Aster tataricus alleviates constipation by antagonizing the binding of acetylcholine to muscarinic receptor and inhibiting Ca2+ influx

BACKGROUND

The dried root and rhizome of Aster tataricus (RA), is a traditional Chinese medicine has been used for more than 2000 years with the function of antitussive, expectorant and antiasthmatic. Ancient books and modern pharmacological researches demonstrated that RA may have the function of moistening intestines and relieving constipation, but there was a lack of systematic evidence. The aim of this study was to comprehensively evaluate the efficacy and possible mechanisms of ethanol extract of Aster tataricus (ATE) in treating constipation from in vivo to in vitro.

METHODS

In vivo, the ATE was studied in loperamide-induced constipation of mice. In vitro, different concentrations of ATE was tested separately or cumulatively on spontaneous and agonists-induced contractions of isolated rat duodenum strips.

RESULTS

In vivo, at doses of 0.16, 0.8 g/mL, ATE showed significantly promotion of the small intestinal charcoal transit, decrease of the amount of remnant fecal, and increase of the content of fecal water in colon. In addition, ATE could effectively relieve colonic pathological damage caused by loperamide as well. In vitro, with the cumulative concentration increase of ATE from 0.8 to 6.4 mg/mL, it could significantly decrease the contraction caused by KCl or Ach, and gradually restore to near base tension value.Meanwhile, it could also partially but significantly inhibit the contractions induced by Ach and CaCl2 on rat duodenum in a concentration related manner.

CONCLUSIONS

Taking all these findings together, it could be speculated that ATE may attenuate constipation mainly through antagonizing the binding of acetylcholine to muscarinic receptor, inhibiting Ca2+ influx and anti-inflammation.

Blood pressure lowering effects of Ranunculus scleratus Linn. in normal and fructose induced hypertensive rats and estimation of underlying mechanisms

Ranunculus scleratus Linn. is used in folk medicine to treat hypertension. This study was aimed at providing validation to its traditional use and to explore underlying mechanisms of action. Effects of hydro-ethanolic crude extract of the plant and its fractions on blood pressure was evaluated using direct surgical method in normotensive and in fructose induced hypertensive rats. Various doses of crude extract, RSC, (5, 10, 20, 30mg/kg) and all fractions (3, 5, 10, 20mg/kg) were studied. Results suggested that aqueous fraction of R. scleratus (RSA) produced most pronounced effects at 10mg/kg in normotensive and at 20mg/kg in hypertensive animals. Underlying mechanisms, using various pharmacological antagonists were also elucidated. Results suggested the involvement of muscarinic receptor, angiotensin converting enzyme (ACE) inhibition, ganglionic block and nitric oxide (NO) release in presenting hypotensive response.

Spasmolytic activity of Aquilariae Lignum Resinatum extract on gastrointestinal motility involves muscarinic receptors, calcium channels and NO release

CONTEXT

Aquilariae Lignum Resinatum (ALR), the dry rhizome of Aquilaria agallocha R. (Thymelaeaeeae), has been widely used to treat emesis, stomachache and gastrointestinal dysfunction.

OBJECTIVE

This study evaluates the effects of ALR methanol extract on gastrointestinal motility (GIM) and possible mechanisms of the action involved.

MATERIALS AND METHODS

In vivo, the study evaluated the effects of ALR (200-800 mg/kg) on gastric emptying and small intestinal motility in normal and neostigmine-induced adult KM mice. The in vitro effects of ALR (0.2-1.6 mg/mL) on GIM were performed on isolated jejunum of Wistar rats, pretreated with acetylcholine (ACh), KCl, CaCl₂, and pre-incubation with l-NAME (a selective inhibitor of the nitric oxide synthase).

RESULTS

In vivo, ALR (800 mg/kg) decreased gastric emptying (70.82 ± 9.81%, p < 0.01, compared with neostigmine group 91.40 ± 7.81%), small intestinal transit (42.82 ± 3.82%, p < 0.01, compared with neostigmine group 85.53 ± 5.57%). In vitro, ALR concentration dependently decreased the contractions induced by ACh (10^-5 M) and KCl (60 mM) with respective EC₅₀ values of 0.35 and 0.32 mg/mL. The Ca²⁺ concentration-response curves were shifted by ALR to the right, similar to that caused by verapamil (the positive). The spasmolytic activity of ALR was inhibited by pre-incubation with l-NAME.

DISCUSSION AND CONCLUSIONS

ALR played a spasmolytic role in GIM, which is probably mediated through inhibition of muscarinic receptors, blockade of Ca²⁺ influx and NO release. This is the first study presenting a comprehensive description of the effects of ALR on GIM.

The antidiarrheal and spasmolytic activities of Phyllanthus emblica are mediated through dual blockade of muscarinic receptors and Ca2+ channels

AIM OF THE STUDY

This study was aimed at providing the possible mechanisms for the medicinal use of Phyllanthus emblica in diarrhea.

MATERIALS AND METHODS

The in vivo studies were conducted in mice, while isolated rabbit jejunum and guinea-pig ileum were used for the in vitro experiments.

RESULTS

The crude extract of Phyllanthus emblica (Pe.Cr), which tested positive for alkaloids, tannins, terpenes, flavonoids, sterols and coumarins, caused inhibition of castor oil-induced diarrhea and intestinal fluid accumulation in mice at 500-700 mg/kg. In isolated rabbit jejunum, Pe.Cr relaxed carbachol (CCh) and K(+) (80 mM)-induced contractions, in a pattern similar to that of dicyclomine. The preincubation of guinea pig-ileum with Pe.Cr (0.3 mg/mL), caused a rightward parallel shift in the concentration-response curves (CRCs) of acetylcholine without suppression of the maximum response. While at the next higher concentration (1 mg/mL), it produced a non-parallel rightward shift with suppression of the maximum response, similar to that of dicyclomine, suggesting anticholinergic and Ca(2+) channel blocking (CCB)-like antispasmodic effect. The CCB-like activity was further confirmed when pretreatment of the tissue with Pe.Cr, shifted the CRCs of Ca(2+) to the right with suppression of the maximum response, similar to nifedipine or dicyclomine. The activity-directed fractions of Pe.Cr showed a combination of Ca(2+) antagonist and anticholinergic like components in all fractions but with varying potency.

CONCLUSION

These results indicate that the Phyllanthus emblica fruit extract possesses antidiarrheal and spasmolytic activities, mediated possibly through dual blockade of muscarinic receptors and Ca(2+) channels, thus explaining its medicinal use in diarrhea.

Determination of (R,R)-glycopyrronium bromide and its related impurities by ion-pair HPLC

A simple, rapid and specific ion-pair HPLC method for the determination of (R,R)-glycopyrronium bromide and its related impurities is presented, and parameters affecting the chromatographic properties of these compounds are discussed. Optimal analyte separation was achieved on base deactivated Nucleosil at 40 degrees C, using phosphate buffer pH 2.30 with sodium-1-decanesulfonate (0.01 M)/methanol (35/65; v/v) as eluent for isocratic elution at a flow rate 1 ml x min(-1). The analytical assay was validated according to international guidelines. The methodis suitable for in-process control and as stability indicating assay.

Selective antagonism activity of alkaloids from bulbs Fritillariae at muscarinic receptors: functional studies

15 alkaloids were isolated from five Fritillariae species and 6 derivatives were synthesized. Alkaloids having anticholinergic effect on guinea-pig tracheal smooth muscle were screened out and their mechanism was further studied on the cAMP formation in Chinese hamster ovary cells stably expressing human muscarinic M2 receptor (CHO-hM2 cells) and intracellular calcium ([Ca(2+)](i)) transient in Chinese hamster ovary cells stably expressing human muscarinic M3 receptor (CHO-hM3 cells). In normal Krebs-Henseleit (KH) solution, imperialine (15), 3beta-acetylimperialine (16) and sinpeinine A (17) concentration-dependently relaxed 1 microM carbachol-induced contraction of guinea-pig tracheal rings with EC(50) of 4.19, 1.71 and 4.67 microM, respectively. In Ca(2+)-free KH solution, 10 microM 3beta-acetylimperialine (16), imperialine (15) and sinpeinnine A (17) caused 97.42%, 5.45% and 6.55% inhibition, respectively, which indicated that the three components might inhibit muscarinic receptor in different mechanism. Results of muscarinic M2 receptor-inhibited cAMP formation in CHO-hM2 cells showed that imperialine (15) and sinpeinine A (17) could potently elevate the cAMP formation whereas 3beta-acetylimperialine (16) only had weak effect on antagonism of cAMP inhibition. Furthermore, the investigations of muscarinic M3 receptor-stimulated [Ca(2+)](i) transient in CHO-hM3 cells revealed that imperialine (15) and sinpeinine A (17) could not antagonize [Ca(2+)](i) transient, but 3beta-acetylimperialine (16) significantly inhibited [Ca(2+)](i) peak elevation with an IC(50) of 5.26 microM. The functional studies suggest that the mechanism of relaxant action of imperialine (15) and sinpeinine A (17) is due to their selective inhibitory effects on muscarinic M2 receptors and the mechanism of 3beta-acetylimperialine (16) originates from its selective muscarinic M3 receptors antagonism.

Nocardimicins G, H and I, siderophores with muscarinic M3 receptor binding inhibitory activity from Nocardia nova JCM 6044

In the screening for muscarinic M3 receptor binding inhibitors from microbial secondary metabolites, the extract of Nocardia nova JCM 6044 was found to be highly active. Bioassay-guided isolation led to the identification of three siderophores, nocardimicins G (1), H (2) and I (3). Their chemical structures were determined by spectroscopic analysis using NMR and MS. 1 and 2 inhibited the binding of tritium-labeled N-methylscopolamine to the muscarinic M3 receptor with Ki values of 0.44 microM and 0.37 microM, respectively, whereas 3 showed no inhibition at 10 microM. 1 and 2 also showed weak binding inhibitory activity to the M5 receptor but not to the M1, M2 and M4 receptors at 10 microM.

Nocardimicins A, B, C, D, E, and F, siderophores with muscarinic M3 receptor inhibiting activity from Nocardia sp. TP-A0674

In the screening for muscarinic M3 receptor binding inhibitors from microbial secondary metabolites, the extract of Nocardia sp. TP-A0674 was found to be highly active. Bioassay-guided fractionation of it led to the isolation of six new siderophores, nocardimicins A (1), B (2), C (3), D (4), E (5), and F (6), as active principles. Their chemical structures were determined by spectroscopic and degradation analysis. Of these congeners, nocardimicin B (2) inhibited the binding of tritium-labeled N-methylscopolamine to the muscarinic M3 receptor most potently with a Ki value of 0.13 microM. Compound 2 showed more selective activity to M3 and M4 receptors than other subtypes.

Comparison of capillary electrophoresis and reversed-phase liquid chromatography for determination of the enantiomeric purity of an M3 antagonist

The chiral separation of an M3 antagonist was investigated using capillary electrophoresis (CE) with various sulfated cyclodextrins and by reversed-phase liquid chromatography with derivatized cellulose, derivatized amylose, and two protein stationary phases. Operational parameters for each technique, such as the concentration of the chiral selectors, background electrolyte (or mobile phase) pH and type, organic modifiers, injection mode and temperature were varied in order to achieve a desired elution order and to meet a 0.1% limit of quantitation (LOQ) criteria. Based on the advantages and disadvantages of each technique, a practical CE method using sulfated gamma-cyclodextrin was selected. The method was validated in terms of linearity, LOQ, accuracy, ruggedness and precision.

Main constituents of a commercial Drosera fluid extract and their antagonist activity at muscarinic M3 receptors in guinea-pig ileum

The range of known constituents of Drosera species is extended by identification of myricetin 3-O-galactoside, from D. madagascariensis, and (+)-cis-isoshinanolone, obtained from a commercial fluid extract. They are accompanied by the naphthoquinones droserone and plumbagin, typical of this taxon, and a series of ubiquitous flavonols, including the rarely found gossypitrin present in the latter source. Conspicuously, the commercial form of D. peltata, non-accepted by the commission E, was found to be devoid of flavonoids. In addition, the fortuitous availability of the authentic enigmatic sample 'CON', previously isolated from D. rotundifolia, led to its characterization as common quercetin. Experiments performed on isolated guinea-pig ileum demonstrated that quercetin respectively 'CON' moderately inhibited carbachol-induced contractions at 10 microM (pD'2 5.09 +/- 0.02), while (+)-cis-isoshinanolone (100 microM) was inactive. This result indicates that quercetin derivatives may well contribute to the therapeutic use of Drosera preparations.

A snake venom inhibitor to muscarinic acetylcholine receptor (mAChR): isolation and interaction with cloned human mAChR

An inhibitor to the muscarinic acetylcholine receptor (mAChR) was purified from the venom of Crotalus atrox (western diamondback rattlesnake). The inhibitor was found to be a 30-kDa homodimer protein with phospholipase A2 activity. In order to determine the subtype selectivity of the purified inhibitor, the inhibitory effect on the binding of two orthosteric antagonists, [3H]quinuclidinyl benzilate ([3H]QNB) and [3H]N-methylscopolamine methyl chloride ([3H]NMS), to five subtypes of cloned human mAChR was tested. The purified inhibitor reduced the binding of [3H]QNB and/or [3H]NMS to all subtypes of the mAChR while showing the highest inhibitory effect on the M5 subtype. The Kd values of the receptors for the antagonists were increased in the presence of the inhibitor; however, the Bmax values were not changed. The effects of the purified inhibitor on the dissociation of [3H]NMS from the receptors were also investigated. Dissociation of the antagonist was remarkably slowed down by addition of the inhibitor. These findings may suggest an allosteric action of the purified inhibitor. In addition, the present study indicates that the presence of mAChR inhibitors is quite common in snake venoms.

Isolation of a muscarinic alkaloid with ocular hypotensive action from Trophis racemosa

A muscarinic alkaloid with a quaternary nitrogen was isolated from Trophis racemosa. Aqueous solutions (0.5%-2%) of the chloride salt of the alkaloid produced dose-dependent reductions of intra-ocular pressure ranging from 6.6 +/- 0.7 mmHg to 15.7 +/- 0.3 mmHg, (p < 0. 001, n = 5) in dogs. Atropine (0.1 mL of a 1% solution) and pirenzepine at a non selective antagonist dose (0.1 mL of 0.5% solution) for M(1) and M(3) receptors blocked the reduction of intra-ocular pressure, but alpha-adrenoceptor blockade with phenoxybenzamine (0.1 mL of a 1% solution) did not block the reduction of intra-ocular pressure. On the isolated guinea-pig ileum and trachea, the alkaloid produced contractions which were inhibited by atropine (6 x 10(-7) M or 0.4 microg/mL) and by pirenzepine at a non-selective antagonist dose (3.1 x 10(-6) M or 1.3 microg/mL) for M(1) and M(3) receptors. But neither selective blockade of M(2) receptors with gallamine (1.7 x 10(-6) M or 1.5 microg/mL) nor selective blockade of M(1) receptors with pirenzepine (7 x 10(-9) M or 3 ng/mL) inhibited the alkaloid-induced contractions. There was also no inhibition of the alkaloid-induced contractions in the presence of ganglionic nicotinic receptor blockade with pentolinium (5.6 x 10(-7) M or 0.3 microg/mL) and hexamethonium (1.7 x 10(-6) M or 0.6 microg/mL), but nicotine-induced contractions were inhibited by these ganglionic blockers. These results suggest that a muscarinic alkaloid from Trophis racemosa produced ocular hypotension via M(3) receptor stimulation in dogs.

m2-toxin: A selective ligand for M2 muscarinic receptors

Selective ligands are needed for distinguishing the functional roles of M2 receptors in tissues containing several muscarinic receptor subtypes. Because the venom of the green mamba Dendroaspis angusticeps contains the most specific antagonists known for M1 and M4 receptors (m1-toxin and m4-toxin), it was screened for toxins that inhibit the binding of [(3)H]N-methylscopolamine ([(3)H]NMS) to cloned M2 receptors. Desalted venom had as much anti-M2 as anti-M4 activity. The most active anti-M2 toxin in the venom was isolated by gel filtration, cation-exchange chromatography, and reversed-phase HPLC, and called m2-toxin. Spectrometry yielded a mass of 7095 Da, and N-terminal sequencing of 53 amino acids showed RICHSQMSSQPPTTTFCRVNSCYRRTLRDPHDPRGT-IIVRGCGCPRMKPGTKL. This sequence is more homologous to antinicotinic than antimuscarinic toxins, but it lacks three almost invariant residues of antinicotinic toxins required for their activity. m2-Toxin fully blocked the binding of [(3)H]NMS and [(3)H]oxotremorine-M to M2 receptors with Hill coefficients near 1, and blocked 77% of the binding sites for 0.1 nM [(3)H]NMS in the rat brainstem (K(i) = 11 nM). Concentrations that fully blocked cloned M2 receptors had no effect on M4 receptors, but slightly increased [(3)H]NMS binding to M1 receptors, an allosteric effect. In accord with these results, light microscopic autoradiography of the rat brain showed that m2-toxin decreased [(3)H]NMS binding in regions rich in M2 receptors and increased binding in regions rich in M1 receptors. Thus m2-toxin is a novel M2-selective, short-chain neurotoxin that may prove useful for binding and functional studies.

A rapid and simple Sep Pak method for purification of radioiodinated IQNP, a high affinity ligand for the muscarinic receptor

A simplified procedure for the purification of 1-azabicyclo[2.2.2]oct-3-yl alpha-hydroxy-alpha-(1-iodo-1-propen-3-yl)-alpha-phenylacetate (IQNP) stereoisomers utilizing a silica Sep Pak (SSP) is described. Iodine-131-E- and iodine-125-Z-(R,R)-IQNP were isolated after SSP purification in 80% and 75% radiochemical yields, respectively. The biodistribution of iodine-131-E-/iodine-125-Z-(R,R)-IQNP, purified either by SSP or high performance liquid chromatography (HPLC), was evaluated in female rats and demonstrated no significant differences in the uptake in various organs and cerebral regions. The utilization of SSP thus affords a simple and rapid method for the purification of IQNP for use in a variety of animal studies.

Partial characterization of endogenous modulators of muscarinic acetylcholine receptors in human frontal cortex

A soluble fraction from human frontal cortex with molecular weight less than 10 kD was tested for the presence of endogenous substances capable of modulating the [3H]-QNB binding to crude P1 + P2 fractions from the same region. The soluble fraction was able to decrease [3H]-QNB binding in a dose-response manner with an IC50 of about 30 micrograms/ml. The effect appeared to be noncompetitive in nature, since Bmax but not Kd was significantly affected; however, in some specimens a biphasic profile, with an initial inhibition of 88-90% of [3H]-QNB binding and 50-60% ulterior binding recuperation was also found. The modulator appeared to have a molecular weight less than 10,000 Daltons and was heat and trypsin resistant. These results point out the existence of an endogenous factor, which could be heterogeneous in regard to its molecular nature or to its action sites.

Anti-muscarinic toxins from Dendroaspis angusticeps

Toxins from the venom of the African green mamba, Dendroaspis angusticeps, fulfill a major need for selective ligands for some of the five genetically defined subtypes of muscarinic acetylcholine receptors (m1-m5). Two toxins have been found that are highly selective antagonists for m1 and m4 receptors (m1-toxin and m4-toxin, respectively). Two other toxins (MT1 and MT2) bind with high affinity to both m1 and m4 receptors, and are agonists. Components of the venom also modify the binding of radiolabeled antagonists to m2 receptors, but an m2-selective toxin has not yet been isolated, m1-Toxin can bind to m1 receptors at the same time as typical competitive antagonists, suggesting that this toxin binds to the N-terminal and outer loops of m1 receptor molecules, rather than within the receptor pocket where typical agonists and antagonists bind. The binding of toxins to the outer parts of receptor molecules probably accounts for their much higher specificity for individual receptor subtypes than is seen with smaller ligands. Toxins are useful for identifying, counting, localizing, activating and blocking m1 and m4 receptors with high specificity.

Phospholipase A2 from Naja naja sputatrix venom is a muscarinic acetylcholine receptor inhibitor

A variety of snake venoms was tested for the ability to inhibit the binding of antagonists to specific muscarinic acetylcholine receptors (mAChRs); the highest activity was found in the venom of Naja naja sputatrix. The active principle in this venom was isolated by column chromatography on Sephadex G-50, Sephadex G-150, and CM-Sephadex C-25. The final preparation was homogeneous as determined by polyacrylamide gel electrophoresis and HPLC; about sevenfold purification was achieved with a yield of 12%. The isolated active component, which was designated "muscarinic inhibitor," was found to displace various antagonists from rat synaptosomal membranes, which contain all subtypes of mAChRs. The m1 and m2 recombinant human receptors were also competitive with N. naja sputatrix muscarinic inhibitor. This antagonist-displacing action was dose dependent, but was independent of the reaction temperature. The isolated muscarinic inhibitor was determined to be a 13.6 kDa, monomeric, neutral protein and to have an N-terminal amino acid sequence which is highly homologous with phospholipase A2 from the venoms of genus Naja. N. naja sputatrix muscarinic inhibitor could hydrolyze phosphatidylcholine in a dose- and temperature-dependent manner. This phospholipase A2 enzymatic activity was augmented by the addition of the calcium ion, while it was almost completely abolished by a competitive inhibitor of phospholipase A2 enzymes. However, the antagonist-displacing activity was only slightly affected by these agents. The treatment of the muscarinic inhibitor with p-bromophenacyl bromide, which selectively modifies the histidine residue in the catalytic site of a phospholipase A2 enzyme, caused completed elimination of both activities. These findings indicate that N. naja sputatrix muscarinic inhibitor is a protein with two distinct activities, phospholipase and antagonist displacement, the active centers of which may be in close physical proximity for both actions. This is the first finding that a phospholipase A2 is an inhibitor of the muscarinic receptor.

Partial purification of an endogenous inhibitor of muscarinic ligand binding

An endogenous inhibitory factor (EIF alpha) to the binding of a muscarinic antagonist, [3H]N-methyl scopolamine ([3H]NMS), has been partially (12-fold) purified from the soluble fraction of the ileal longitudinal muscle of guinea-pigs using a heat-treatment, isoelectric fractionation, and DEAE-column chromatography. The EIF alpha inhibited the [3H]NMS binding to the longitudinal muscle membrane with an IC50 of 53.6 micrograms/ml. This was about 230-fold potent than the non-specific inhibition of [3H]NMS binding by bovine serum albumin (BSA). Zn2+ (0.1 mM) almost completely blocked the inhibitory activity of EIF alpha, whereas such the effect of Zn2+ was not observed in the inhibition by BSA. These results suggest that EIF alpha inhibits the [3H]NMS binding to the muscarinic acetylcholine receptor in a different manner from non-specific interaction with the receptor.

Isolation and structure of two novel muscarinic receptor antagonists

The structures of two novel muscarinic receptor antagonists, 1 and 2, were determined by their spectral data and high-resolution mass measurements of their degradation products. Both are aliphatic long-chain compounds and contain amide and keto functionalities. The major microbial metabolite [1] contains three terminal guanidino groups and the minor compound [2] has two terminal guanidino groups.