Structure-activity relationships of histamine H1-receptor agonists

Significant progress in the development of potent and selective histamine H1-receptor agonists has been achieved since 1990. Optimisation of the class of 2-phenylhistamines has furnished 2-[3-(trifluoromethyl)phenyl]histamine and its Nalpha-methyl derivative. The discovery of histaprodifen (2-[2-(3,3-diphenylpropyl)-1H-imidazol-4-yl]ethanamine) and the novel lead compound suprahistaprodifen (Nalpha-2-[(1H-imidazol-4-yl)ethyl]histaprodifen) represents additional milestones in the H1-receptor agonist field.     

Histaprodifens: synthesis, pharmacological in vitro evaluation, and molecular modeling of a new class of highly active and selective histamine H(1)-receptor agonists

A new class of histamine analogues characterized by a 3, 3-diphenylpropyl substituent at the 2-position of the imidazole nucleus has been prepared outgoing from 4,4-diphenylbutyronitrile (4b) via cyclization of the corresponding methyl imidate 5b with 2-oxo-4-phthalimido-1-butyl acetate or 2-oxo-1,4-butandiol in liquid ammonia, followed by standard reactions. The title compounds displayed partial agonism on contractile H(1) receptors of the guinea-pig ileum and endothelium-denuded aorta, respectively, except 10 (histaprodifen; 2-[2-(3, 3-diphenylpropyl)-1H-imidazol-4-yl]ethanamine) which was a full agonist in the ileum assay. While 10 was equipotent with histamine (1), methylhistaprodifen (13) and dimethylhistaprodifen (14) exceeded the functional potency of 1 by a factor of 3-5 (13) and 2-3 (14). Compounds 10 and 13-17 relaxed precontracted rat aortic rings (intact endothelium) with relative potencies of 3.3- up to 28-fold (compared with 1), displaying partial agonism as well. Agonist effects were sensitive to blockade by the selective H(1)-receptor antagonist mepyramine (pA(2) approximately 9 (guinea-pig) and pA(2) approximately 8 (rat aorta)). The affinity of 10 and 13-17 for guinea-pig H(1) receptors increased 20- to 100-fold compared with 1. Two lower homologues of 10 were weak partial H(1)-receptor agonists while two higher homologues of 10 were silent antagonists endowed with micromolar affinity for rat and guinea-pig H(1) receptors. In functional selectivity experiments, 10, 13, and 14 did not stimulate H(2), H(3), and several other neurotransmitter receptors. They displayed only low to moderate affinity for these sites (pA(2) < 6). For a better understanding of structure-activity relationships, the interaction of 1 and 10, 13 and 14 within the transmembrane (TM) domains of the human histamine H(1) receptor were studied using molecular dynamics simulations. Remarkable differences were found between the binding modes of 10, 13, and 14 and that of 1. The imidazole ring of 10, 13, and 14 was placed 'upside down' compared with 1, making the interaction of the N(pi)-atom with Tyr431 possible. This new orientation was mainly caused by the space filling substitution at the 2-position of the imidazole ring and influenced the location of the protonated N(alpha)-atom which was positioned more between TM III and TM VI. This orientation can explain both the increased relative potency and the maximum effect of 10, 13, and 14 compared with 1. Compound 13 (methylhistaprodifen; N(alpha)-methyl-2-[2-(3, 3-diphenylpropyl)-1H-imidazol-4-yl]ethanamine) is the most potent histamine H(1)-receptor agonist reported so far in the literature and may become a valuable tool for the study of physiological and pathophysiological H(1)-receptor-mediated effects.     

Synthesis and in vitro pharmacology of arpromidine and related phenyl(pyridylalkyl)guanidines, a potential new class of positive inotropic drugs

Replacement of the cimetidine moiety in impromidine (1,N1-[3-(1H-imidazol-4-yl)propyl]-N2-[2-[[(5-methyl-1H-imidazol-4- yl)methyl]thio]ethyl]guanidine) by more lipophilic H2-nonspecific pheniramine-like structures resulted in potent H2 agonists with up to 160 times the activity of histamine in the isolated, spontaneously beating guinea pig right atrium. Additionally, the compounds proved to be moderate H1 antagonists. Highest H2-agonistic potency was found in compounds characterized by a three-membered carbon chain connecting the aromatic rings and the guanidine group. The activity in the atrium was increased 2-4-fold by halogen substituents in the meta or para position of the phenyl ring. Highest H1-antagonistic potency resides in the group of para-halogenated compounds, p-F representing the optimal substituent in both receptor models. The corresponding guanidine 52 (arpromidine, N1-[3-(4-fluorophenyl)-3-pyridin-2-ylpropyl]-N2-[3-(1H-imidazol-4- yl)propyl]guanidine) combines about 100 times the activity of histamine at the H2 receptor with H1-antagonistic potency in the range of pheniramine. Further increase in the activity on the atrium was achieved by disubstitution with halogen on the phenyl ring, such as 3,4-F2, 3,5-F2, and 3,4-Cl2 (63-65). The 2-pyridyl group in arpromidine was replaced by 3-pyridyl without significant change in H2 agonistic activity, whereas the 4-pyridyl and phenyl analogues were less active. The rank order of potency in the atrium was in good agreement with the positive inotropic effects found in isolated, perfused guinea pig hearts, where 63-65 were the most potent compounds as well.     

Synthesis and in vitro pharmacology of a series of new chiral histamine H3-receptor ligands: 2-(R and S)-Amino-3-(1H-imidazol-4(5)-yl)propyl ether derivatives

To investigate stereospecificity and the mechanism of activation of the histamine H3-receptor, a series of 2-(R and S)-amino-3-(1H-imidazol-4(5)-yl)propyl ether derivatives were synthesized. In these compounds, the structures of the well-known antagonist iodoproxyfan and the full agonists R- or S-(alpha)-methylhistamine were combined in one molecule. The obtained "hybrid" molecules were tested for H3-receptor affinity on rat cerebral cortex. Some selected compounds were further screened for H3-receptor functional activity with GTPgamma[35S] autoradiography studies using rat brain tissue sections. The affinity of all the synthesized compounds (-log Ki = 5.9-7.9) was lower than that found for iodoproxyfan or two of its analogues; however, the compounds showed stereospecificity. The S-configuration of the series of 2-amino-3-(1H-imidazol-4(5)-yl)propyl ether derivatives, which resembles the stereochemistry of R-(alpha)-methylhistamine, was more favorable. Incorporation of an amino group in the propyl chain of iodoproxyfan and analogues did not alter the antagonistic behavior for compounds with an aromatic side chain. However, when also the aromatic moiety was replaced by a cyclohexyl group, the compounds behaved as agonists. This indicates that an interaction between the side chain amino group and the H3-receptor protein is involved in H3-receptor activation. The 2-(S)-amino-3-(1H-imidazol-4(5)-yl)propyl cyclohexylmethyl ether (23) has H3-receptor agonistic properties with high affinity for the histamine H3-receptor (-log Ki = 7.9 +/- 0.2) and might serve as a useful tool for further studies concerning drug design and receptor-ligand interactions.     

Synthesis and pharmacological identification of neutral histamine H1-receptor antagonists

In the present study we searched for neutral antagonists for the human histamine H(1)-receptor (H(1)R) by screening newly synthesized ligands that are structurally related to H(1)R agonists for their affinity using radioligand displacement studies and by assessing their functional activity via performing a NF-kappaB driven reporter-gene assay that allows for the detection of both agonistic and inverse agonistic responses. Starting from the endogenous agonist for the H(1)R, histamine, we synthesized and tested various analogues and ultimately identified several compounds with partial inverse agonistic properties and two neutral H(1)-receptor antagonists, namely 2-[2-(4,4-diphenylbutyl)-1H-imidazol-4-yl]ethylamine (histabudifen, 18d) (pK(i) = 5.8, alpha = 0.02) and 2-[2-(5,5-diphenylpentyl)-1H-imidazol-4-yl]ethylamine (histapendifen, 18e) (pK(i) = 5.9, alpha = -0.09).     

Importance of the lipophilic group in carbamates having histamine H3-receptor antagonist activity

In order to evaluate changes in the lipophilic part of designed carbamates concerning their potential histamine H3-receptor antagonist properties a new series of O-[3-(1H-imidazol-4-yl)propanol]carbamates was derived containing N-mono- or di-alkenyl, alkynyl, cycloalkyl, or double-branched alkyl substituents. The compounds were tested in vitro for their H3-receptor antagonist activity on synaptosomes of rat cerebral cortex and shared moderate to high antagonist activity in vitro. In this series 3-(1H-imidazol-4-yl)propyl N-(4-pentenyl)carbamate (4) was the most potent compound in vitro (Ki = 6.3 nM). H3-receptor antagonist activity in the central nervous system (CNS) was detected for most compounds in the in vivo H3-receptor assay based upon measurement of brain N tau-methylhistamine levels after p.o. administration to mice. The most effective carbamate in vivo, 3-(1H-imidazol-4-yl)propyl N-(allyl)carbamate (3), showed higher CNS potency (ED50 = 0.48 mg/kg p.o.) than the reference antagonist thioperamide. For some novel carbamates their histamine H1- and H2-receptor activities were determined on isolated organs of guinea-pig thereby demonstrating their high H3-receptor selectivity.     

Molecular characterization of specific H<Subscript>1</Subscript>-receptor agonists histaprodifen and its N<Superscript>α</Superscript>-substituted analogues on bovine aortic H<Subscript>1</Subscript>-receptors

We determined the molecular properties of the selective and potent H(1)-receptor agonist histaprodifen and its N(alpha) substituted analogues: methyl-, dimethyl-, and imidazolylethyl-histaprodifen (suprahistaprodifen). All derivatives show high affinity for (3)H-mepyramine labeled bovine aortic H(1)-receptor binding sites with the following order of potency: suprahistaprodifen > dimethylhistaprodifen > methylhistaprodifen > histaprodifen > histamine. Suprahistaprodifen and dimethylhistaprodifen were the most potent displacers of (3)H-mepyramine binding (K(i)=4.3 and 4.9 nM, respectively). Histaprodifen, methylhistaprodifen and suprahistaprodifen binding was differentially influenced by GTP, whereas dimethylhistaprodifen was not affected. All drugs, except dimethylhistaprodifen, were activators of G-proteins. Their order of potency was suprahistaprodifen > histamine > histaprodifen > methylhistaprodifen. Their effect on G-protein activation was abolished by the addition of the H(1)-receptor antagonist triprolidine (10 microM), which given alone did not activate G-proteins. Our data suggest that histaprodifens are potent but heterogeneous H(1)-receptor ligands with diverse effects on the molecular level in our model system. While the histaprodifen, methylhistaprodifen and suprahistaprodifen data are in agreement with their agonistic nature, as shown in the functional studies performed on different species (rat and guinea pig H(1)-receptor), dimethylhistaprodifen behaved as an antagonist in our study.     

Novel partial agonists for the histamine H(3) receptor with high in vitro and in vivo activity.

Novel branched N-alkylcarbamates and aliphatic ethers derived from 3-(1H-imidazol-4-yl)propanol were prepared. The compounds were investigated on two functional histamine H(3)-receptor assays. Some compounds displayed partial agonist activity on synaptosomes of rat brain cortex but behaved as pure competitive antagonists on the guinea pig ileum. Under in vivo conditions after po application to mice, some of the compounds showed partial or full agonist activity. Highest in vivo potency was found for the 3,3-dimethylbutyl ether 10 (ED(50) = 0.29 mg/kg, full intrinsic activity). These novel agonists are structurally diverse from classical aminergic histamine H(3)-receptor agonists (e.g., (R)-alpha-methylhistamine, imetit) as they lack a basic moiety in the side chain, which is supposed to be important for the activation of the receptor protein. The selectivity for the histamine H(3) receptor was proven by determination of H(1)- and H(2)-receptor activity on functional assays of the guinea pig.     

Contractile properties of various histaprodifen derivatives in guinea pig isolated ileum and trachea

We characterized the histamine H(1) receptor agonism of various histaprodifen derivatives in guinea pig isolated ileum and trachea in comparison with histamine. Based on their affinity (calculated pK(A) values for ileum and trachea, respectively), the compounds were ranked as follows: suprahistaprodifen (8.31/8.08) > N(alpha)-(4-phenylbutyl)histaprodifen (7.22/5.93) >or= histamine (5.79/5.19) approximately methylhistaprodifen (5.57/6.07). Based on their efficacy (calculated tau values for ileum and trachea, respectively), the compounds were ranked as follows: methylhistaprodifen (37.67/2.50) > histamine (5.64/1.80) > suprahistaprodifen (1.63/1.42) >or= N(alpha)-(4-phenylbutyl)histaprodifen (0.083/1.54). In the ileum, histamine and methylhistaprodifen showed a high histamine H(1) receptor reserve while suprahistaprodifen and N(alpha)-(4-phenylbutyl)histaprodifen are devoid of any histamine H(1 )receptor reserve. On the trachea, no histamine H(1 )receptor reserve was demonstrable with the four tested agonists. The kinetic of contraction/relaxation of the ileum was faster with histamine and methylhistaprodifen than with suprahistaprodifen and N(alpha)-(4-phenylbutyl)histaprodifen. Histamine contracted the trachea faster than histaprodifen derivatives. Levocetirizine antagonized contractions induced by histamine and histaprodifen derivatives in both tissues. The differences observed in the calculated pA(2) (7.60-8.29) and/or pD'(2) values (6.28-7.90) depending on the tissue and/or the agonist are discussed.     

Selective agonists reveal alpha(1A)- and alpha(1B)-adrenoceptor subtypes in caudal artery of the young rat

Multiple alpha(1)-adrenoceptors were evaluated in caudal artery of the young Wistar rat using selective agonists and antagonists. Arteries were exposed to the selective alpha(1A)-adrenoceptor agonist, A-61603 (N-[5-(4,5-dihydro-1H-imidazol-2-yl)-2-hydroxy-5,6,7,8-tetrahydronaphthalen-1-yl] methanesulfonamide) or to phenylephrine and to prazosin (alpha(1)-adrenoceptor antagonist), or the selective alpha(1A)-adrenoceptor antagonists 5-methylurapidil, RS 100329 (5-methyl-3-[3-[4-[2-(2,2,2,-trifluoroethoxy)phenyl]-1-piperazinyl]propyl]-2,4-(1H)-pyrimidinedione), RS 17053 (N-[2(2-cyclopropylmethoxy) ethyl]-5-chloro-alpha, alpha-dimethyl-1H-indole-3-ethanamide), and the selective alpha(1D)-adrenoceptor antagonist BMY 7378 (8-[2-[4-(2-methoxyphenyl)-1-piperazinyl]ethyl]-8-azaspiro[4.5] decane-7,9-dione). Results showed a 100-fold higher potency of A-61603 for the alpha(1)-adrenoceptor present in the artery, compared with phenylephrine. Prazosin displaced both agonists with high affinity, whereas 5-methylurapidil, RS 100329 and RS 17053 displaced A-61603 with high affinity, indicating the presence of alpha(1A)-adrenoceptors. The selective alpha(1A)-adrenoceptor antagonists blocked phenylephrine responses with low affinity, suggesting that phenylephrine activated a second receptor population in caudal artery. BMY 7378 antagonized with low affinity both A-61603 and phenylephrine-induced contractions, indicating absence of alpha(1D)-adrenoceptors in the vessel. The results suggest that functional alpha(1B)-adrenoceptors are present in caudal arteries of the young Wistar rat.     

Synthesis and cardiac electrophysiological activity of N-substituted-4-(1H-imidazol-1-yl)benzamides--new selective class III agents

The synthesis and cardiac electrophysiological activity of 18 N-substituted imidazolylbenzamides or benzene-sulfonamides are described. Compounds 6a,d,f-k and 11 exhibited potency in the in vitro Purkinje fiber assay comparable to that of N-[2-(diethylamino)ethyl]-4- [(methylsulfonyl)amino]benzamide (1, sematilide), a potent selective class III agent which is undergoing clinical trials. These data indicate that the 1H-imidazol-1-yl moiety is a viable replacement for the methylsulfonylamino group for producing class III electrophysiological activity in the N-substituted benzamide series. N-[2-(Diethylamino)ethyl]-4-(1H-imidazol-1-yl)benzamide dihydrochloride (6a) was further studied in two in vivo models of reentrant arrhythmias and showed potency and efficacy comparable to those of 1.     

Substituted N-phenylcarbamates as histamine H3 receptor antagonists with improved in vivo potency

Novel substituted N-phenylcarbamates as derivatives of 3-(1 H-imidazol-4-yl)propanol were prepared and tested for their antagonist potency in vitro and in vivo at histamine H3 receptors. Structural modifications with different alkyl and acetyl moieties were performed in an attempt to optimize pharmacodynamic and pharmacokinetic effects. Most compounds are active in a functional test for histamine H3 receptors on rat cerebral cortex synaptosomes as well as in a peripheral model on guinea pig ileum. But only carbamates without too bulky lipophilic residues showed pronounced to high antagonist potency on the enhancement of endogenous histamine in brain after p.o. administration to mice (ED50 values of 5.5 to 0.86 mg.kg-1). The tested compounds presented weak activities at histamine H1, H2, and muscarinic M3 receptors thus demonstrating their H3-receptor selectivity.     

Incomplete activation of human eosinophils via the histamine H4-receptor: evidence for ligand-specific receptor conformations

Eosinophils play a crucial role in the pathogenesis of allergic diseases. Histamine activates eosinophils via the H(4)-receptor (H(4)R). However, pharmacological analysis of the H(4)R in eosinophils is still incomplete, and cell purity is a problem. The H(4)R antagonist 1-[(5-chloro-1H-indol-2-yl)carbonyl]-4-methylpiperazine (JNJ7777120) has recently been reported to exhibit paradoxical stimulatory effects in some systems. Therefore, the first aim of our study was to pharmacologically re-examine H(x)R subtypes on human eosinophils using a highly purified preparation (97±2%). The second aim was to compare the effects of histamine with those induced by well-known activators of eosinophil functions, i.e. eotaxin-1 and formyl peptides. Histamine and the H(4)R-selective agonist 2-cyano-1-[4-(1H-imidazol-4-yl)butyl]-3-[(2-phenylthio)ethyl]guanidine (UR-PI376) increased intracellular calcium concentration ([Ca(2+)](i)) and activated chemotaxis. JNJ7777120 per se exhibited no stimulatory effects but inhibited stimulation by histamine and UR-PI376. Blockade of the H(2)R by famotidine enhanced histamine-induced chemotaxis but not rises in [Ca(2+)](i). Compared to eotaxin and formyl peptides, the effect of histamine on eosinophil chemotaxis was only small. Formyl peptides but not histamine activated reactive oxygen species formation and release of eosinophil peroxidase. In conclusion, histamine is only an incomplete eosinophil activator with the H(2)R blunting the small chemotactic response to H(4)R activation. We also noted several differences in potencies of histamine, UR-PI376 and JNJ7777120 in calcium and chemotaxis assays and when compared to results in the literature. This indicates functional selectivity of H(4)R ligands, thus ligand-specific stabilization of distinct receptor conformations, inducing distinct biological responses.     

New histamine H(3)-receptor ligands of the proxifan series: imoproxifan and other selective antagonists with high oral in vivo potency

Histamine H(3)-receptor antagonists of the proxifan series are described. The novel compounds possess a 4-(3-(phenoxy)propyl)-1H-imidazole structure and various functional groups, e.g., an oxime moiety, on the phenyl ring. Synthesis of the novel compounds and X-ray crystallography of one highly potent oxime derivative, named imoproxifan (4-(3-(1H-imidazol-4-yl)propyloxy)phenylethanone oxime), are described. Most of the title compounds possess high antagonist potency in histamine H(3)-receptor assays in vitro as well as in vivo in mouse CNS following po administration. Structure-activity relationships are discussed. Imoproxifan displays subnanomolar potency on a functional assay on synaptosomes of rat cerebral cortex (K(i) = 0.26 nM). In vivo, imoproxifan increases the central N(tau)-methylhistamine level with an ED(50) of 0.034 mg/kg po. A receptor profile on several functional in vitro assays was determined for imoproxifan, demonstrating high selectivity toward the histamine H(3) receptor for this promising candidate for further development.     

Effects of TAK-427 on acute nasal symptoms and nasal obstruction in guinea pig model of experimental allergic rhinitis

TAK-427 (2-[6-[[3-[4-(diphenylmethoxy)piperidino]propyl]amino]imidazo[1,2-b]pyridazin-2-yl]-2-methylpropionic acid dihydrate) is a novel anti-allergic agent that has both histamine H1-receptor antagonist and anti-inflammatory activities. In this study, we evaluated the efficacy of TAK-427 on acute nasal responses and nasal obstruction using various guinea pig models of allergic rhinitis. TAK-427 inhibited the histamine-induced nasal reactions with an ID50 value of 0.633 mg/kg, p.o. TAK-427 (0.1-10 mg/kg, p.o.) and most histamine H1-receptor antagonists tested inhibited the increase in intranasal pressure, nasal hypersecretion, sneezing and nasal itching caused by a single antigen challenge in sensitized guinea pigs. In addition, TAK-427 (0.3, 30 mg/kg, p.o.) significantly inhibited the development of nasal obstruction when sensitized guinea pigs were repeatedly challenged via inhalation with Japanese cedar pollen, whereas the histamine H1-receptor antagonist, azelastine (1 mg/kg, p.o.), and ketotifen (1 mg/kg, p.o.) were without effect. These results suggest that TAK-427 might not only suppress acute nasal symptoms but also ameliorate nasal obstruction via the effects other than those as a histamine H1-receptor antagonist.     

Alpha(1A/L)-adrenoceptors mediate contraction of the circular smooth muscle of the pig urethra

Sympathetically mediated urethral tone is essential for the maintenance of continence and involves the activation of postjunctional alpha(1)-adrenoceptors. This study characterizes the alpha(1)-adrenoceptor subtypes responsible for mediating contraction of the urethral circular smooth muscle of the pig. The potency order of a number of agonists and the affinities of several receptor selective antagonists were determined on pig-isolated circular smooth muscle strips in the presence of cocaine (1 microm) and corticosterone (10 microm) to inhibit amine uptake and propranolol (1 microm) to antagonize beta-adrenoceptors. The potency order for agonists was N-[5-(4,5-dihydro-1H-imidazol-2yl)-2-hydroxy-5,6,7,8-tetrahydronaphthalen-1-yl]methanesulphonamide (A61603) > noradrenaline = phenylephrine = M6434 > methoxamine with pEC(50) values of 7.3, 5.8, 5.7, 5.6 and 5.0 respectively. 4 The alpha(1D)-adrenoceptor-selective antagonist 8-[2-[4-(2-methoxyphenyl)-1-piperazinyl]ethyl]-8-azaspiro[4,5]decane-7,9-dione (BMY7378) caused rightward shifts of the concentration-response curves to noradrenaline, yielding a low affinity estimate (6.6) for the urethral receptor. The alpha(1A)-adrenoceptor-selective antagonists, RS100329 and 5-methylurapidil, gave relatively high affinity estimates (9.6 and 8.8 respectively) for this receptor. All three antagonists produced Schild plots with slopes close to unity but did reduce maximum responses at higher concentrations. Prazosin antagonized responses of the urethra to noradrenaline, yielding a mean affinity estimate of 9.0. Although the Schild plot for prazosin again had a slope of unity, this drug also reduced maximum responses to noradrenaline at all concentrations examined (10-100 nm). N-[2-(2-cyclopropylmethoxyphenoxy)ethyl]-5-chloro-alpha,alpha-dimethyl-1H-indole-3-ethanamide (RS17053), which discriminates between responses mediated via alpha(1A) (high affinity) and alpha(1L)-adrenoceptors (low affinity) at concentrations up to 3 microm, failed to antagonize responses of the urethra. 5 These results suggest that contraction of urethral circular smooth muscle in the pig is mediated via a single population of adrenoceptors with the pharmacological characteristics of the alpha(1A/L)-adrenoceptor, most probably the alpha(1L)-adrenoceptor.     

Histaprodifen, methylhistaprodifen, and dimethylhistaprodifen are potent H1-receptor agonists in the pithed and in the anaesthetized rat

Selective H₂- and H₃-receptor agonists, exhibiting an at least tenfold higher potency than histamine itself at the respective receptors, have been known for several years. Selective H₁-receptor agonists with a potency exceeding that of histamine have become available only recently; the most potent are methylhistaprodifen and dimethylhistaprodifen [N ^α-methyl- and N ^α,N ^α-dimethyl-2-(3,3-diphenylpropyl)histamine, respectively] with 3.4- and 2.4-fold higher potencies than histamine in vitro (in the guinea-pig ileum). The aim of the present study was to examine whether these compounds and the parent compound histaprodifen are potent H₁-receptor agonists in the pithed and in the anaesthetized rat. In pithed, vagotomized rats diastolic blood pressure was decreased by 2-(2-thiazolyl)ethanamine i.v. (which was used as a reference H₁-receptor agonist) and by histaprodifen, methylhistaprodifen, and dimethylhistaprodifen; the maximum decrease was about 45 mmHg for each compound, and the potencies, expressed as pED₅₀, the negative logarithm of the dose (in mole per kilogram body weight) eliciting a half-maximal response, were 7.23, 7.55, 8.43 and 8.12, respectively. The dose/response curves of the four compounds were shifted to the right to about the same extent by the H₁-receptor antagonist dimetindene (1 μmol/kg i.v.). The vasodepressor response was not affected by combined i.v. administration of the H₂- and H₃-receptor antagonists ranitidine and thioperamide, by combined i.v. administration of the α₁- and α₂-adrenoceptor antagonists prazosin and rauwolscine, and by the β-adrenoceptor antagonist propranolol i.v. but was attenuated by the inhibitor of NO synthase, N ^ω-nitro-l-arginine methyl ester i.v. In anaesthetized rats 2-(2-thiazolyl)ethanamine, histaprodifen, methylhistaprodifen and dimethylhistaprodifen i.v. also decreased diastolic blood pressure in a manner sensitive to dimetindene i.v. Our data show that histaprodifen and, in particular, methyl- and dimethylhistaprodifen are highly potent H₁-receptor agonists in vivo. Received: 3 September 1998 / Accepted: 23 October 1998     

The selectivity of DG-5128 as an alpha 2-adrenoceptor antagonist

DG-5128 (2-[2-(4,5-dihydro-1H-imidazol-2-yl)-1-phenylethyl]pyridine dihydrochloride sesquihydrate) at concentrations up to 10 microM inhibited [3H]clonidine binding more effectively than it did [3H]prazosin binding in rat cerebral cortex membranes. The mode of inhibition was homogeneous and consistent with the law of simple mass action. DG-5128 exhibited a 7.4 times higher affinity (pKi = 6.28) toward alpha 2-adrenoceptors than alpha 1-adrenoceptors. The results indicate that DG-5128 is a preferential alpha 2-antagonist.     

Histamine H1 receptors mediate vasodilation in guinea-pig ileum resistance vessels: characterization with computer-assisted videomicroscopy and new selective agonists.

Histamine receptors on guinea-pig ileum submucosal arterioles (outside diameter 40-80 microns) were studied in vitro using a computer-assisted videomicroscopy system (Diamtrak). Histamine receptor agonists investigated in this study were histamine, the H1 receptor-selective compound, 2-[2-(3-fluorophenyl)-4-imidazolyl]ethanamine (VZ 20), the H2 receptor-selective compounds, dimaprit, impromidine, (+/-)-N1-[3-(4-fluorophenyl)-3-(pyridin-2-yl)propyl]- N2-[3-(1H-imidazol-4-yl)propyl]guanidine (arpromidine) and (+/-)-N1-[3-(3,4-difluorophenyl)-3-(pyridin-2-yl)propyl]- N2-[3-(1H-imidazol-4-yl)propyl]guanidine (BU-E-75), as well as the H3 receptor-selective drug, (R)-alpha-methylhistamine ((R)-alpha-MeHA). Applied to vessels at resting tone, the agonists (1 nM-300 microM) did not change arteriolar diameter. Vessels preconstricted by 10 microM noradrenaline showed similar concentration-dependent vasodilations with histamine and VZ 20 (pD2 = 5.38 and 5.36, respectively). This histamine-induced vasodilation was not affected by tetrodotoxin (0.5 microM) or indomethacin (1 microM), but was completely abolished in the presence of 1 microM of the H1 receptor antagonist, mepyramine. Calculation of the antagonist affinity of mepyramine for the histamine receptors in submucosal arterioles yielded a pA2 of 9.46. In contrast to histamine and VZ 20, the H2 receptor agonist, dimaprit, and the H3 receptor agonist, (R)-alpha-MeHA, were ineffective at preconstricted arterioles. The guanidine-type H2 receptor agonists, impromidine, apromidine and BU-E-75, produced vasodilation at noradrenaline-preconstricted arterioles (-log EC50 = 4.47, 5.30 and 5.39, respectively) but, in contrast to histamine, were ineffective at arterioles preconstricted by U-46619 (300 nM).(ABSTRACT TRUNCATED AT 250 WORDS)     

Unique presynaptic alpha 2-receptor selectivity and specificity of the antihypertensive agent moxonidine

The characteristics of the alpha-receptor activating property of the new antihypertensive agent moxonidine (4-chloro-N-(4, 5-dihydro-1H-imidazol-2-yl)-6-methyl-2-methyl-5-pyrimidinamine, BDF 5895) was studied using peripheral vasculature and brain membranes of various animals. Moxonidine exerted a full agonist effect in elevating diastolic blood pressure in the pithed rat. Activation of postsynaptic alpha 1- and alpha 2-receptors contribute to the vasoconstrictory effect in rats. In the vasculature of the rabbit, moxonidine was a full agonist at presynaptic alpha 2-receptors in inhibiting transmitter release induced by electrical stimulation of pulmonary artery strips. At postsynaptic sites, exogenously applied moxonidine was a full agonist at alpha 1-receptors in the isolated aorta, pulmonary artery and vena cava of the rabbit. Selectivity for alpha 2-receptors in the pulmonary artery was 106-fold. In rat brain membranes, moxonidine showed 288-fold greater selectivity for alpha 2-receptors, when the displacement of [3H]-rauwolscine was compared with the displacement of [3H]-prazosin. On the whole, clonidine exhibited greater potency than moxonidine on both alpha-receptor subtypes, but moxonidine consistently showed greater alpha 2-receptor selectivity than clonidine. In the guinea pig myocardium, moxonidine caused neither bradycardia nor tachycardia in the isolated right atrium and produced a negligible positive inotropic effect at 100 mumol/l in the isolated papillary muscle.