Fu‐Lian Hsu scite author profile

The naphthalene analog of medetomidine (1), 4-[1-(1-naphthyl)ethyl]-1H- imidazole (2), is a highly potent, selective alpha 2-adrenoceptor agonist. We have initiated a structure-activity relationship study of the replacement of the methyl group on the carbon bridge between the naphthalene and imidazole rings of 2 with a hydrogen, hydroxy, methoxy, carbonyl, or trifluoromethyl group and compared their biological activities with medetomidine 1 and the optical isomers of 2. Analogs of 2 were antagonists of alpha 2A-adrenoceptor-mediated human platelet aggregation and agonists on alpha 1- and alpha 2-adrenoceptors in guinea pig ileum. The rank order and potencies of these analogs on platelets (alpha 2A-subtype) and guinea pig ileum (alpha 1-subtype) were nearly the same, whereas racemic and S-(+)-2, desmethyl, and hydroxy analogs were potent agonists on alpha 2-adrenoceptors in guinea pig ileum. With the exception of the desmethyl analog 5, none of the other analogs were as potent as the parent drug 2 on alpha 2A- (human platelets), alpha 1- (guinea pig ileum), or alpha 2- (guinea pig ileum) adrenergic receptor systems. As with analog 2, the desmethyl- and methoxy-substituted analogs retained a greater alpha 2/alpha 1-selectivity in both functional (agonist activity) and biochemical (receptor displacement) studies. Receptor binding studies indicate that S-(+)-2 possessed greater affinity than the R-(-)-isomer on both alpha 1- and alpha 2-adrenoceptors in rat brain. In addition, R-(-)-2 did not show agonist activity in alpha 2-adrenoceptors of guinea pig ileum and was 10-fold more potent than S-(+)-2 as an antagonist of alpha 2A-adrenoceptors in human platelets. Thus, the nature of the substituent and the chirality at the carbon bridge between the naphthalene and imidazole rings play an important role in maintaining potent alpha 2-adrenoceptor activity and high alpha 2/alpha 1-selectivity within the 4-substituted imidazole class.

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Stereochemical studies of adrenergic drugs. Optically active derivatives of imidazolines

Miller¹,

Hsu²,

Ruffolo³

et al. 1976

J. Med. Chem.

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The synthesis of (R)-(+)-4-methyl-2-(1-naphthylmethyl)imidazoline hydrochloride (2) and (S)-(-)-4-methyl-2-(1-naphthylmethyl)imidazoline hydrochloride (3) is presented. The synthesis involves the preparation of (R)-(+)- and (S)-(-)-1,2-diaminopropane dihydrochloride and then allowing the appropriate diaminopropane to react with ethyl 1-naphthyliminoacetate hydrochloride in the presence of triethylamine. The parent compound, naphazoline, is a potent alpha-adrenoreceptor agonist (-log ED50 = 7.22), whereas the methylated derivatives, 2 and 3, were moderately potent antagonists (pA2 = 5.6 and 5.8, respectively) of the alpha-adrenoreceptor. Compounds 2 and 3 also produced blockade of the response to histamine on the rabbit aorta, but at concentrations approximately 20 times higher than necessary to produce equal blockade of the alpha-adrenoreceptor.

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Medetomidine Analogs as α₂-Adrenergic Ligands. 2. Design, Synthesis, and Biological Activity of Conformationally Restricted Naphthalene Derivatives of Medetomidine

et al. 1996

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A new series of naphthalene analogs of medetomidine have been prepared and evaluated for their alpha-adrenergic activities. The methylnaphthyl analog 5a showed significant selectivity for alpha 2-adrenoceptors and behaved as a partial alpha 1-agonist in rat aorta preparations. In contrast, the Z-ethylene analog 8c was alpha 1-selective and behaved as a potent alpha 1-antagonist. Two rigid analogs (6 and 7) exhibited large differences in binding affinities at alpha 1-VS alpha 2-receptors, indicating that the conformational flexibility of 5a is important for the fulfillment of the alpha-adrenergic activities. Molecular modeling studies began with conformational analysis of classical phenethylamines and medetomidine analogs. Superimposition of medetomidine conformations with those of phenethylamines provided a tentative explanation for the alpha 2-adrenergic activity of the new imidazoles. A common binding mode for phenethylamines and imidazoles with alpha 2-adrenoceptors is proposed. Knowledge of the biological properties of the 4-substituted imidazoles, integrated with the information derived from computer-assisted molecular modeling, has provided new insights for the structural and conformational requirements of this class as new adrenergic drugs.

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Fu‐Lian Hsu

Tuning fluorescence properties of imidazole derivatives with thiophene and thiazole

Y-shaped two-photon absorbing molecules with an imidazole–thiazole core

A Structure-Activity Relationship Study of Benzylic Modifications of 4-[1-(1-Naphthyl)ethyl]-1H-imidazoles on .alpha.1- and .alpha.2-Adrenergic Receptors

Stereochemical studies of adrenergic drugs. Optically active derivatives of imidazolines

Medetomidine Analogs as α₂-Adrenergic Ligands. 2. Design, Synthesis, and Biological Activity of Conformationally Restricted Naphthalene Derivatives of Medetomidine

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Fu‐Lian Hsu

Tuning fluorescence properties of imidazole derivatives with thiophene and thiazole

Y-shaped two-photon absorbing molecules with an imidazole–thiazole core

A Structure-Activity Relationship Study of Benzylic Modifications of 4-[1-(1-Naphthyl)ethyl]-1H-imidazoles on .alpha.1- and .alpha.2-Adrenergic Receptors

Stereochemical studies of adrenergic drugs. Optically active derivatives of imidazolines

Medetomidine Analogs as α2-Adrenergic Ligands. 2. Design, Synthesis, and Biological Activity of Conformationally Restricted Naphthalene Derivatives of Medetomidine

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Medetomidine Analogs as α₂-Adrenergic Ligands. 2. Design, Synthesis, and Biological Activity of Conformationally Restricted Naphthalene Derivatives of Medetomidine