Pharmacological characterization of GSK1004723, a novel, long-acting antagonist at histamine H(1) and H(3) receptors

BACKGROUND AND PURPOSE

Preclinical pharmacological characterization of GSK1004723, a novel, dual histamine H₁ and H₃ receptor antagonist.

EXPERIMENTAL APPROACH

GSK1004723 was characterized in vitro and in vivo using methods that included radioligand binding, intracellular calcium mobilization, cAMP production, GTPγS binding, superfused human bronchus and guinea pig whole body plethysmography.

KEY RESULTS

In cell membranes over-expressing human recombinant H₁ and H₃ receptors, GSK1004723 displayed high affinity, competitive binding (H₁ pKi = 10.2; H₃ pKi = 10.6). In addition, GSK1004723 demonstrated slow dissociation from both receptors with a t_1/2 of 1.2 and 1.5 h for H₁ and H₃ respectively. GSK1004723 specifically antagonized H₁ receptor mediated increases in intracellular calcium and H₃ receptor mediated increases in GTPγS binding. The antagonism exerted was retained after cell washing, consistent with slow dissociation from H₁ and H₃ receptors. Duration of action was further evaluated using superfused human bronchus preparations. GSK1004723 (100 nmol·L⁻¹) reversed an established contractile response to histamine. When GSK1004723 was removed from the perfusate, only 20% recovery of the histamine response was observed over 10 h. Moreover, 21 h post-exposure to GSK1004723 there remained almost complete antagonism of responses to histamine. In vivo pharmacology was studied in conscious guinea pigs in which nasal congestion induced by intranasal histamine was measured indirectly (plethysmography). GSK1004723 (0.1 and 1 mg·mL⁻¹ intranasal) antagonized the histamine-induced response with a duration of up to 72 h.

CONCLUSIONS AND IMPLICATIONS

GSK1004723 is a potent and selective histamine H₁ and H₃ receptor antagonist with a long duration of action and represents a potential novel therapy for allergic rhinitis.     

Biochemical characterization of desloratadine,a potent antagonist of the human histamine H(1) receptor

We have characterized desloratadine (5H-benzo[5,6]cyclohepta[1,2-b]pyridine, 8-chloro-6,11-dihydro-11-(4-piperidinylidene), CAS 100643-71-8) as a potent antagonist of the human histamine H(1) receptor. [3H]Desloratadine bound to membranes expressing the recombinant human histamine H(1) receptor in Chinese hamster ovary cells (CHO-H(1)) in a specific and saturable manner with a K(d) of 1.1+/-0.2 nM, a B(max) of 7.9+/-2.0 pmol/mg protein, and an association rate constant of 0.011 nM(-1) x min(-1). The K(d) calculated from the kinetic measurements was 1.5 nM. Dissociation of [3H]desloratadine from the human histamine H(1) receptor was slow, with only 37% of the binding reversed at 6 h in the presence of 5 microM unlabeled desloratadine. Seventeen histamine H(1)-receptor antagonists were evaluated in competition-binding studies. Desloratadine had a K(i) of 0.9+/-0.1 nM in these competition studies. In CHO-H(1) cells, histamine stimulation resulted in a concentration-dependent increase in [Ca(2+)](i) with an EC(50) of 170+/-30 nM. After a 90-min preincubation with desloratadine, the histamine-stimulated increase in [Ca(2+)](i) was shifted to the right, with a depression of the maximal response at higher concentrations of antagonist. The apparent K(b) value was 0.2+/-0.14 nM with a slope of 1.6+/-0.1. The slow dissociation from the receptor and noncompetitive antagonism suggests that desloratadine may be a pseudoirreversible antagonist of the human histamine H(1) receptor. The mechanism of desloratadine antagonism of the human histamine H(1) receptor may help to explain the high potency and 24-h duration of action observed in clinical studies.     

Temporal responses of cutaneous blood flow and plasma catecholamine concentrations to histamine H1- or H2-receptor stimulation in man

Summary We have studied the effect of histamine and H₁- or H₂-receptor antagonists on cutaneous blood flow and catecholamine release in man.Histamine was infused alone or in combination with mepyramine, an H₁-antagonist or cimetidine, an H₂-antagonist for 2 h. Cutaneous blood flow was measured continously with a laser Doppler flowmeter, and noradrenaline and adrenaline concentrations were determined in blood samples drawn every 15 min.The infusion of histamine caused an immediate and sustained vasodilatation. The Concomitant infusion of mepyramine prevented the immediate vasodilatation, but had no effect on the sustained response. The Concomitant infusion of cimetidine was without effect on the immediate vasodilatation, but abolished the sustained response. Infusion of the antagonists alone had no effect on cutaneous blood flow.Histamine caused a rapid and sustained increase in plasma noradrenaline, while the increase during concomitant H₁-receptor blockade was delayed but achieved the level observed during the histamine infusion. The response to histamine during H₂-receptor blockade was small and transient. The rise in plasma adrenaline was not significant.These findings suggest that histamine causes an immediate cutaneous vasodilatation through H₁-receptors and a more sustained response through H₂-receptors. The vasodilatation is accompanied by an increase in plasma catecholamine concentrations. Despite the continuous infusion of histamine, blood flow decreased during the last hour of histamine infusion, while the plasma noradrenaline concentration was still elevated.     

Functional pharmacology of H1 histamine receptors expressed in mouse preoptic/anterior hypothalamic neurons

BACKGROUND AND PURPOSE

Histamine H₁ receptors are highly expressed in hypothalamic neurons and mediate histaminergic modulation of several brain-controlled physiological functions, such as sleep, feeding and thermoregulation. In spite of the fact that the mouse is used as an experimental model for studying histaminergic signalling, the pharmacological characteristics of mouse H₁ receptors have not been studied. In particular, selective and potent H₁ receptor agonists have not been identified.

EXPERIMENTAL APPROACH

Ca²⁺ imaging using fura-2 fluorescence signals and whole-cell patch-clamp recordings were carried out in mouse preoptic/anterior hypothalamic neurons in culture.

KEY RESULTS

The H₁ receptor antagonists mepyramine and trans-triprolidine potently antagonized the activation by histamine of these receptors with IC₅₀ values of 0.02 and 0.2 μM respectively. All H₁ receptor agonists studied had relatively low potency at the H₁ receptors expressed by these neurons. Methylhistaprodifen and 2-(3-trifluoromethylphenyl)histamine had full-agonist activity with potencies similar to that of histamine. In contrast, 2-pyridylethylamine and betahistine showed only partial agonist activity and lower potency than histamine. The histamine receptor agonist, 6-[2-(4-imidazolyl)ethylamino]-N-(4-trifluoromethylphenyl)heptanecarboxamide (HTMT) had no agonist activity at the H₁ receptors H1 receptors expressed by mouse preoptic/anterior hypothalamic neurons but displayed antagonist activity.

CONCLUSIONS AND IMPLICATIONS

Methylhistaprodifen and 2-(3-trifluoromethylphenyl)histamine were identified as full agonists of mouse H₁ receptors. These results also indicated that histamine H₁ receptors in mice exhibited a pharmacological profile in terms of agonism, significantly different from those of H₁ receptors expressed in other species.     

Design and pharmacological characterization of VUF14480, a covalent partial agonist that interacts with cysteine 983.36 of the human histamine H4 receptor

Background and Purpose

The recently proposed binding mode of 2-aminopyrimidines to the human (h) histamine H₄ receptor suggests that the 2-amino group of these ligands interacts with glutamic acid residue E182^5.46 in the transmembrane (TM) helix 5 of this receptor. Interestingly, substituents at the 2-position of this pyrimidine are also in close proximity to the cysteine residue C98^3.36 in TM3. We hypothesized that an ethenyl group at this position will form a covalent bond with C98^3.36 by functioning as a Michael acceptor. A covalent pyrimidine analogue will not only prove this proposed binding mode, but will also provide a valuable tool for H₄ receptor research.

Experimental Approach

We designed and synthesized VUF14480, and pharmacologically characterized this compound in hH₄ receptor radioligand binding, G protein activation and β-arrestin2 recruitment experiments. The ability of VUF14480 to act as a covalent binder was assessed both chemically and pharmacologically.

Key Results

VUF14480 was shown to be a partial agonist of hH₄ receptor-mediated G protein signalling and β-arrestin2 recruitment. VUF14480 bound covalently to the hH₄ receptor with submicromolar affinity. Serine substitution of C98^3.36 prevented this covalent interaction.

Conclusion and Implications

VUF14480 is thought to bind covalently to the hH₄ receptor-C98^3.36 residue and partially induce hH₄ receptor-mediated G protein activation and β-arrestin2 recruitment. Moreover, these observations confirm our previously proposed binding mode of 2-aminopyrimidines. VUF14480 will be a useful tool to stabilize the receptor into an active confirmation and further investigate the structure of the active hH₄ receptor.

Linked Articles

This article is part of a themed issue on Histamine Pharmacology Update. To view the other articles in this issue visit http://dx.doi.org/10.1111/bph.2013.170.issue-1     

From the H2 receptor gene to reclassification of the H2 receptor antagonists

From previous studies it is known that long-term stimulation of the histamine H₂ receptor results in receptor downregulation. Two different pathways are involved in the downregulation process of the H₂ receptor: a cAMP-dependent and cAMP-independent agonist-dependent pathway. Recently, it became evident that in the absence of an agonist the H₂ receptor expressed in CHO cells already stimulate cAMP production, also referred to as spontaneous activity. The spontaneous activity can be inhibited by several H₂ antagonists, previously thought to act as competitive antagonists, and these antagonists are referred to as inverse agonists. Some antagonists, e.g. burimamide, are not able to inhibit the spontaneous activity and are referred to as neutral antagonists. Inverse agonism appears to be the mechanistic basis of upregulation. Only inverse agonists and not neutral antagonists induce receptor upregulation after long-term treatment as these compounds inhibit the spontaneous receptor activity and thus the basal receptor downregulation. Moreover it might also explain previously reported observations after long-term treatment of gastric ulcers, such as intragastric hyperacidity.     

Pharmacological characterization of the first potent and selective antagonist at the cysteinyl leukotriene 2 (CysLT2) receptor

Background and purpose:

Cysteinyl leukotrienes (CysLTs) have been implicated in the pathophysiology of inflammatory and cardiovascular disorders. Their actions are mediated by CysLT₁ and CysLT₂ receptors. Here we report the discovery of 3-({[(1S,3S)-3-carboxycyclohexyl]amino}carbonyl)-4-(3-{4-[4-(cyclo-hexyloxy)butoxy]phenyl}propoxy) benzoic acid (HAMI3379), the first potent and selective CysLT₂ receptor antagonist.

Experimental approach:

Pharmacological characterization of HAMI3379 was performed using stably transfected CysLT₁ and CysLT₂ receptor cell lines, and isolated, Langendorff-perfused, guinea pig hearts.

Key results:

In a CysLT₂ receptor reporter cell line, HAMI3379 antagonized leukotriene D₄- (LTD₄-) and leukotriene C₄- (LTC₄-) induced intracellular calcium mobilization with IC₅₀ values of 3.8 nM and 4.4 nM respectively. In contrast, HAMI3379 exhibited very low potency on a recombinant CysLT₁ receptor cell line (IC₅₀ > 10 000 nM). In addition, HAMI3379 did not exhibit any agonistic activity on both CysLT receptor cell lines. In binding studies using membranes from the CysLT₂ and CysLT₁ receptor cell lines, HAMI3379 inhibited [³H]-LTD₄ binding with IC₅₀ values of 38 nM and >10 000 nM respectively. In isolated Langendorff-perfused guinea pig hearts HAMI3379 concentration-dependently inhibited and reversed the LTC₄-induced perfusion pressure increase and contractility decrease. The selective CysLT₁ receptor antagonist zafirlukast was found to be inactive in this experimental setting.

Conclusions and implications:

HAMI3379 was identified as a potent and selective CysLT₂ receptor antagonist, which was devoid of CysLT receptor agonism. Using this compound, we showed that the cardiac effects of CysLTs are predominantly mediated by the CysLT₂ receptor.     

Use of the H3 receptor antagonist radioligand [3H]-A-349821 to reveal in vivo receptor occupancy of cognition enhancing H3 receptor antagonists

Background and purpose:

The histamine H₃ receptor antagonist radioligand [³H]-A-349821 was characterized as a radiotracer for assessing in vivo receptor occupancy by H₃ receptor antagonists that affect behaviour. This model was established as an alternative to ex vivo binding methods, for relating antagonist H₃ receptor occupancy to blood levels and efficacy in preclinical models.

Experimental approach:

In vivo cerebral cortical H₃ receptor occupancy by [³H]-A-349821 was determined in rats from differences in [³H]-A-349821 levels in the isolated cortex and cerebellum, a brain region with low levels of H₃ receptors. Comparisons were made to relate antagonist H₃ receptor occupancy to blood levels and efficacy in a preclinical model of cognition, the five-trial inhibitory avoidance response in rat pups.

Key results:

In adult rats, [³H]-A-349821, 1.5 µg·kg⁻¹, penetrated into the brain and cleared more rapidly from cerebellum than cortex; optimally, [³H]-A-349821 levels were twofold higher in the latter. With increasing [³H]-A-349821 doses, cortical H₃ receptor occupancy was saturable with a binding capacity consistent with in vitro binding in cortex membranes. In studies using tracer [³H]-A-349821 doses, ABT-239 and other H₃ receptor antagonists inhibited H₃ receptor occupancy by [³H]-A-349821 in a dose-dependent manner. Blood levels of the antagonists corresponding to H₃ receptor occupancy were consistent with blood levels associated with efficacy in the five-trial inhibitory avoidance response.

Conclusions and implications:

When employed as an occupancy radiotracer, [³H]-A-349821 provided valid measurements of in vivo H₃ receptor occupancy, which may be helpful in guiding and interpreting clinical studies of H₃ receptor antagonists.     

Ca2+ signals evoked by histamine H1 receptors are attenuated by activation of prostaglandin EP2 and EP4 receptors in human aortic smooth muscle cells

Background and Purpose

Histamine and prostaglandin E₂ (PGE₂), directly and via their effects on other cells, regulate the behaviour of vascular smooth muscle (VSM), but their effects on human VSM are incompletely resolved.

Experimental Approach

The effects of PGE₂ on histamine-evoked changes in intracellular free Ca²⁺ concentration ([Ca²⁺]_i) and adenylyl cyclase activity were measured in populations of cultured human aortic smooth muscle cells (ASMCs). Selective ligands of histamine and EP receptors were used to identify the receptors that mediate the responses.

Key Results

Histamine, via H₁ receptors, stimulates an increase in [Ca²⁺]_i that is entirely mediated by activation of inositol 1,4,5-trisphosphate receptors. Selective stimulation of EP₂ or EP₄ receptors attenuates histamine-evoked Ca²⁺ signals, but the effects of PGE₂ on both Ca²⁺ signals and AC activity are largely mediated by EP₂ receptors.

Conclusions and Implications

Two important inflammatory mediators, histamine via H₁ receptors and PGE₂ acting largely via EP₂ receptors, exert opposing effects on [Ca²⁺]_i in human ASMCs.     

A single-point mutation (Ala280Val) in the third intracellular loop alters the signalling properties of the human histamine H3 receptor stably expressed in CHO-K1 cells

Background and Purpose

An alanine to valine exchange at amino acid position 280 (A280V) in the third intracellular loop of the human histamine H₃ receptor was first identified in a patient suffering from Shy–Drager syndrome and later reported as a risk factor for migraine. Here, we have compared the pharmacological and signalling properties of wild-type (hH₃R_WT) and A280V mutant (hH₃R_A280V) receptors stably expressed in CHO-K1 cells.

Experimental Approach

The hH₃R_A280V cDNA was created by overlapping extension PCR amplification. Receptor expression and affinity were assessed by radioligand (N-α-[methyl-³H]-histamine) binding to cell membranes, and receptor function by the inhibition of forskolin-induced cAMP accumulation and stimulation of ERK1/2 phosphorylation in intact cells, as well as stimulation of [³⁵S]-GTPγS binding to cell membranes.

Key Results

Both receptors were expressed at similar levels with no significant differences in their affinities for H₃ receptor ligands. Upon activation the hH₃R_WT was significantly more efficacious to inhibit forskolin-induced cAMP accumulation and to stimulate [³⁵S]-GTPγS binding, with no difference in pEC₅₀ estimates. The hH₃R_WT was also more efficacious to stimulate ERK1/2 phosphorylation, but this difference was not significant. The inverse agonist ciproxifan was more efficacious at hH₃R_WT to reduce [³⁵S]-GTPγS binding but, for both receptors, failed to enhance forskolin-induced cAMP accumulation.

Conclusions and Implications

The A280V mutation reduces the signalling efficacy of the human H₃ receptor. This effect may be relevant to the pathophysiology of disorders associated with the mutation.

Linked Articles

This article is part of a themed issue on Histamine Pharmacology Update. To view the other articles in this issue visit http://dx.doi.org/10.1111/bph.2013.170.issue-1     

Quantitative pharmacological analysis of antagonist binding kinetics at CRF1 receptors in vitro and in vivo

BACKGROUND AND PURPOSE

A series of novel non-peptide corticotropin releasing factor type-1 receptor (CRF₁) antagonists were found to display varying degrees of insurmountable and non-competitive behaviour in functional in vitro assays. We describe how we attempted to relate this behaviour to ligand receptor-binding kinetics in a quantitative manner and how this resulted in the development and implementation of an efficient pharmacological screening method based on principles described by Motulsky and Mahan.

EXPERIMENTAL APPROACH

A non-equilibrium binding kinetic assay was developed to determine the receptor binding kinetics of non-peptide CRF₁ antagonists. Nonlinear, mixed-effects modelling was used to obtain estimates of the compounds association and dissociation rates. We present an integrated pharmacokinetic–pharmacodynamic (PKPD) approach, whereby the time course of in vivo CRF₁ receptor binding of novel compounds can be predicted on the basis of in vitro assays.

KEY RESULTS

The non-competitive antagonist behaviour appeared to be correlated to the CRF₁ receptor off-rate kinetics. The integrated PKPD model suggested that, at least in a qualitative manner, the in vitro assay can be used to triage and select compounds for further in vivo investigations.

CONCLUSIONS AND IMPLICATIONS

This study provides evidence for a link between ligand offset kinetics and insurmountable/non-competitive antagonism at the CRF₁ receptor. The exact molecular pharmacological nature of this association remains to be determined. In addition, we have developed a quantitative framework to study and integrate in vitro and in vivo receptor binding kinetic behaviour of CRF₁ receptor antagonists in an efficient manner in a drug discovery setting.     

Regulation of sterol synthesis by histamine in human mononuclear leukocytes: Roles of H1- and H2-receptors

Summary The effect of histamine on sterol synthesis has been investigated in freshly isolated human mononuclear leukocytes from healthy subjects.Incubation of cells for 6 h in a medium containing lipid depleted serum led to a threefold increase in the incorporation of (¹⁴C)-acetate or tritiated water into sterols. Histamine 0.3 µM added to the incubation medium at zero time inhibited this induction by 35% with a sigmoidal log dose-effect curve.The receptors mediating this action were characterised pharmacologically by using selective H₁- and H₂-agonists and -antagonists. The H₂-agonists impromidine and 4-methylhistamine mimicked the effect of histamine on sterol synthesis, the suppression being 42% and 31%, respectively, at a concentration of 1 µM. In contrast, the H₁-agonist 2-pyridylethylamine did not affect the pathway. The H₂-antagonist cimetidine (10 µM) but not the H₁-antagonist mepyramine (10 µM) totally reversed the inhibition of sterol synthesis by histamine.The results provide evidence that sterol synthesis in human mononuclear leukocytes is regulated by histamine, which appears to act predominantly via H₂-receptors.     

A1 and A2 adenosine receptor modulation of contractility in the cauda epididymis of the guinea-pig

1. The effects of adenosine receptor agonists upon phenylephrine-stimulated contractility and [³H]-cyclic adenosine monophosphate ([³H]-cyclic AMP) accumulation in the cauda epididymis of the guinea-pig were investigated. The α₁-adrenoceptor agonist, phenylephrine elicited concentration dependent contractile responses from preparations of epididymis. In the absence or presence of the L-type Ca²⁺ channel blocker, nifedipine (10 μM) the non-selective adenosine receptor agonist, 5′-N-ethylcarboxamido-adenosine (NECA, 1 μM) shifted phenylephrine concentration-response curves to the left (4 and 5 fold respectively). Following the incubation of preparations with pertussis toxin (200 ng ml⁻¹ 24 h) NECA shifted phenylephrine concentration-response curves to the right (5.7±0.9 fold).
2. In the presence of phenylephrine (1 μM), NECA and the A₁ adenosine receptor selective agonists, N⁶-cyclopentyladenosine (CPA) and (2S)-N⁶-[2-endo-norbornyl]adenosine ((S)-ENBA) elicited concentration-responses dependent contractions from preparations of epididymis (pEC₅₀ values 8.18±0.19, 7.79±0.29 and 8.15±0.43 respectively). The A₃ adenosine receptor agonists N⁶-iodobenzyl-5′-N-methyl-carboxamido adenosine (IBMECA) and N⁶-2-(4-aminophenyl) ethyladenosine (APNEA) mimicked this effect (but only at concentrations greater than 10 μM). In the presence of 8-cyclopentyl-1,3-dipropylxanthine (DPCPX, 30 nM) CPA concentration-response curves were shifted, in parallel to the right (apparent pK_B 8.75±0.88) and the maximal response to NECA was reduced.
3. In the presence of DPCPX (100 nM) the adenosine agonist NECA and the A_2A adenosine receptor selective agonist, CGS 21680 (2-p-(2-carboxyethyl)-phenethylamino-N-ethylcarboxamido adenosine), but not CPA, inhibited phenylephrine (20 μM) stimulated contractions (pIC₅₀ 7.15±0.48). This effect of NECA was blocked by xanthine amine congener (XAC, 1 μM) and the A_2A adenosine receptor-selective antagonist 4-(2-[7-amino-2-(2-furyl)[1,2,4]triazolo[2,3-a][1,3,5]triazin-5-ylamino]ethyl)phenol (ZM 241385; 30 nM).
4. (S)-ENBA (in the absence and presence of ZM 241385, 100 nM), but not NECA or CPA inhibited the forskolin (30 μM)-stimulated accumulation of [³H]-cyclic AMP in preparations of the epididymis of the guinea-pig (by 17±6% of control). In the presence of DPCPX (100 nM) NECA and CGS 21680, but not (S)-ENBA, increased the accumulation of [³H]-cyclic AMP in preparations of epididymis (pEC₅₀ values 5.35±0.35 and 6.42±0.40 respectively), the NECA-induced elevation of [³H]-cyclic AMP was antagonised by XAC (apparent pK_B 6.88±0.88) and also by the A_2A adenosine receptor antagonist, ZM 241385 (apparent pK_B 8.60± 0.76).
5. These studies are consistent with the action of stable adenosine analogues at post-junctional A₁ and A₂ adenosine receptors in the epididymis of the guinea-pig. A₁ Adenosine receptors potentiate α₁-adrenoceptor contractility, an effect blocked by pertussis toxin, but which may not be dependent upon an inhibition of adenylyl cyclase. The epididymis of the guinea-pig also contains A₂ adenosine receptors, possibly of the A_2A subtype, which both inhibit contractility and also stimulate adenylyl cyclase.

     

Binding characteristics of [(3) H]-JSM10292: a new cell membrane-permeant non-peptide bradykinin B(2) receptor antagonist

BACKGROUND AND PURPOSE A (3) H-labelled derivative of the novel small-molecule bradykinin (BK) B(2) receptor antagonist JSM10292 was used to directly study its binding properties to human and animal B(2) receptors in intact cells and to closely define its binding site. EXPERIMENTAL APPROACH Equilibrium binding, dissociation and competition studies with various B(2) receptor ligands and [(3) H]-JSM10292 were performed at 4°C and 37°C. The experiments were carried out using HEK293 cells stably (over)expressing wild-type and mutant B(2) receptors of human and animal origin. KEY RESULTS [(3) H]-JSM10292 bound to B(2) receptors at 4°C and at 37°C with the same high affinity. Its dissociation strongly depended on the temperature and increased when unlabelled B(2) receptor agonists or antagonists were added. [(3) H]-JSM10292 is cell membrane-permeant and thus also bound to intracellular, active B(2) receptors, as indicated by the different 'nonspecific' binding in the presence of unlabelled JSM10292 or of membrane-impermeant BK. Equilibrium binding curves with [(3) H]-JSM10292 and competition experiments with unlabelled JSM10292 and [(3) H]-BK showed a different affinity profile for the wild-type B(2) receptor in different species (man, cynomolgus, rabbit, mouse, rat, dog, pig, guinea pig). Characterization of B(2) receptor mutants and species orthologues combined with homology modelling, using the CXCR4 as template, suggests that the binding site of JSM10292 is different from that of BK but overlaps with that of MEN16132, another small non-peptide B(2) receptor ligand. CONCLUSIONS AND IMPLICATIONS [(3) H]-JSM10292 is a novel, cell membrane-permeant, high-affinity B(2) receptor antagonist that allows direct in detail studies of active, surface and intracellularly located wild-type and mutant B(2) receptors.     

Potential enhancing effects of histamine H1 agonism/H3 antagonism on working memory assessed by performance and bold response in healthy volunteers

Background and Purpose

Schizophrenia is a highly debilitating disorder characterized by hallucinations and delusions, but also impaired cognition such as memory. While hallucinations and delusions are the main target for pharmacological treatment, cognitive impairments are rarely treated. Evidence exists that histamine has a role in the cognitive deficits in schizophrenia, which could be the basis of the development of a histamine-type treatment. Histamine H₃ antagonists have been shown to improve memory performance in experimental animals, but these effects have been little investigated in humans within the context of impaired cognition in schizophrenia and using sensitive measures of brain activity. In the present study, the effects of betahistine (H₃ antagonist/H₁ agonist) on learning and memory, and associated brain activity were assessed.

Experimental Approach

Sixteen healthy volunteers (eight female) aged between 18 and 50 years received two p.o. doses of betahistine (48 mg) or placebo separated by 30 min, on separate days according to a two-way, double-blind, crossover design. Volunteers performed an N-back working memory task and a spatial paired associates learning task while being scanned using a MRI scanner.

Key Results

Task-related activity changes in well-defined networks and performance were observed. No betahistine-induced changes in brain activity were found in these networks. Alternatively, liberal whole-brain analyses showed activity changes in areas outside task networks, like the lateral geniculate nucleus.

Conclusions and Implications

Clear effects of betahistine on working memory could not be established. Future studies should use higher doses and explore the role of histamine in visual information processing.

Linked Articles

This article is part of a themed issue on Histamine Pharmacology Update. To view the other articles in this issue visit http://dx.doi.org/10.1111/bph.2013.170.issue-1     

Effect of saponin and filipin on antagonist binding to AT 1 receptors in intact cells

In the present study, [ 3H ]-candesartan binding experiments were performed on intact Chinese Hamster Ovary cells transfected with the human AT1 receptor (CHO-AT1 cells). Cells were pre-treated with 0.01mg/ml saponin or filipin. Both pre-treatments resulted in an increased dissociation rate and decreased affinity of the insurmountable non-peptide antagonist [3H ]-candesartan. A similar decrease in affinity was observed for the peptide antagonist Sar1-Ile8 angiotensin II and for other non-peptide antagonists, irrespectively of their degree of insurmountability. A similar discrepancy in [ 3H ]-candesartan binding was earlier observed when comparing intact CHO-AT1 cells and membrane preparations thereof. This similarity is further highlighted by the observations that saponin or filipin no longer affect [ 3H ]-candesartan binding to CHO-AT1 cell membranes and that both agents permeabilise the CHO-AT1 cells. This suggests that the intracellular composition and/or organisation of living cells play an active role with regard to antagonist-AT1 receptor interactions.     

Molecular aspects of the histamine H3 receptor

The cloning of the histamine H(3) receptor (H(3)R) cDNA in 1999 by Lovenberg et al. [10] allowed detailed studies of its molecular aspects and indicated that the H(3)R can activate several signal transduction pathways including G(i/o)-dependent inhibition of adenylyl cyclase, activation of phospholipase A(2), Akt and the mitogen activated kinase as well as the inhibition of the Na(+)/H(+) exchanger and inhibition of K(+)-induced Ca(2+) mobilization. Moreover, cloning of the H(3)R has led to the discovery several H(3)R isoforms generated through alternative splicing of the H(3)R mRNA. The H(3)R has gained the interest of many pharmaceutical companies as a potential drug target for the treatment of various important disorders like obesity, myocardial ischemia, migraine, inflammatory diseases and several CNS disorders like Alzheimer's disease, attention-deficit hyperactivity disorder and schizophrenia. In this paper, we review various molecular aspects of the hH(3)R including its signal transduction, dimerization and the occurrence of different H(3)R isoforms.     

Role of H(2)O(2) in hypertension, renin-angiotensin system activation and renal medullary disfunction caused by angiotensin II

BACKGROUND AND PURPOSE

Activation of the intrarenal renin-angiotensin system (RAS) and increased renal medullary hydrogen peroxide (H₂O₂) contribute to hypertension. We examined whether H₂O₂ mediated hypertension and intrarenal RAS activation induced by angiotensin II (Ang II).

EXPERIMENTAL APPROACH

Ang II (200 ng·kg⁻¹·min⁻¹) or saline were infused in Sprague Dawley rats from day 0 to day 14. Polyethylene glycol (PEG)-catalase (10 000 U·kg⁻¹·day⁻¹) was given to Ang II-treated rats, from day 7 to day 14. Systolic blood pressure was measured throughout the study. H₂O₂, angiotensin AT₁ receptor and Nox4 expression and nuclear factor-κB (NF-κB) activation were evaluated in the kidney. Plasma and urinary H₂O₂ and angiotensinogen were also measured.

KEY RESULTS

Ang II increased H₂O₂, AT₁ receptor and Nox4 expression and NF-κB activation in the renal medulla, but not in the cortex. Ang II raised plasma and urinary H₂O₂ levels, increased urinary angiotensinogen but reduced plasma angiotensinogen. PEG-catalase had a short-term antihypertensive effect and transiently suppressed urinary angiotensinogen. PEG-catalase decreased renal medullary expression of AT₁ receptors and Nox4 in Ang II-infused rats. Renal medullary NF-κB activation was correlated with local H₂O₂ levels and urinary angiotensinogen excretion. Loss of antihypertensive efficacy was associated with an eightfold increase of plasma angiotensinogen.

CONCLUSIONS AND IMPLICATIONS

The renal medulla is a major target for Ang II-induced redox dysfunction. H₂O₂ appears to be the key mediator enhancing intrarenal RAS activation and decreasing systemic RAS activity. The specific control of renal medullary H₂O₂ levels may provide future grounds for the treatment of hypertension.