Endothelium-dependent contractile actions of proteinase-activated receptor-2-activating peptides in human umbilical vein: release of a contracting factor via a novel receptor

The contractile actions of the proteinase-activated receptor-2-activating peptides (PAR2APs), SLIGRL-NH2 (SL-NH2), SLIGKV-NH2 (KV-NH2), trans-cinnamoyl-LIGRLO-NH2 (tc-NH2), and the PAR1-AP. TFLLR-NH2 (TF-NH2) as well as trypsin and thrombin were studied in endothelium-denuded and intact human umbilical vein (HUV) ring preparations. In HUV rings with, but not without an intact endothelium, PAR2APs caused a concentration-dependent contractile response, whereas LSIGRL-NH2 trypsin and PAR1APs were inactive. The contractile response was not affected by the endothelin ETA receptor antagonist, BQ123, the cyclooxygenase inhibitor, indomethacin, the leukotriene synthesis inhibitor, MK886, or the epoxygenase/P450 inhibitor, SKF-525A. Other pharmacological antagonists (prazosin, Losartan") were similarly inactive. The order of potencies of the PAR2APs to cause a contraction in the endothelium-intact preparation was: SL-NH2 > > KV-NH2 > or = tc-NH2. Using an endothelium-free rat aorta ring as a reporter tissue, surrounded with endothelium-intact HUV as a donor tissue in a 'sandwich assay,' we also monitored the ability of SL-NH2, TF-NH2, trypsin and thrombin to release either contractile (EDCF) or relaxant (EDRF) factors. In the 'sandwich assay' done in the presence of L-NAME (0.1 mM), the endothelium-intact HUV tissue (but not endothelium-denuded HUV) released a contractile factor (EDCF) in response to SL-NH2 (50 microM) but not to trypsin or LSIGRL-NH2. The SL-NH2-mediated release/action of the EDCF was not affected by BQ123, indomethacin, MK886 or SKF-525A. In the 'sandwich assay', trypsin (4-10 nM), SL-NH2, KV-NH2 and tc-NH2 caused the release of a relaxant activity (EDRF) from the endothelium-intact (but not the denuded) HUV preparation. The release of EDRF was blocked by 0.1 mM (omega)nitro-L-arginine-methylester (L-NAME). Neither thrombin (10 u ml(-1), 100 nM) nor TF-NH2 (50 microM) were active in this EDRF-release assay. The relative potencies of the PAR2 agonists for causing the release of EDRF in the HUV sandwich assay were: trypsin> >SL-NH2> >tc-NH2>KV-NH2. This order of potencies differed from the one observed for the same agonists in the HUV contraction assay (above) and in an intracellular calcium signalling assay, conducted with cloned human PAR2 that was expressed in cultured rat kidney KNRK cells: trypsin > > SL-NH2 = tc-NH2 > KV-NH2. We conclude that PAR2APs (but not PAR1APs) via a receptor distinct from PAR2, can cause a contractile response in endothelium-intact HUV tissue via the release of a diffusable EDCF, that is different from previously recognized smooth muscle agonists (e.g. prostanoid metabolites, endothelin, noradrenaline, angiotensin-II, acetylcholine).     

Evaluation of proteinase-activated receptor-1 (PAR1) agonists and antagonists using a cultured cell receptor desensitization assay: activation of PAR2 by PAR1-targeted ligands

We developed a calcium signaling-based assay, using cultured human embryonic kidney cells (HEK), that evaluates simultaneously, the activation/desensitization or blockade of the proteinase-activated receptors, PAR1 and PAR2. Using this assay, we analyzed the actions of a number of previously described putative PAR1-targeted peptide agonists and antagonists. We found that most of the previously described PAR1-targeted agents can also activate/desensitize PAR2, and most of these peptides can also activate a calcium signaling pathway in a target cell that possesses PAR2 along with PAR1. Furthermore, we used this assay to develop a PAR1 receptor-activating probe [Ala-parafluoroPhe-Arg-Cha-Cit-Tyr-NH2 (Cit-NH2)], which displays a high degree of specificity for PAR1 over PAR2, and we used the assay to quantitate the ability of trypsin to disarm the activation of PAR1 by thrombin. The abilities of the PAR1-targeted agents to desensitize or block PAR1 in the HEK cell assay were compared with their activities in a human platelet aggregation assay. Our data illustrate the usefulness of the HEK cell assay for evaluating the PAR1/PAR2 selectivity of PAR-activating agonists. The PAR1-selective agonist that we developed using the assay should prove useful for studying the effects of selectively activating PAR1 in vivo.     

Proteinase-activated receptors: structural requirements for activity, receptor cross-reactivity, and receptor selectivity of receptor-activating peptides

We have used three distinct bioassay systems (rat aorta (RA) relaxation; rat gastric longitudinal muscle (LM) contraction; human embryonic kidney 293 (HEK293) cell calcium signal) to evaluate the activity and receptor selectivity of analogues of the receptor-activating peptides derived either from the thrombin receptor (TRAPs, based on the human receptor sequence, SFLLRNPNDK...) or the proteinase-activated receptor 2 (PAR2APs, based on the rat receptor sequence SLIGRL...). Our main focus was on the activation of PAR2 by PAR2APs and the cross-activation of PAR2 by the TRAPs. In the RA and LM assay systems, PAR2APs that were either N-acetylated (N-acetyl-SLIGRL-NH2) or had a reverse N-terminal sequence (LSIGRL-NH2) were inactive, either as agonists or antagonists. An alanine substitution at position 3 of the PAR2AP (SLAGRL-NH2) led to a dramatic reduction of biological activity, as did substitution of threonine for serine at position 1 (TLIGRL-NH2). However, alanine substitution at PAR2AP position 4 caused only a modest reduction in activity, resulting in a peptide (SLIARL-NH2) with a potency equivalent to that of the human PAR2AP, SLIGKV-NH2. The order of potency of the PAR2APs in the RA, LM, and HEK assay systems was SLIGRL-NH2 > SLIARL-NH2 > SLIGKV-NH2 > TLIGRL-NH2 > SLAGRL-NH2. In HEK cells, none of the PAR2APs activated the thrombin receptor (PAR1). However, in the HEK cell assay, the TRAP, SFLLR-NH2, activated or desensitized both PAR1 and PAR2 receptors, whereas the xenopus TRAP, TFRIFD-NH2, activated or desensitized selectively PAR1 but not PAR2. By constructing human-xenopus hybrid peptides, we found that the TRAPs, TFLLR-NH2, and SFLLFD-NH2 selectively activated the thrombin receptor in HEK cells without activating or desensitizing PAR2. In contrast, the TRAPs SFLLRD-NH2 and AFLLR-NH2 activated or desensitized both PAR1 and PAR2. The order of potency for the TRAPs in all bioassay systems was SFLLR-NH2 approximately equal to SFLLRD-NH2 approximately equal to TFLLR-NH2 > SFLLFD-NH2 > TFRIFD-NH2. We conclude that the N-terminal domain of the PAR2AP as well as positon 3 plays important roles for PAR2 activation. In contrast, the first and fifth amino acids in the TRAP motif, SFLLR-NH2, do not play a unique role in activating the thrombin receptor, but if appropriately modified can abrogate the ability of this peptide to cross-desensitize or activate PAR2, so as to be selective for PAR1. The PAR1- and PAR2-selective peptides that we have synthesized will be of use for the evaluation of the roles of the PAR1 and PAR2 receptor systems in vivo.     

A dual thrombin receptor system for platelet activation

Platelet-dependent arterial thrombosis triggers most heart attacks and strokes. Because the coagulation protease thrombin is the most potent activator of platelets, identification of the platelet receptors for thrombin is critical for understanding thrombosis and haemostasis. Protease-activated receptor-1 (PAR1) is important for activation of human platelets by thrombin, but plays no apparent role in mouse platelet activation. PAR3 is a thrombin receptor that is expressed in mouse megakaryocytes. Here we report that thrombin responses in platelets from PAR3-deficient mice were markedly delayed and diminished but not absent. We have also identified PAR4, a new thrombin-activated receptor. PAR4 messenger RNA was detected in mouse megakaryocytes and a PAR4-activating peptide caused secretion and aggregation of PAR3-deficient mouse platelets. Thus PAR3 is necessary for normal thrombin responses in mouse platelets, but a second PAR4-mediated mechanism for thrombin signalling exists. Studies with PAR-activating peptides suggest that PAR4 also functions in human platelets, which implies that an analogous dual-receptor system also operates in humans. The identification of a two-receptor system for platelet activation by thrombin has important implications for the development of antithrombotic therapies.     

Ecdysteroid receptor and ultraspiracle from Chironomus tentans (Insecta) are phosphoproteins and are regulated differently by molting hormone

A consists of berberine chloride and an extract from geranium herb. To clarify mechanisms of the antidiarrheal effect of Phelloberin-A, we investigated the astringent action by determining its binding activity to rabbit hemoglobin and effects on active transport, which was indicated by short-circuit current (Isc), in rat jejunum by the Ussing chamber technique. The effects of berberine chloride and geranium herb on both the binding activity to hemoglobin and the electrophysiological parameters such as Isc were compared with those of the antidiarrhoeicas, tannic acid, albumin tannate and bismuth subnitrate. Geranium herb, tannic acid and bismuth subnitrate increased significantly the binding activity to hemoglobin at concentrations of > 1 mg/ml, > 0.3 mg/ml and 10 mg/ml, respectively, but berberine or albumin tannate did not. Geranium herb and tannic acid dose-dependently and moderately increased Isc in rat jejunal mucosa and the increase became significant at a concentration of 10 mg/ml. Neither berberine chloride, albumin tannate nor bismuth subnitrate affected Isc. In contrast, cholera toxin, which increases the secretion from intestinal mucosa to the lumen and induces diarrhea, decreased Isc at a concentration of 0.1 mg/ml. The decrease of Isc induced by cholera toxin was antagonized by pretreatment with geranium herb (10 mg/ml), indicating that geranium herb inhibited the toxin-induced increase in secretion. These results suggest that geranium herb possesses an astringent action and moderately increases Isc across the intestinal mucosa. Therefore, the effects may support an antidiarrheal effect of both geranium herb and Phelloberin-A.     

Functional thrombin receptor PAR1 in primary cultures of human glioblastoma cells

In this study we investigated primary cultures obtained from two glioblastomas surgically removed from a 64-year-old man and a 50-year-old woman, respectively. The presence of the tethered ligand thrombin receptor PAR1 (protease-activated receptor 1) in these cells was demonstrated at the level of receptor binding by using immunofluorescence studies with the monoclonal anti-PAR1 antibody Mab 31-2. Stimulation of human glioblastoma cells both with alpha-thrombin and the thrombin receptor activating peptide TRAP-6 resulted in a series of [Ca+]i spikes as shown by confocal laser fluorescence microscopy with fluo-3 as calcium sensitive fluorescence indicator. This effect was completely blocked with the thrombin receptor antagonist peptide T1. Our results demonstrate functional thrombin receptors (PAR1) in primary cultures of human glioblastomas for the first time.     

Late peritoneal metastasis in a patient with osteosarcoma

Nutrient transport across the mammalian small intestine is regulated by several factors, including intrinsic and extrinsic neural pathways, paracrine modulators, circulating hormones and luminal agents. Because beta-adrenoceptors seem to regulate gastrointestinal functions such as bicarbonate and acid secretion, intestinal motility and gastrointestinal mucosal blood flow, we have investigated the effects of different beta-adrenergic agonists on nutrient absorption by the rat jejunum in-vitro. When intestinal everted sacs were used the beta2-agonist salbutamol had no effect either on galactose uptake by the tissue or mucosal-to-serosal flux whereas mixed beta1- and beta2-agonists (isoproterenol and orciprenaline) and beta3-agonists (BRL 35135, Trecadrine, ICI 198157 and ZD 7114) inhibited galactose uptake and transfer of D-galactose from the mucosal-to-serosal media across the intestinal wall (although the inhibiting effects of isoproterenol and Trecadrine were not statistically significant). In intestinal everted rings both Trecadrine and BRL 35135 clearly reduced galactose uptake, the effect being a result of inhibition of the phlorizin-sensitive component. Total uptake of phenylalanine by the intestinal rings was also reduced by those beta3-adrenergic agonists. These results suggest that beta1- and beta3-adrenergic receptors could be involved in the regulation of intestinal active transport of sugars and amino acids.     

Radioligand assay for gonadotropin-releasing hormone: relative potencies of agonists and antagonists

A radioligand assay employing tritiated gonadotropin-releasing hormone, [3H-Pro9]GnRH or [3H-pGlu1]GnRH is used to investigate the binding of GnRH, its agonists, and its antagonists to male rat anterior pituitary homogenates. The tritiated GnRH purified by high pressure liquid chromatography and stored in 10 mM HOAc is stable for binding for at least 14 weeks. It is found that there is at least one high affinity site with an observed Kd of congruent to 2 nM and another low affinity site whose Kd is congruent to 1 microM. Only approximately 25% of the total specific binding is to the low affinity site. At room temperature, the binding is reduced to 50% of that at 0 C, and at 37 C, there is no measurable binding. Bacitracin has no effect on the binding at any temperature. Maximum binding occurs between pH 7.5--8.5. Quantitative relative binding potencies of several agonists and antagonists are given. These potencies closely parallel their biological potencies, but all antagonists have higher absolute binding affinities when compared to their potencies to inhibit GnRH-mediated LH secretion in vitro.     

Constitutive activity and structural instability of the wild-type human H2 receptor

Stable expression of the human H2 receptor in Chinese hamster ovary cells resulted in an increase in basal cyclic AMP (cAMP) production, which was inhibited by the inverse agonists cimetidine, famotidine, and ranitidine with potencies similar to those found for the rat H2 receptor. Burimamide, a neutral antagonist at the rat H2 receptor, behaved as a weak partial agonist at the human H2 receptor. Burimamide competitively antagonized both the histamine-induced increase in cAMP and the cimetidine-induced reduction of the basal cAMP level with apparent K(B) values that were similar to its H2 receptor affinity. Investigation of the modulation of receptor expression after long-term drug treatment revealed that at low concentrations histamine induced a significant reduction in H2 receptor expression, whereas at high concentrations receptor expression was slightly increased. The partial agonist burimamide induced, like inverse agonists, an up-regulation of the human H2 receptor after prolonged treatment. These findings suggest a structural instability of the constitutively active human H2 receptor in transfected Chinese hamster ovary cells. Occupation of the H2 receptor by any ligand reduces the instability, thus resulting in higher cellular expression levels.     

Antibodies to protease-activated receptor 3 inhibit activation of mouse platelets by thrombin

Recent studies of mice deficient in the thrombin receptor, protease-activated receptor 1 (PAR1), provided definitive evidence for the existence of a second thrombin receptor in mouse platelets. We recently identified a new thrombin receptor designated protease-activated receptor 3 (PAR3). The mRNA encoding a mouse homologue of PAR3 was highly expressed in mouse splenic megakaryocytes, making it a good candidate for the missing mouse platelet thrombin receptor. We now report that PAR3 protein is expressed on the surface of mouse platelets and that PAR3 antibodies partially inhibit activation of mouse platelets by thrombin but not U46619, a thromboxane receptor agonist. These observations suggest that PAR3 contributes to mouse platelet activation by thrombin.     

Human growth hormone-releasing hormone hGHRH(1-29)-NH2: systematic structure-activity relationship studies

Two complete and two partial structure-activity relationship scans of the active fragment of human growth hormone-releasing hormone, [Nle27]-hGHRH(1-29)-NH2, have identified potent agonists in vitro. Single-point replacement of each amino acid by alanine led to the identification of [Ala8]-, [Ala9]-, [Ala15]- (Felix et al. Peptides 1986 1986, 481), [Ala22]-, and [Ala28, Nle27]-hGHRH(1-29)-NH2 as being 2-6 times more potent than hGHRH(1-40)-OH (standard) in vitro. Nearly complete loss of potency was seen for [Ala1], [Ala3], [Ala5], [Ala6], [Ala10], [Ala11], [Ala13], [Ala14], and [Ala23], whereas [Ala16], [Ala18], [Ala24], [Ala25], [Ala26], and [Ala29] yielded equipotent analogues and [Ala7], [Ala12], [Ala17], [Ala20], [Ala21], and [Ala27] gave weak agonists with potencies 15-40% that of the standard. The multiple-alanine-substituted peptides [MeTyr1,Ala15,22,Nle27]-hGHRH(1-29)-NH2 (29) and [MeTyr1,Ala8,9,15,22,28,Nle 27]-hGHRH(1-29)-NH2 (30) released growth hormone 26 and 11 times, respectively, more effectively than the standard in vitro. Individual substitution of the nine most potent peptides identified from the Ala series with the helix promoter alpha-aminoisobutyric acid (Aib) produced similar results, except for [Aib8] (doubling vs [Ala8]), [Aib9] (having vs [Ala9]), and [Aib15] (10-fold decrease vs [Ala15]). A series of cyclic analogues was synthesized having the general formula cyclo(25-29)[MeTyr1,-Ala15,Xaa25,Nle27,Yaa29+ ++]-GHRH(1-29)-NH2, where Xaa and Yaa represent the bridgehead residues of a side-chain cystine or [i-(i + 4)] lactam ring. The ring size, bridgehead amino acid chirality, and side-chain amide bond location were varied in this partial series in an attempt to maximize potency. Application of lactam constraints in the C-terminus of GHRH(1-29)-NH2 identified cyclo(25-29)[MeTyr1,Ala15,DAsp25,Nle27,Orn29+ ++]-hGHRH(1-29)-NH2 (46) as containing the optimum bridging element (19-membered ring) in this region of the molecule. This analogue (46) was 17 times more potent than the standard. Equally effective was an [i-(i + 3)] constraint yielding the 18-membered ring cyclo(25-28)[MeTyr1,Ala15,Glu25,Nle,27Lys28]- hGHRH-(1-29)-NH2 (51) which was 14 times more potent than the standard. A complete [i-(i + 3)] scan of cyclo(i,i + 3)[MeTyr1,Ala15,Glui,Lys(i + 3),Nle27]-hGHRH(1-29)-NH2 was then produced in order to test the effects of a Glu-to-Lys lactam bridge at all points in the peptide. Of the 26 analogues in the series, 11 had diminished potencies of less than 10% that of the agonist standard, 4 were weak agonists (15-40% relative potency), and 4 analogues were equipotent to the standard. The 7 most potent analogues ranged in potency from 3 to 14 times greater than that of the standard and contained the [i-(i + 3)] cycles between residues 4-7, 5-8, 9-12, 16-19, 21-24, 22-25, and 25-28. The combined results from these systematic studies allowed for an analysis of structural features in the native peptide that are important for receptor activation. Reinforcement of the characteristics of amphiphilicity, helicity, and peptide dipolar effects, using recognized medicinal chemistry approaches including introduction of conformational constraints, has resulted in several potent GHRH analogues.     

Atrial natriuretic peptide-induced secretory responses in rabbit vs rat ileum

The aim of this study was to characterize and compare the effect of atrial natriuretic peptide (ANP) on ileal transport function in two common laboratory animals, the Hooded-Lister rat and the New Zealand White rabbit. ANP 1 microM produced a maximal increase in short circuit current (Isc) that was Cl- dependent in both rat and rabbit. The maximal response in rat tissue was twice the magnitude of that seen in the rabbit. Furthermore, the rabbit Isc response was rapid and transient compared with that of the rat. In both rats and rabbits, the ANP response was dependent on extracellular Ca++. Neural blockade had no effect on the rat ANP response but significantly inhibited the ANP response in rabbits. In the rat, the effect of ANP is mediated by seratonin (5-HT) acting through 5-HT2 receptors. In contrast, no role for 5-HT could be seen in the rabbit ileal ANP response. In intact tissue in both rat and rabbit, ANP stimulated a significant rise in cGMP levels. ANP had no effect on cAMP levels in either species. The findings suggest a separate and distinct mechanism for ANP-mediated intestinal Cl- secretion in the rat ileum compared with the rabbit.     

A pH-dependent, carrier-mediated system for transport of 5-methyltetrahydrofolate in rat jejunum

The intestinal transport of the naturally occurring folate coenzyme, 5-methyltetrahydrofolate, was studied using everted sacs of rat jejunum. The study provides evidence that intestinal transport of 5-methyltetrahydrofolate is composed of two systems: 1) an active, carrier-mediated system which is demonstrable at low concentrations; and 2) a diffusion system which is demonstrable at high concentrations. The active system is characterized by: 1) saturation kinetics with Km congruent to 0.3 microM; 2) accumulation against a concentration gradient with a serosal-to-mucosal ratio of 1.8; 3) inhibition by metabolic poisons; 4) inhibition by oxidized and reduced folate analogs; 5) temperature dependence; 6) sodium dependence; 7) glucose dependence; and 8) specificity for the jejunum. These features are strongly pH-dependent, and demonstration of active transport of 5-methyltetrahydrofolate requires a buffer pH of 6, glucose in the incubation medium and a substrate concentration of less than 10(-6) M. The diffusion process is characterized by: 1) linear increase in the mucosal-to-serosal transport of 5-methyltetrahydrofolate with increasing mucosal concentration to 10(-6) M and above; 2) energy independence; 3) pH independence; and 4) temperature independence. These studies clarify the mechanism of intestinal transport of 5-methyltetrahydrofolate, show the similarities to transport of other folate compounds and provide a unified concept of intestinal folate transport.     

Nociceptin receptor binding in mouse forebrain membranes: thermodynamic characteristics and structure activity relationships

The present study describes the labelling of the nociceptin (NC) receptor, ORL1, in mouse forebrain membranes with a new ligand partially protected from metabolic degradation at the C-terminal; the ligand, [3H]-NC-NH2, has a specific activity of 24.5 Ci mmol(-1). Saturation experiments revealed a single class of binding sites with a KD value of 0.55 nM and Bmax of 94 fmol mg(-1) of protein. Non specific binding was 30% of total binding. Kinetic binding studies yielded the following rate constants: Kobs = 0.104 min(-1); K1 =0.034 min(-1): T1/2=20 min; K(+1)=0.07 min nM(-1). Thermodynamic analyses indicated that [3H]-NC-NH2 binding to the mouse ORL1 is totally entropy driven, similar to what has been observed for the labelled agonists to the opioid receptors OP1(delta), OP2(kappa) and OP3(mu). Receptor affinities of several NC fragments and analogues, including the newly discovered ORL-1 receptor antagonist [Phe1psi(CH2-NH)Gly2]NC(1-13)-NH2([F/G]NC(1-13)-NH2), were also evaluated in displacement experiments. The competition curves for these compounds were found to be parallel to that of NC and the following order of potency was determined for NC fragments: NC-OH = NC-NH2-NC(1-13)-NH2 > > NC(1-12)-NH2 > NC(1-13)-OH > > NC(1-11)-NH2, and for NC and NC(1-13)-NH2 analogues: [Tyr1]NC-NH2 > or = [Leu1]NC(1-13)-NH2 > or = [Tyr1]NC(1-13)-NH2 > or = [F/G]NC(1-13)-NH2 > > [Phe3]NC(1-13)-NH2 > [DF/G]NC(1-13)-NH2. Standard opioid receptor ligands (either agonists or antagonists) were unable to displace [3H]-NC-NH2 binding when applied at concentrations up to 10 microM indicating that this new radioligand interacts with a non opioid site, probably the ORL1 receptor.     

Effect of ramosetron on short-circuit current response in rat colonic mucosa

We investigated the effects of ramosetron (YM060, (-)-(R)-5-[(1-methyl-1H-indol-3-yl)carbonyl]-4,5,6,7-tetrahydro-1 H-benzimidazole monohydrochloride) on the short-circuit current (Isc) responses to 5-HT receptor agonists in the rat distal colon, and compared its potency to that of other 5-HT3 receptor antagonists. 5-Hydroxytryptamine (5-HT) concentration-dependently increased Isc. The Isc response to 5-HT was partially reduced by tetrodotoxin and ramosetron, and strongly inhibited by GR113808 ([[1-[(2-methyl-sulphonyl) amino]ethyl]-4-piperidin-yl]methyl 1-methyl-1 H-indole-3-carboxylate). 2-Methyl-5-HT and 5-methoxytryptamine also increased Isc. The former response was inhibited by ramosetron, and the latter was abolished by GR113808. Ramosetron, YM114 (KAE-393, (-)-(R)-5-[(1-indolinyl)carbonyl]-4,5,6,7-tetrahydro-1 H-benzimidazole monohydrochloride) and granisetron concentration-dependently antagonized the Isc responses to 2-methyl-5-HT with reduction in the maximal response at higher concentrations. Apparent pA2 values for these antagonists were 10.40, 10.37 and 8.99, respectively. Ondansetron produced clear rightward shifts of the concentration-response curves to 2-methyl-5-HT, with a pA2 value of 8.53. These results suggest that 5-HT increases Isc through the 5-HT3 and 5-HT4 receptors, and that ramosetron is a potent and selective 5-HT3 receptor antagonist in rat colonic mucosa.     

Increased active stress generation of denervated rat intestinal smooth muscle: functional analysis of muscarinic receptor population

The effects of denervation on the active stress production by the longitudinal muscle (LM) layer of rat jejunum were examined. Extrinsic and myenteric denervation of a segment of rat jejunum was accomplished by the serosal application of the cationic surfactant benzyldimethyltetradecylammonium chloride (BAC). Isolated muscle contraction experiments revealed that the LM of the jejunum taken from rats treated with BAC 15 days before developed significantly increased active stress in response to bethanechol and carbachol, but not in response to potassium chloride. No change in -log EC50 values of any of the agonists was observed in the denervated LM layer, although a significant increase in the slope of the carbachol and bethanechol concentration-response curves was observed in the denervated LM. Schild analysis of several muscarinic antagonists revealed a 3-fold increase in the apparent dissociation constant of the M2 antagonist methoctramine in BAC-treated LM. These results suggest that the increased responsiveness of the denervated LM may originate in the muscarinic receptor population of the myocytes.     

Multiple alpha 2 adrenergic receptor subtypes. I. Comparison of [3H]RX821002-labeled rat R alpha-2A adrenergic receptors in cerebral cortex to human H alpha2A adrenergic receptor and other populations of alpha-2 adrenergic subtypes

In the present study, we examined the binding of the alpha-2 adrenergic receptor (AR) antagonist [3H]-(2-(2-methoxy-1,4-benzodioxan- 2yl)-2-imidazoline ([3H]RX821002) to alpha-2 AR in rat cerebral cortex (CC) and compared the properties of these sites to those of rat alpha-2A (R alpha-2A) AR in submaxillary gland (SMG), human alpha-2A (H alpha-2A) AR in human platelets and alpha-2B AR in neonatal rat lung. In the presence of guanidinium phosphate, [3H]RX821002 bound with high affinity to a large and homogeneous population of sites in CC (Kd = 0.30 +/- 0.03 nM and Bmax = 271 +/- 7 fmol/mg of protein), SMG (Kd = 0.7 and Bmax = 274), human platelets (Kd = 0.6 nM and Bmx = 189) and neonatal rat lung (kd = 0.9 and Bmax = 161). A total of 34 chemically diverse AR ligands monophasically inhibited the binding of [3H]RX821002 from each site with, for the CC, the most potent ligand being atipamezole (Ki = 0.2 nM). For all ligands, and at each site, Hill coefficients did not differ significantly from unity. Although the profiles of inhibition of [3H]RX821002 were virtually identical in rat CC and SMG, these populations revealed several marked differences to human platelets; the alkaloids, rauwolscine and yohimbine, as well as the benzodioxane, [2-(2,6- dimethoxyphenoxyethyl)-aminomethyl-1,4-benzodioxane] (WB 4101), displayed about 10-fold lower affinity for R alpha-2A as compared to H alpha-2A sites, whereas the benzopyrrolidines, fluparoxan and des-fluorofluparoxan, showed about 10-fold greater affinity for R alpha-2A sites. Further, whereas the calculation of potency ratios for selected pairs of ligands, as well as of correlation coefficients, revealed virtual identity between R alpha-2A AR in CC and SMG, these analyses revealed that each of these populations of R alpha-2A AR clearly differed to H alpha-2A AR in human platelets. In addition, both R alpha-2A AR in rat CC and SMG as well as H alpha-2A AR in human platelets markedly differed to alpha-2B AR in neonatal rat lung; thus, they showed 20-fold higher affinity for [2-(2H-(1-methyl-1,3-dihydroisoindole)methyl)-4,5- dihydroimidazoline] (BRL 44408), oxymetazoline, guanfacine and guanabenz yet 10- to 100-fold lower affinity for [2-(2-4-o- methoxyphenyl)piperazine-1-yl)-ethyl)-4,4-dimethyl-1,3-(2H,4H)- isoquinolinedione] (ARC 239) prazosin, chlorpromazine and corynanthine. Similar differences in R alpha-2A and H alpha-2A sites to alpha-2C sites were apparent upon analysis of literature data.(ABSTRACT TRUNCATED AT 400 WORDS)     

Examination of ligand-induced conformational changes in the beta2 adrenergic receptor

The environmentally sensitive and cysteine reactive fluorescent probe, IANBD, was used to monitor ligand-induced structural changes in the beta2 adrenergic receptor (beta2AR) by fluorescent spectroscopy. We found that agonists caused a dose-dependent and reversible decrease in fluorescence from the purified IANBD-labeled beta2AR. This suggested that agonists promote a conformational change in the receptor that leads to an increase in the polarity of the environment around one or more IANBD labeled cysteines. The wildtype receptor contains eight free cysteines and mutagenesis and peptide mapping experiments have indicated that several of these sites are accessible for chemical derivatization. Thus, to identify the cysteine(s) involved in the agonist-induced change in fluorescence and thereby map agonist-induced conformational changes in the beta2AR, we generated a series of mutant receptors having limited numbers of cysteines available for fluorescent labeling. Fluorescence spectroscopy analysis of the purified and site-selectively IANBD-labeled mutants showed that IANBD labeled 125Cys and 285Cys are responsible for the observed changes in fluorescence consistent with movements of TM III and VI in response to agonist binding.     

Epoxygenase metabolites of arachidonic acid affect electrophysiologic properties of rat tracheal epithelial cells1

Epoxyeicosatrienoic acids (EETs) and dihydroxyeicosatrienoic acids, products of the cytochrome P450 arachidonic acid epoxygenase pathway, have been shown to affect electrolyte transport in the kidney; however, the effects of these compounds on airway epithelial ion transport have not been investigated. Intact rat tracheas and primary cultures of rat tracheal epithelial cells were mounted in Ussing chambers to monitor changes in transepithelial voltage (Vt), short circuit current (Isc) and electrical resistance (Rt), with or without the addition of increasing concentrations (10(-9)-10(-6) M) of arachidonic acid, each of the four regioisomeric EETs and each of the corresponding dihydroxyeicosatrienoic acids. In intact tracheas, 11,12-EET caused dose-dependent decreases in Vt and Isc (DeltaVt = 0. 4 +/- 0.1 mV, DeltaIsc = -16.9 +/- 5.4 microA/cm2 at 10(-6) M, P < . 05 vs. vehicle), whereas changes in Rt were not significantly different than vehicle alone. 11,12-dihydroxyeicosatrienoic acid caused less impressive decreases in Vt and Isc, although arachidonic acid and the other compounds tested were without significant effects. 11,12-EET induced similar changes in cultured tracheal epithelial cell electrical parameters at concentrations as low as 10(-9) M. The effects of 11,12-EET were highly stereoselective, with activity limited to 11(R),12(S)-EET, the least abundant rat lung enantiomer. Pretreatment with amiloride or mucosal exposure to sodium free media did not significantly alter the 11,12-EET-induced changes in Vt. In contrast, pretreatment with bumetanide abolished the 11,12-EET electrophysiologic effects, suggesting that these effects may be mediated through inhibition of a chloride conductive pathway. We conclude that arachidonic acid epoxygenase metabolites cause significant changes in rat airway electrical parameters and may be involved in the control of lung fluid and electrolyte transport.