₆R interacts with Jun activation domain-binding protein-1 (Jab1). We also confirmed a physical interaction between 5-HT₆R and Jab1 using glutathione S-transferase pulldown, fluorescence resonance energy transfer, co-immunoprecipitation, and immunocyto(histo)chemistry assays. The manipulation of Jab1 expression using Jab1 small interference RNA decreased 5-HT₆R-mediated activity and cell membrane expression of 5-HT₆R, whereas overexpression of Jab1 produced no significant effect. In addition, we demonstrated that the activation of 5-HT₆R induced the translocation of Jab1 into the nucleus and increased c-Jun phosphorylation and the interaction between Jab1 and c-Jun. Furthermore, we found that 5-HT₆R and Jab1 were up-regulated in middle cerebral artery occlusion-induced focal cerebral ischemic rats and in cultured cells exposed to hypoxic insults, suggesting possible protective roles for 5-HT₆R and Jab1. These findings suggest that Jab1 provides a novel signal transduction pathway for 5-HT₆R and may play an important role in 5-HT₆R-mediated behavior changes in the brain.     

Role of c-Cbl carboxyl terminus in serotonin 5-HT2A receptor recycling and resensitization

The 5-hydroxytryptamine 2A receptor (5-HT_2AR) undergoes constitutive and agonist-dependent internalization. Despite many advances in our understanding of G protein-coupled receptor trafficking, the exact mechanism of endocytic sorting of G protein-coupled receptors remains obscure. Recently, we have reported a novel finding documenting a global role for the ubiquitin ligase c-Cbl in regulating vesicular sorting of epidermal growth factor receptor (Baldys, A., Göoz, M., Morinelli, T. A., Lee, M. H., Raymond, J. R., Jr., Luttrell, L. M., and Raymond, J. R., Sr. (2009) Biochemistry 48, 1462–1473). Thus, we tested the hypothesis that c-Cbl might play a role in 5-HT_2AR recycling. In this study, we demonstrated an association of 5-HT_2AR with c-Cbl. Furthermore, down-regulation of c-Cbl by RNA interference blocked efficient recycling of 5-HT_2AR to the plasma membrane. Immunofluorescence microscopy revealed that 5-HT_2A receptors were trapped in early endosome antigen 1- and Rab11-positive sorting endosomes in cells overexpressing c-Cbl mutants lacking carboxyl termini. This inhibitory effect was associated with a relative decrease in association of c-Cbl truncation proteins with the 5-HT_2AR, compared with that observed for the full-length c-Cbl fusion protein. Consistent with the delayed recycling, 5-HT_2AR resensitization was greatly attenuated in the presence of c-Cbl mutants lacking carboxyl termini, as detected by changes in the cytosolic calcium. Taken together, these studies have led to the discovery that the C-terminal region of c-Cbl plays a crucial role in the temporal and spatial control of 5-HT_2AR recycling.     

Design and synthesis of dual 5-HT1A and 5-HT7 receptor ligands

5-HT_1A and 5-HT₇ receptors have been at the center of discussions recently due in part to their major role in the etiology of major central nervous system diseases such as depression, sleep disorders, and schizophrenia. As part of our search to identify dual targeting ligands for these receptors, we have carried out a systematic modification of a selective 5HT₇ receptor ligand culminating in the identification of several dual 5-HT_1A and 5-HT₇ receptor ligands. Compound 16, a butyrophenone derivative of tetrahydroisoquinoline (THIQ), was identified as the most potent agent with low nanomolar binding affinities to both receptors. Interestingly, compound 16 also displayed moderate affinity to other clinically relevant dopamine receptors. Thus, it is anticipated that compound 16 may serve as a lead for further exploitation in our quest to identify new ligands with the potential to treat diseases of CNS origin.