PF-03654746
目录号 : GC36878PF-03654746 是一种有效的选择性 H3 histamine H3 receptor 受体拮抗剂,具有高脑渗透性。PF-03654746 可减少过敏原引起的鼻腔症状,可能是进一步探索过敏性鼻炎的新型治疗策略。PF-03654746 提高阿尔茨海默病 (AD) 的认知功效和改善疾病的效果。
Cas No.:935840-31-6
Sample solution is provided at 25 µL, 10mM.
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PF-03654746 is a potent and selective histamine H3 receptor antagonist with high brain penetration.PF-03654746 reduces allergen-induced nasal symptoms, might be a novel therapeutic strategy to further explore allergic rhinitis[1].PF-03654746 improves cognitive efficacy and disease-modifying effects in Alzheimer's disease (AD)[2].
[1]. Stokes JR, et al. The effects of an H3 receptor antagonist (PF-03654746) with fexofenadine on reducing allergic rhinitis symptoms. J Allergy Clin Immunol. 2012 Feb;129(2):409-12, 412.e1-2. [2]. Brioni JD, et al. Discovery of histamine H3 antagonists for the treatment of cognitive disorders and Alzheimer's disease. J Pharmacol Exp Ther. 2011 Jan;336(1):38-46.
Cas No. | 935840-31-6 | SDF | |
Canonical SMILES | O=C([C@H]1C[C@@](C2=CC=C(CN3CCCC3)C(F)=C2)(F)C1)NCC | ||
分子式 | C18H24F2N2O | 分子量 | 322.39 |
溶解度 | Soluble in DMSO | 储存条件 | Store at -20°C |
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10 mM | 0.3102 mL | 1.5509 mL | 3.1018 mL |
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Quantitative projection of human brain penetration of the H3 antagonist PF-03654746 by integrating rat-derived brain partitioning and PET receptor occupancy
Xenobiotica 2017 Feb;47(2):119-126.PMID:27353353DOI:10.3109/00498254.2016.1166531.
1. Unbound brain drug concentration (Cb,u), a valid surrogate of interstitial fluid drug concentration (CISF), cannot be directly determined in humans, which limits accurately defining the human Cb,u:Cp,u of investigational molecules. 2. For the H3R antagonist (1R,3R)-N-ethyl-3-fluoro-3-[3-fluoro-4-(pyrrolidin-1-lmethyl)phenyl]cyclobutane-1-carboxamide (PF-03654746), we interrogated Cb,u:Cp,u in humans and nonhuman primate (NHP). 3. In rat, PF-03654746 achieved net blood-brain barrier (BBB) equilibrium (Cb,u:Cp,u of 2.11). 4. In NHP and humans, the PET receptor occupancy-based Cp,u IC50 of PF-03654746 was 0.99 nM and 0.31 nM, respectively, which were 2.1- and 7.4-fold lower than its in vitro human H3 Ki (2.3 nM). 5. In an attempt to understand this higher-than-expected potency in humans and NHP, rat-derived Cb,u:Cp,u of PF-03654746 was integrated with Cp,u IC50 to identify unbound (neuro) potency of PF-03654746, nIC50. 6. The nIC50 of PF-03654746 was 2.1 nM in NHP and 0.66 nM in human which better correlated (1.1- and 3.49-fold lower) with in vitro human H3 Ki (2.3 nM). 7. This correlation of the nIC50 and in vitro hH3 Ki suggested the translation of net BBB equilibrium of PF-03654746 from rat to NHP and humans, and confirmed the use of Cp,u as a reliable surrogate of Cb,u. 8. Thus, nIC50 quantitatively informed the human Cb,u:Cp,u of PF-03654746.
Discovery of two clinical histamine H(3) receptor antagonists: trans-N-ethyl-3-fluoro-3-[3-fluoro-4-(pyrrolidinylmethyl)phenyl]cyclobutanecarboxamide (PF-03654746) and trans-3-fluoro-3-[3-fluoro-4-(pyrrolidin-1-ylmethyl)phenyl]-N-(2-methylpropyl)cyclobutanecarboxamide (PF-03654764)
J Med Chem 2011 Nov 10;54(21):7602-20.PMID:21928839DOI:10.1021/jm200939b.
The discovery of two histamine H(3) antagonist clinical candidates is disclosed. The pathway to identification of the two clinical candidates, 6 (PF-03654746) and 7 (PF-03654764) required five hypothesis driven design cycles. The key to success in identifying these clinical candidates was the development of a compound design strategy that leveraged medicinal chemistry knowledge and traditional assays in conjunction with computational and in vitro safety tools. Overall, clinical compounds 6 and 7 exceeded conservative safety margins and possessed optimal pharmacological and pharmacokinetic profiles, thus achieving our initial goal of identifying compounds with fully aligned oral drug attributes, "best-in-class" molecules.
The effects of an H3 receptor antagonist (PF-03654746) with fexofenadine on reducing allergic rhinitis symptoms
J Allergy Clin Immunol 2012 Feb;129(2):409-12, 412.e1-2.PMID:22196768DOI:10.1016/j.jaci.2011.11.026.
Background: Nasal H(3) receptors might have a role in mediating the effects of histamine in patients with allergic rhinitis. Objective: This study explored the effect of the potent oral H(3) receptor antagonist PF-03654746 in combination with an oral H(1) receptor antagonist on the objective (acoustic rhinometry) and subjective (symptoms) responses to nasal allergen challenge. Methods: Twenty patients with out-of-season allergic rhinitis displaying a 30% or greater decrease in minimum nasal cross-sectional area (A(min)) after bolus (ragweed) complete nasal allergen challenge at screening were studied by using a randomized, double-blind, single-dose, 4-way crossover design. Treatments included 10 mg of PF-03654746 plus 60 mg of fexofenadine (group 1), 1 mg of PF-03654746 plus 60 mg of fexofenadine (group 2), 60 mg of fexofenadine/120 mg of pseudoephedrine (group 3), and placebo (group 4). After dosing, subjects underwent complete nasal allergen challenge. Nasal symptom scores (no. of sneezes and 0- to 5-point scores for severity of congestion, itching, and rhinorrhea), A(min) (in square centimeters), and nasal volume (in cubic centimeters) were recorded 15, 30, 45, and 60 minutes after allergen. There was a minimum 10-day washout between periods. Results: The following symptom scores were significantly (P ≤ .05) reduced by active treatments versus placebo: group 1, congestion of -0.7 (SE, 0.3), itching of -1.0 (SE, 0.3), rhinorrhea of -1.3 (SE, 0.3), and sneeze of -8.8 (SE, 1.5); group 2, itching of -0.6 (SE, 0.3), rhinorrhea of -0.8 (SE, 0.3), and sneeze of -9.1 (SE, 1.5); and group 3, rhinorrhea of -0.7 (SE, 0.3) and sneeze of -7.0 (SE, 1.5). There was no significant effect of any treatment on mean A(min) proportion or nasal volume proportion after nasal allergen challenge. Conclusions: In combination with fexofenadine, single doses of PF-03654746 caused a reduction in allergen-induced nasal symptoms. H(3) receptor antagonism might be a novel therapeutic strategy to further explore in patients with allergic rhinitis.
Determination of receptor occupancy in the presence of mass dose: [11C]GSK189254 PET imaging of histamine H3 receptor occupancy by PF-03654746
J Cereb Blood Flow Metab 2017 Mar;37(3):1095-1107.PMID:27207170DOI:10.1177/0271678X16650697.
Measurements of drug occupancies using positron emission tomography (PET) can be biased if the radioligand concentration exceeds "tracer" levels. Negative bias would also arise in successive PET scans if clearance of the radioligand is slow, resulting in a carryover effect. We developed a method to (1) estimate the in vivo dissociation constant Kd of a radioligand from PET studies displaying a non-tracer carryover (NTCO) effect and (2) correct the NTCO bias in occupancy studies taking into account the plasma concentration of the radioligand and its in vivo Kd. This method was applied in a study of healthy human subjects with the histamine H3 receptor radioligand [11C]GSK189254 to measure the PK-occupancy relationship of the H3 antagonist PF-03654746. From three test/retest studies, [11C]GSK189254 Kd was estimated to be 9.5 ± 5.9 pM. Oral administration of 0.1 to 4 mg of PF-03654746 resulted in occupancy estimates of 71%-97% and 30%-93% at 3 and 24 h post-drug, respectively. NTCO correction adjusted the occupancy estimates by 0%-15%. Analysis of the relationship between corrected occupancies and PF-03654746 plasma levels indicated that PF-03654746 can fully occupy H3 binding sites ( ROmax = 100%), and its IC50 was estimated to be 0.144 ± 0.010 ng/mL. The uncorrected IC50 was 26% higher.
Structural basis for recognition of antihistamine drug by human histamine receptor
Nat Commun 2022 Oct 15;13(1):6105.PMID:36243875DOI:10.1038/s41467-022-33880-y.
The histamine receptors belong to the G protein-coupled receptor (GPCR) superfamily, and play important roles in the regulation of histamine and other neurotransmitters in the central nervous system, as potential targets for the treatment of neurologic and psychiatric disorders. Here we report the crystal structure of human histamine receptor H3R bound to an antagonist PF-03654746 at 2.6 Å resolution. Combined with the computational and functional assays, our structure reveals binding modes of the antagonist and allosteric cholesterol. Molecular dynamic simulations and molecular docking of different antihistamines further elucidate the conserved ligand-binding modes. These findings are therefore expected to facilitate the structure-based design of novel antihistamines.