Discovery of novel indazole derivatives as dual angiotensin II antagonists and partial PPARγ agonists

Identification of indazole derivatives acting as dual angiotensin II type 1 (AT₁) receptor antagonists and partial peroxisome proliferator-activated receptor-γ (PPARγ) agonists is described.Starting from Telmisartan, we previously described that indole derivatives were very potent partial PPARγ agonists with loss of AT₁ receptor antagonist activity.Design, synthesis and evaluation of new central scaffolds led us to the discovery of pyrrazolopyridine then indazole derivatives provided novel series possessing the desired dual activity.Among the new compounds, 38 was identified as a potent AT₁ receptor antagonist (IC₅₀ = 0.006 μM) and partial PPARγ agonist (EC₅₀ = 0.25 μM, 40% max) with good oral bioavailability in rat.The dual pharmacology of compound 38 was demonstrated in two preclinical models of hypertension (SHR) and insulin resistance (Zucker fa/fa rat).     

Synthesis and evaluation of isoleucine derived angiotensin II AT2 receptor ligands

Sixteen new C-terminally modified analogues of 2, a previously described potent and selective AT₂R ligand, were designed, synthesized and evaluated for their affinity to the AT₂R receptor. The introduction of large, hydrophobic substituents was shown to be beneficial and the most active compound (17, K_i = 8.5 μM) was over 12-times more potent than the lead compound 2.     

Diarylimidazolyl oxadiazole and thiadiazole derivatives as cannabinoid CB1 receptor antagonists

Since the CB1 receptor antagonist SR141716 (rimonabant) was reported to modulate food intake, CB1 antagonism has been considered as a new therapeutic target in the treatment of obesity. Several series of derivatives based on diarylimidazolyl oxadiazole and thiadiazole scaffolds were synthesized and tested for CB1 receptor binding affinity. SAR studies directed toward the optimization of imidazole scaffolds resulted in the discovery of 10s which showed highest potency for CB1 receptor binding affinity (IC₅₀ = 1.91 nM) prepared to date.     

Synthesis and evaluation of novel angiotensin II receptor 1 antagonists as anti-hypertension drugs

Three new angiotensin II receptor 1 antagonists, 1, 2 and 3 were designed, synthesized and evaluated. The AT₁ receptor-binding assays in vitro showed that all the synthesized compounds had nanomolar affinity for the AT₁ receptor. From which compound 3 was found to be the most potent ligands with an IC₅₀ value of 2.67 ± 0.23 nM. Biological evaluation in vivo revealed that all the compounds could cause significant decrease on MBP in a dose dependent manner in spontaneously hypertensive rats, and compound 3 especially showed an efficient and long-lasting effect in reducing blood pressure, whose maximal response lowered 41 mmHg of MBP at 10 mg/kg and 62 mmHg at 15 mg/kg after oral administration, the significant anti-hypertensive effect lasted beyond 12 h, which is better than the reference compound losartan. The pharmacokinetic experiments showed that compound 3 could be absorbed efficiently and metabolized smoothly both in blood and in tissues in Wistar rats. The acute toxicity assay suggested that it has low toxicity with the LD₅₀ value of 2974.35 mg/kg. These results demonstrate that compound 3 is a potent angiotensin AT₁ receptor antagonist which could be considered as a novel anti-hypertension candidate and deserved for further investigation.     

Design,synthesis, and biological evaluation of 1,2,4-triazole bearing 5-substituted biphenyl-2-sulfonamide derivatives as potential antihypertensive candidates

A series of novel 1,2,4-triazole bearing 5-substituted biphenyl-2-sulfonamide derivatives were designed and synthesized to develop new angiotensin II subtype 2 (AT₂) receptor agonists as novel antihypertensive candidates. It was found that 14f (IC₅₀ = 0.4 nM) and 15e (IC₅₀ = 5.0 nM) displayed potent AT₂ receptor affinity and selectivity in binding assays. Biological evaluation in vivo suggested that 14f is obviously superior to that of reference drug losartan in RHRs, and meanwhile, 14f has no significant impact on heart rate. The interesting activities of these compounds may make them promising candidates as antihypertensive agents.     

Synthesis and biological evaluation of new fluorine substituted derivatives as angiotensin II receptor antagonists with anti-hypertension and anti-tumor effects

The synthesis and pharmaceutical activity of new potent non-tetrazole angiotensin II (Ang II) receptor antagonists were described. These compounds were fluorine substituted derivatives of Losartan, Valsartan and Irbesartan with carboxylic acid group as replacements to the known potent tetrazole moiety at the 2′-biphenyl position. Their activities were evaluated by Ang II receptor binding assay as well as by in vivo assay. All of the synthesized compounds showed nanomolar affinity for the AT₁ receptor subtype. The vivo biological evaluation showed that compounds 1a, 2 and 4 produced a dose-dependent antihypertensive effect both in spontaneously hypertensive rats (SHR) and renal hypertensive rats (RHR). Compound 4 especially showed an efficient and long-lasting effect in reducing blood pressure which can last more than 24 h at dose of 10 mg/kg in SHR, which was much better than control Losartan and Valsartan. Compound 4 can also inhibit the prostate cancer in vitro and in vivo. So compound 4 was selected for in-depth investigation as potent, novel and long-lasting non-tetrazole anti-hypertension and anti-tumor drug candidate.     

Synthesis and evaluation of the novel 2-[18F]fluoro-3-propoxy-triazole-pyridine-substituted losartan for imaging AT1 receptors

The 2-[¹⁸F]fluoro-3-pent-4-yn-1-yloxypyridine ([¹⁸F]FPyKYNE) analog of the potent non-peptide angiotensin II type 1 receptor (AT₁R) blocker losartan was produced via click chemistry linking [¹⁸F]FPyKYNE to azide-modified tetrazole-protected losartan followed by TFA deprotection. Preliminary small animal imaging with positron emission tomography (PET) in rats displayed high uptake in the kidneys with good contrast to surrounding tissue. Rat metabolism displayed the presence of 23% unchanged tracer in plasma at 30 min. Upon co-administration with AT₁R blocker candesartan (2.5, 5 and 10 mg/kg), a dose-dependent reduction (47–65%) in tracer uptake was observed in the kidney, while no difference was observed following AT₂R blocker PD123,319 (5 mg/kg), indicating binding selectivity for AT₁R over AT₂R and potential for imaging AT₁R using PET.     

Isoquinoline derivatives as potent CRTH2 antagonists: Design,synthesis and SAR

In this study, we describe the synthesis and structure–activity relationship (SAR) of a series of isoquinoline chemoattractant receptor–homologous molecule expressed on Th2 cells (CRTH2) antagonists. TASP0376377 (15-20), one of the most potent compounds, showed a potent binding affinity (IC₅₀ = 19 nM) in addition to the excellent functional antagonist activity (IC₅₀ = 13 nM). Moreover, the efficacy of this compound in a chemotaxis assay (IC₅₀ = 23 nM) was in good agreement with its potency as a CRTH2 antagonist. In addition, 15-20 exhibited greater selectivity in binding to CRTH2 than to the DP1 prostanoid receptor (IC₅₀ >1 μM) or the enzymes COX-1 and COX-2 (IC₅₀ >10 μM).     

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.     

Synthesis of novel 7-imino-2-thioxo-3,7-dihydro-2H-thiazolo [4,5-d] pyrimidine derivatives as adenosine A2A receptor antagonists

Novel bicyclic thiazolopyrimidine compounds (15–26) were synthesized to develop adenosine A_2A receptor (A_2AR) antagonist for the treatment of Parkinson’s disease (PD). The binding affinity of the compounds (15–26) with A_2AR was evaluated using radioligand binding assay on isolated membranes from stably transfected HEK293 cells. Selectivity of the compounds towards A_2AR was assessed by comparing their binding affinities with A₁ receptors (A₁R). cAMP concentrations were measured from HEK293 cells treated with compounds (15–26) as compared to NECA (A_2AR agonist). The compound (16) possessed strongest A_2AR binding affinity (K_i value = 0.0038 nM) and selectivity (737-fold) versus A₁R. Decrease in A_2AR-coupled release of endogenous cAMP from HEK293 cells treated with compounds (15–26) is evocative of their potential as A_2AR antagonist.     

Dimeric argininamide-type neuropeptide Y receptor antagonists: Chiral discrimination between Y1 and Y4 receptors

The structurally related peptides neuropeptide Y (NPY), peptide YY (PYY) and pancreatic polypeptide (PP) are endogenous agonists of the NPY receptor (YR) family, which in humans comprises four functionally expressed subtypes, designated Y₁R, Y₂R, Y₄R and Y₅R. Nonpeptide antagonists with high affinity and selectivity have been described for the Y₁R, Y₂R and Y₅R, but such compounds are still lacking for the Y₄R. In this work, the structures of the high affinity selective (R)-argininamide-type Y₁R antagonists BIBP3226 and BIBO3304 were linked via the guanidine or urea moieties to give homo-dimeric argininamides with linker lengths ranging from 31 to 41 atoms. Interestingly, the twin compounds proved to be by far less selective for the Y₁R than the R-configured monovalent parent compounds. The decrease in selectivity ratio was most pronounced for Y₁R versus Y₄R subtype, resulting in comparable affinities of bivalent ligands for Y₁R and Y₄R (e.g. UR-MK177 ((R,R)-49): K_i = 230 nM (Y₁R) and 290 nM (Y₄R)). With a K_i value of 130 nM and a K_b value of 20 nM, UR-MK188 ((R,R)-51) was superior to all Y₄R antagonists known to date. The S,S-configured optical antipodes of UR-MK177 and UR-MK188 (UR-MEK381 ((S,S)-49) and UR-MEK388 ((S,S)-51)) were synthesized to investigate the stereochemical discrimination by the different receptor subtypes. Whereas preference for R,R-configured argininamides was characteristic of the Y₁R, stereochemical discrimination by the Y₄R was not observed. This may pave the way to selective Y₄R antagonists.     

Structure–activity relationships of truncated adenosine derivatives as highly potent and selective human A3 adenosine receptor antagonists

On the basis of potent and selective binding affinity of truncated 4′-thioadenosine derivatives at the human A₃ adenosine receptor (AR), their bioisosteric 4′-oxo derivatives were designed and synthesized from commercially available 2,3-O-isopropylidene-d-erythrono lactone. The derivatives tested in AR binding assays were substituted at the C2 and N⁶ positions. All synthesized nucleosides exhibited potent and selective binding affinity at the human A₃ AR. They were less potent than the corresponding 4′-thio analogues, but showed still selective to other subtypes. The 2-Cl series generally were better than the 2-H series in view of binding affinity and selectivity. Among compounds tested, compound 5d (X = Cl, R = 3-bromobenzyl) showed the highest binding affinity (K_i = 13.0 ± 6.9 nM) at the hA₃ AR with high selectivity (at least 88-fold) in comparison to other AR subtypes. Like the corresponding truncated 4′-thio series, compound 5d antagonized the action of an agonist to inhibit forskolin-stimulated adenylate cyclase in hA₃ AR-expressing CHO cells. Although the 4′-oxo series were less potent than the 4′-thio series, this class of human A₃ AR antagonists is also regarded as another good template for the design of A₃ AR antagonists and for further drug development.     

Angiotensin AT2 receptor agonist stimulates high stretch induced- ANP secretion via PI3K/NO/sGC/PKG/pathway

Angiotensin II (Ang II) type 1 receptor (AT₁R) mediates the major cardiovascular effects of Ang II. However, the effects mediated via AT₂R are still controversial. The aim of the present study is to define the effect of AT₂R agonist CGP42112A (CGP) on high stretch-induced ANP secretion and its mechanism using in vitro and in vivo experiments. CGP (0.01, 0.1 and 1 μM) stimulated high stretch-induced ANP secretion and concentration from isolated perfused rat atria. However, atrial contractility and the translocation of extracellular fluid did not change. The augmented effect of CGP (0.1 μM) on high stretch-induced ANP secretion was attenuated by the pretreatment with AT₂R antagonist or inhibitor for phosphoinositol 3-kinase (PI3K), nitric oxide (NO), soluble guanylyl cyclase (sGC), or protein kinase G (PKG). However, antagonist for AT₁R or Mas receptor did not influence CGP-induced ANP secretion. In vivo study, acute infusion of CGP for 10 min increased plasma ANP level without blood pressure change. In renal hypertensive rat atria, AT₂R mRNA and protein levels were up-regulated and the response of plasma ANP level to CGP infusion in renal hypertensive rats augmented. The pretreatment with AT₂R antagonist for 10 min followed by CGP infusion attenuated an increased plasma ANP level induced by CGP. However, pretreatment with AT₁R or Mas receptor antagonist unaffected CGP-induced increase in plasma ANP level. Therefore, we suggest that AT₂R agonist CGP stimulates high stretch-induced ANP secretion through PI3K/NO/sGC/PKG pathway and these effects are augmented in renal hypertensive rats.     

Synthesis and SAR of novel imidazoles as potent and selective cannabinoid CB2 receptor antagonists with high binding efficiencies

The synthesis and structure–activity relationship studies of imidazoles are described. The target compounds 6–20 represent a novel chemotype of potent and CB₂/CB₁ selective cannabinoid CB₂ receptor antagonists/inverse agonists with very high binding efficiencies in combination with favourable log P and calculated polar surface area values. Compound 12 exhibited the highest CB₂ receptor affinity (K_i = 1.03 nM) in this series, as well as the highest CB₂/CB₁ subtype selectivity (>9708-fold).     

Structure activity relationships of fused bicyclic and urea derivatives of spirocyclic compounds as potent CCR1 antagonists

A series of fused bicyclic and urea derivatives of spirocyclic compounds were designed, synthesised and evaluated in vitro as potent CCR1 antagonists. In particular, 4 (7 nM), 44 (1.3 nM), 48 (0.89 nM) and 50 (0.63 nM) were the most potent hCCR1 antagonists in this series of compounds. Moreover, some of these substances demonstrated good rodent cross-over, especially 46 which exhibited very high rat CCR1 binding affinity with an IC₅₀ value of 16 nM.     

Identification of a new selective dopamine D4 receptor ligand

The dopamine D₄ receptor has been shown to play key roles in certain CNS pathologies including addiction to cigarette smoking. Thus, selective D₄ ligands may be useful in treating some of these conditions. Previous studies in our laboratory have indicated that the piperazine analog of haloperidol exhibits selective and increased affinity to the DAD₄ receptor subtype, in comparison to its piperidine analog. This led to further exploration of the piperazine moiety to identify new agents that are selective at the D₄ receptor. Compound 27 (K_iD₄ = 0.84 nM) was the most potent of the compounds tested. However, it only had moderate selectivity for the D₄ receptor. Compound 28 (K_iD₄ = 3.9 nM) while not as potent, was more discriminatory for the D₄ receptor subtype. In fact, compound 28 has little or no binding affinity to any of the other four DA receptor subtypes. In addition, of the 23 CNS receptors evaluated, only two, 5HT_1AR and 5HT_2BR, have binding affinity constants better than 100 nM (K_i <100 nM). Compound 28 is a potentially useful D₄-selective ligand for probing disease treatments involving the D₄ receptor, such as assisting smoking cessation, reversing cognitive deficits in schizophrenia and treating erectile dysfunction. Thus, further optimization, functional characterization and evaluation in animal models may be warranted.     

Discovery of novel spiro-piperidine derivatives as highly potent and selective melanin-concentrating hormone 1 receptor antagonists

Optimization of high-throughput screening hit 1a led to the identification of a novel spiro-piperidine class of melanin-concentrating hormone 1 receptor (MCH-1R) antagonists. Compound 3c was identified as a highly potent and selective MCH-1R antagonist, which has an IC₅₀ value of 0.09 nM at hMCH-1R. The synthesis and structure–activity relationships of the novel spiro-piperidine MCH-1R antagonists are described.     

Nascent structure–activity relationship study of a diastereomeric series of kappa opioid receptor antagonists derived from CJ-15,208

Cyclic tetrapeptide c[Phe-pro-Phe-trp] 2, a diastereomer of CJ-15,208 (1), was identified as a potent dual κ/μ opioid receptor antagonist devoid of δ opioid receptor affinity against cloned human receptors: K_i (2) = 3.8 nM (κ), 30 nM (μ); IC₅₀ ([³⁵S]GTPγS binding) = 140 nM (κ), 21 nM (μ). The d-tryptophan residue rendered 2 ca. eightfold and fourfold more potent at κ and μ, respectively, than the corresponding l-configured tryptophan in the natural product 1. Phe analogs 3–10, designed to probe the effect of substituents on receptor affinity and selectivity, possessed K_i values ranging from 14 to 220 nM against the κ opioid receptor with μ/κ ratios of 0.45–3.0. An alanine scan of 2 yielded c[Ala-pro-Phe-trp] 12, an analog equipotent to 2. Agents 2 and 12 were pure antagonists in vitro devoid of agonist activity. Ac-pro-Phe-trp-Phe-NH₂ 16 and Ac-Phe-trp-Phe-pro-NH₂ 17 two of the eight possible acyclic peptides derived from 1 and 2, were selective, modestly potent μ ligands: K_i (16) = 340 nM (μ); K_i (17) = 360 nM (μ).     

Tetrahydroindolizinone NK1 antagonists

A new class of potent NK₁ receptor antagonists with a tetrahydroindolizinone core has been identified. This series of compounds demonstrated improved functional activities as compared to previously identified 5,5-fused pyrrolidine lead structures. SAR at the 7-position of the tetrahydroindolizinone core is discussed in detail. A number of compounds displayed high NK₁ receptor occupancy at both 1 h and 24 h in a gerbil foot tapping model. Compound 40 has high NK₁ binding affinity, good selectivity for other NK receptors and promising in vivo properties. It also has clean P₄₅₀ inhibition and hPXR induction profiles.     

Kappa-opioid receptor-selective dicarboxylic ester-derived salvinorin A ligands

Salvinorin A, the active ingredient of the hallucinogenic plant Salvia divinorum is the most potent known naturally occurring hallucinogen and is a selective κ-opioid receptor agonist. To better understand the ligand–receptor interactions, a series of dicarboxylic ester-type of salvinorin A derivatives were synthesized and evaluated for their binding affinity at κ-, δ- and μ-opioid receptors. Most of the analogues show high affinity to the κ-opioid receptor. Methyl malonyl derivative 4 shows the highest binding affinity (K_i = 2 nM), analogues 5, 7, and 14 exhibit significant affinity for the κ-receptor (K_i = 21, 36 and 39 nM).