Characteristics of histamine H4 receptor agonist-induced allergic conjunctivitis model in Guinea pigs.

Histamine is strongly associated with the onset of allergic conjunctivitis. The most recent cloned histamine H4 receptor antagonist is highly expected as a new therapeutic drug candidate. As a model for a therapeutic drug targeting the histamine H4 receptor, a mouse model in which conjunctivitis symptoms are induced by instilling 4-methylhistamine, a histamine H4 receptor agonist, has been reported. However, the affinity of the H4 receptor for histamine varies in species, and it is known that the histamine binding affinity for the guinea pig H4 receptor is closer to that for human receptor than mice receptor. In this paper, we investigated a possibility that a guinea pig model would become a drug efficacy evaluation model with higher evaluation accuracy than the mouse model. As a result, hyperemia was observed in the conjunctivae and iris of guinea pigs after instillation of 4-methylhistamine and specifically suppressed by the histamine H4 receptor antagonist. Unlikely to the previously reported mouse model, however, none of edema, increased vascular permeability or scratching behavior was observed, suggesting that there may be differences between mice and guinea pigs not only in the binding affinity of histamine to the H4 receptor but also in the biological reaction to 4-methylhistamine. Although the symptoms of allergic conjunctivitis do not appear comprehensively in the guinea pig model, results of this study indicated a possibility that this model can be used as a simple screening model in the early stages of drug development.

Optimization of a histamine-induced allergic conjunctivitis model in Guinea pigs.

Allergic conjunctivitis is one of the most common immune diseases in the field of ophthalmology. The number of patients suffering from allergic conjunctivitis has been increasing, and there is still a strong need for development of therapeutic agents for this disease. In drug development, the utmost important point to improve the success probability is to accurately single out good compounds in the early stage of drug development. Therefore, drug efficacy evaluations in the nonclinical stage should be conducted with high reliability and accuracy. However, there are no literatures investigating the preparation and evaluation methods of animal models of conjunctivitis in details nor the standardized criteria. In this study, we verified the reproducibility of an animal model in the previous report and made improvements in test methods focusing on a guinea pig model of histamine-induced allergic conjunctivitis. Furthermore, the drug efficacy evaluation was conducted using a commercially available antihistamine drug, levocabastine hydrochloride, to judge the suitability of the improved model. As a result, the dose level of histamine needed to be increased to use the existing model for drug efficacy evaluation, but allergic-like symptoms were induced very easily and stably in this model. For observations of symptoms of conjunctivitis, we eliminated ambiguity of evaluation by adopting the Draize scale and ensured a higher objectivity on the evaluation method. The drug efficacy evaluation of levocabastine hydrochloride in the prepared model revealed that drug efficacy of the antihistamine drug was captured according to the standardized test method and highly-reproducible results were obtained.

Discovery of a Novel Highly Selective Histamine H4 Receptor Antagonist for the Treatment of Atopic Dermatitis.

The histamine H4 receptor (H4R), a member of the G-protein coupled receptor family, has been considered as a potential therapeutic target for treating atopic dermatitis (AD). A large number of H4R antagonists have been disclosed, but no efficient agents controlling both pruritus and inflammation in AD have been developed yet. Here, we have discovered a novel class of orally available H4R antagonists showing strong anti-itching and anti-inflammation activity as well as excellent selectivity against off-targets. A pharmacophore-based virtual screening system constructed in-house successfully identified initial hit compound 9, and the subsequent homology model-guided optimization efficiently led us to discover pyrido[2,3- e]tetrazolo[1,5- a]pyrazine analogue 48 as a novel chemotype of a potent and highly selective H4R antagonist. Importantly, orally administered compound 48 exhibits remarkable efficacy on antipruritus and anti-inflammation with a favorable pharmacokinetic (PK) profile in several mouse models of AD. Thus, these data strongly suggest that our compound 48 is a promising clinical candidate for treatment of AD.

Fluorine Scanning by Nonselective Fluorination: Enhancing Raf/MEK Inhibition while Keeping Physicochemical Properties.

A facile methodology effective in obtaining a set of compounds monofluorinated at various positions (fluorine scan) by chemical synthesis is reported. Direct and nonselective fluorination reactions of our lead compound 1a and key intermediate 2a worked efficiently to afford a total of six monofluorinated derivatives. All of the derivatives kept their physicochemical properties compared with the lead 1a and one of them had enhanced Raf/MEK inhibitory activity. Keeping physicochemical properties could be considered a benefit of monofluorinated derivatives compared with chlorinated derivatives, iodinated derivatives, methylated derivatives, etc. This key finding led to the identification of compound 14d, which had potent tumor growth inhibition in a xenograft model, excellent PK profiles in three animal species, and no critical toxicity.

Regulation of cyclization for the stereoselective synthesis of substituted tetrahydrofurans and tetrahydrooxepines.

Dramatic solvent effect is observed during the cyclization of 1. Synthesis of 2 is achieved from the reaction of 1 with a hexamethylditin-catalyzed palladium complex followed by aldehydes in the presence of TMSOTf in THF, whereas 3 is formed in CH2Cl2. The method described herein is successful with various substrates 1 in good yields and high levels of diastereoselectivity.

Palladium-Catalyzed Cross-Coupling of Organoboron Compounds with Iodonium Salts and Iodanes.

The palladium-catalyzed cross-coupling reaction of iodinanes (iodonium salts and iodanes) with organoboron compounds to form carbon-carbon bonds was achieved at ambient temperature under aqueous conditions in the absence of base. Coupling of phenylboronic acid with diphenyliodonium tetrafluoroborate in the presence of Pd(PPh(3))(4) (0.2 mol %) or Pd(OAc)(2) (0.2 mol %) under aqueous conditions gave biphenyl in almost quantitative yield. Under the same conditions, substituted boronic acids, boronates, and trialkylboranes were readily coupled with diaryl-, alkenyl-, and alkynyliodonium salts. Finally, the iodanes ArI(OH)OTs underwent cross-coupling with boronic acids, boronates, and trialkylboranes to afford biphenyls and aryl-substituted alkenes.