Distinct muscarinic mediation of suspected dopaminergic activity in sympathetic ganglions

The competitive neuromuscular blocking agents, gallamine and pancuronium, enhanced the nictitating membrane contraction, in the cat, resulting from muscarine ganglionic transmission. Inhibition of ganglionic muscarinic hyperpolarization, in response to short tetanic bouts of preganglionic cervical sympathetic stimulation, was an associated event and is considered by us to be causally related. The neuroleptic drug, haloperidol, enhanced ganglionic hyperpolarization under similar stimulatory conditions, and reduced the nictitating membrane contraction elicited via ganglionic muscarine pathways, effects opposite to those produced by the skeletal muscle relaxants. Apomorphine reduced both ganglionic hyperpolarization and the ganglionic muscarinic-induced nictitating membrane contractions. The action of gallamine and pancuronium conforms to a speculative cholinergic antagonism at the specific muscarinic receptors, termed Mi, on the ganglionic dopaminergic interneuron. Haloperiodol and apomorphine are anticipated to be exerting distinct antagonistic and agonistic actions, respectively, on prejunctional dopamine receptors of the ganglionic interneuron. Ganglionic slow depolarization mediated through the muscarinic receptors, termed Me, was unaltered by any of the agents studied.     

Anionic cyclophanes as potential reversal agents of muscle relaxants by chemical chelation

A series of carboxyl-containing cyclophanes have been designed and synthesised as chemical chelators (or host molecules) of cationic muscle relaxant drugs (or guest molecules). Three of these cyclophane derivatives, 1-3, have been shown by NMR to form 1:1 complexes with the muscle relaxants pancuronium, and gallamine, in D(2)O, with association constants up to 10(4) M(-1). When tested in an in vitro chick biventer muscle preparation, the cyclophanes reversed the neuromuscular block induced by pancuronium and gallamine, with having the most effective reversal against pancuronium (EC(50) 40 microM.     

Screening procedure for eight quaternary nitrogen muscle relaxants in blood by high-performance liquid chromatography-electrospray ionization mass spectrometry

A screening procedure was developed for the identification and the quantification of eight quaternary nitrogen muscle relaxants, including d-tubocurarine, alcuronium, pancuronium, vecuronium, atracurium, mivacurium, rocuronium and mebezonium, in blood samples. The procedure involves ion-pair extraction with methylene chloride at pH 5.4, reversed-phase HPLC separation and electrospray ionization mass spectrometry detection. The procedure was validated in terms of linearity (0.9295 for all the target compounds at 0.1 mg/l). The screening test was found satisfactory and applied in two fatal deaths. In the first case, toxicological investigations on biological fluids collected during the autopsy revealed the presence of vecuronium (1.2 and 0.6 mg/l in blood and urine, respectively) and its desacetylated metabolite, 3-hydroxy-vecuronium (4.4 and 0.7 mg vecuronium equivalent/l in blood and urine, respectively). In the second forensic case, blood analysis showed high levels of mebezonium (6.5 mg/l). The developed procedure was found suitable for forensic investigations.     

Effects of antigen on tracheal circulation and smooth muscle in sheep of different ages

The effects of Ascaris suum antigen on tracheal circulation and tracheal smooth muscle tone were compared in two groups of sheep: the first group was 1 yr old (14 sheep) and the second 5 yr old (8 sheep). Cranial tracheal arteries of anesthetized and paralyzed sheep were perfused at constant flow with monitoring of perfusion pressure. Tracheal smooth muscle tone was assessed by measuring changes in the external diameter of the cranial trachea. Close-arterial injection of antigen (1-20 micrograms) in young sheep produced dose-dependent vasodilation (6.1-15.5% fall in perfusion pressure) and smooth muscle contraction (0.06-0.28 mm reduction in tracheal diam). In old sheep, antigen (1-20 micrograms) produced vasoconstriction (4.1-16.8%) but no smooth muscle response. The smooth muscle contraction in young sheep was blocked by mepyramine (2 mg/kg iv) suggesting mediation by release of histamine. The vasodilation in young sheep and the vasoconstriction in old sheep were reduced by indomethacin (5 mg/kg iv), and the residual response was further reduced by FPL 55712 (2 mg/kg iv), suggesting mediation by both cyclooxygenase products and leukotrienes. Thus antigen given in the tracheal vasculature releases a mixture of inflammatory mediators. This mixture of mediators or their actions on the tracheal vasculature and smooth muscle may depend on the age of the sheep.     

Effects of cholinergic drugs on muscle contraction in Moniliformis moniliformis (Acanthocephala)

In whole Moniliformis moniliformis spontaneous muscle contractions were rhythmic; longitudinal contractions were measured with a force transducer. The cholinergic agonists levamisole and nicotine significantly increased muscle tension in whole worms; these contractions were tonic and were antagonised by the ganglionic blocker pentolinium and by piperazine. In addition, levamisole-induced contractions were inhibited by gallamine, hexamethonium, and norepinephrine. In worm segments, where drugs in solution were injected through the worms, acetylcholine (ACh) and nicotinic agonists were effective in causing contractions, whereas muscarinic agonists in concentrations up to 1 mM had no effect. Although muscle contraction in M. moniliformis was induced by nicotinic agonists, these contractions were effectively antagonised by a range of chemicals that block ganglionic, skeletal, and muscarinic sites in vertebrates. The presence of ACh in M. moniliformis and the effects of nicotinic agonists on muscle contraction suggest that ACh is a putative excitatory neurotransmitter.     

Proctolin and octopamine actions on the contractile systems of insect leg muscles

1. The pentapeptide proctolin produced contractions of the coxal depressor muscle of the cockroach, Periplaneta americana.2. The contraction was dependent upon extracellular calcium and the contraction was completely blocked by a Ca-free EGTA saline.3. Caffeine elicited transient contractions which were unaffected by manganese treatment.4. When the muscle was pre-treated with the conditioning solution with different K⁺ concentrations (1–100 mM), the amplitude of proctolin-induced contractions was reduced in the low K⁺ saline as well as in the high K⁺ saline.5. The results suggest that voltage sensitive calcium channels account for the proctolin-induced contractions.6. Octopamine (OA) reduced the contractions resulting from brief applications of elevated K⁺ concentration and of caffeine.7. The effect of OA on the response to elevated K⁺ concentrations was blocked by the α-adrenergic blocker, phentolamine.     

Histaminergic effect of crude papaya latex on isolated guinea pig ileal strips.

In the present study, we investigated the effect of the crude latex of Carica papaya L. (CPX) on isolated guinea pig ileal strips. CPX (0.5-512 microg/ml) caused concentration-dependent contraction of ileal strips suspended in Tyrode solution. The concentration of atropine (0.69 microM) that significantly blocked the contractile effect of acetylcholine on the isolated guinea pig ileum showed no significant effect on CPX- and histamine-induced contractions of the ileal strips. Mepyramine (87.6 nM) significantly blocked the contractile effect of histamine and CPX on the ileum. The same concentration of mepyramine, however, had no significant effect on acetylcholine-induced contraction of the isolated ileal strips. Removal of Ca2+ from the bathing medium abolished ileal contractions induced by acetylcholine, histamine and CPX. All the test substances were able to provoke ileal contractions after replacement of the Ca(2+)-free solution with Tyrode solution. Furthermore, 10(-5) M of nifedipine, a Ca(2+)-entry antagonist, reversibly inhibited the contractile effect of all the test substances on the ileal strips. Results of this study together appear to show that CPX-induced contraction of the isolated guinea pig ileum is mediated via H1-receptors and dependent on extracellular Ca2+ influx.     

Vascular effects of some opioid receptor agonists.

Opioid peptides have been implicated in shock-associated hypotension. Our aim was to find out whether opioid agonists have direct vasodilator actions on vascular smooth muscle. The study was conducted on rat abdominal aortic rings. In rings precontracted with either norepinephrine, prostaglandin F2 alpha, or high potassium Krebs (HPK), the effects of the opioid agonists tested (morphine, U50488H, ethylketocyclazocine (EKC), and bremazocine) depended on the precontracting agent used. HPK-precontracted rings were relaxed by all agonists tested. In norepinephrine-precontracted rings, all caused contraction at low concentrations and relaxation at high concentrations except bremazocine, which caused only relaxation. In prostaglandin F2 alpha-precontracted rings, U50488H produced contraction at low concentrations and relaxation at high concentrations while EKC caused only relaxation and morphine or bremazocine caused only contraction. All relaxant responses were endothelium-independent and were antagonized by verapamil but not by a number of antagonists including naloxone. MR2266, propranolol, diphenhydramine, cimetidine, and indomethacin. They may reflect calcium channel blockade. Morphine-induced vasoconstriction was antagonized by high concentrations of of naloxone or mepyramine and may be due to release of histamine by a naloxone-sensitive mechanism. We conclude that (a) the opioid agonists tested exert direct actions on vascular smooth muscle; (b) the nature of the response depended not only on the agonist used and its concentration but also on the agent used to precontract the tissue; and (c) it is unlikely that direct actions of endogenous opioids contribute to the shock-associated hypotension because high doses were needed to elicit them.     

Cholinesterase inhibition by vecuronium and pancuronium in human airways

Vecuronium (100 ωM) but not pancuronium (100 ωM) increased the sensitivity of human isolated bronchial preparations (HBP) to exogenous acetylcholine (ACh). The pD₂ values obtained from concentration-dependent contractions were : control, 4.59±0.29 vecuronium, 5.86±0.31. Vecuronium or pancuronium (100 ωM) significantly decreased (50%) the neostigmine contractions in HBP. In addition, vecuronium was more potent than pancuronium in preventing exogenous ACh degradation. These results suggest that vecuronium and pancuronium may have physiological effects in human airways by inhibiting both the tissue cholinesterases and muscarinic (M₃) receptors.     

Effects of histamine and related compounds on the release of immunoreactive thyrotropin-releasing hormone from the rat stomach in vitro

Effects of histamine and related compounds on the release of immunoreactive thyrotropin-releasing hormone (ir-TRH) from the rat stomach in vitro were studied. The rat stomach was incubated in medium 199 with 1.0 mg/ml of bacitracin and 100 micrograms/ml of ascorbic acid (pH 7.4) for 20 min. The amount of TRH release into the medium was measured by radioimmunoassay. The ir-TRH release from the rat stomach was enhanced significantly in a dose-related manner with the addition of histamine and inhibited with the addition of famotidine, but not with mepyramine. The stimulatory effect of histamine on ir-TRH release from the stomach was partially blocked with the addition of famotidine, but not with mepyramine. The elution profile of acid-methanol-extracted rat stomach on Sephadex G-10 was identical to that of synthetic TRH. These findings suggest that histamine stimulated ir-TRH release from the rat stomach in vitro, and that histamine's effects may be mediated via a H2-receptor.     

Effect of muscle relaxants on the motor endplate of diabetic and glucocorticoid pretreated rats

The susceptibility to d-tubocurarine, gallamine, pancuronium, succinylcholine, and decamethonium of the motor endplate innervated by the anterior tibial nerve was studied in alloxan diabetic rats and in rats pretreated with cortisone and dexamethasone. The sensitivity to various muscle relaxants of cholinergic receptors in the motor endplate of alloxan diabetic and glucocorticoid-treated rats was changed. Beside alterations in affinity, in some cases the kinetics of action were also altered as compared to controls. The phenomenon is suggested to be brought about by a modulator substance circulating in the blood of alloxan diabetic and glucocorticoid-treated rats.     

Identification and specific blockade of histaminergic receptors in guinea pig vasa deferentia

Histamine produces contractions of the guinea pig vas deferens. The present investigation was undertaken to characterize the nature of histaminergic receptors in this tissue. Histamine (1.6 X 10(-6) M to 3.2 X 10(-5) M) produced dose-related contractions of guinea pig vas deferens (GPVD). Mepyramine (5.3 X 10(-8) M and 1 X 10(-9) M) blocked the responses to histamine competitively. Metiamide (1.23 X 10(-5) M) did not block the responses to histamine significantly. Specific H1 and H2 receptor agonists, namely 2-(2'-pyridyl)ethylamine (PEA) (2.55 X 10(-6) M to 3.0 X 10(-5) M) and 4-methylhistamine (4-MH) (2.52 X 10(-5) M to 3.0 X 10(-4) M), respectively, produced dose-related contractions of GPVD. The responses to PEA were blocked competitively by mepyramine, whereas the responses to 4-MH were blocked by metiamide. Reserpine pretreatment (5 mg/kg, i.p., 24 h) did not alter the responses to histamine and PEA. Our data suggest the presence of both H1 and H2 receptors in the GPVD which are excitatory in nature.     

Mast cells are not required for anaphylatoxin-induced ileal smooth muscle contraction

The complement-derived anaphylatoxin peptides, C3a and C5a, have long been considered to manifest their spasmogenic activities primarily through stimulation of mast cells. Although mast cells represent the major non-circulating repository for histamine, these cells also elaborate a number of additional, highly potent spasmogenic mediators derived from arachidonic acid. The same lipid mediators can be released by many other cell types. As a result, evaluation of the role of mast cells in anaphylatoxin-dependent responses cannot be based exclusively upon an analysis of the mediators released. We evaluated the role of mast cells in anaphylatoxin-induced ileal smooth muscle contractions by testing isolated segments of ileal tissues derived from genetically mast cell-deficient mice and their congenic normal (+/+) littermates. Isolated tissues from either congenic normal (+/+) or mast cell-deficient Sl/Sld mice responded similarly to acetylcholine, histamine, serotonin, prostaglandin E2, and the thromboxane A2 analog, U-46619. At 1 microgram/ml, histamine induced contractions of greater magnitude in tissues from mast cell-deficient animals; however, this mediator also desensitized the tissues to repeat challenge with histamine at the same concentration. C5a at 1 nM resulted in contractions equivalent to approximately 50% of the maximal KCl response; normal and mast cell-deficient tissues responded in a similar manner. C5a also released histamine from the normal mouse ileum, in addition to causing contraction of the tissues. C3a at 200 nM also produced similar contractile responses in both +/+ and S1/S1d tissues. These studies show that the anaphylatoxin peptides C3a and C5a are capable of contracting smooth muscle-containing tissues by a mechanism completely independent of mast cells. In addition, we also demonstrated that mast cell degranulation does not necessarily provoke ileal contraction. Thus compound 48/80, a mast cell degranulating agent unrelated to the anaphylatoxins, did not induce contractions in ileal tissues, even when used at concentrations as high as 100 micrograms/ml. Compound 48/80 did release histamine from the +/+ ileum, however, indicating that the agent was able to cause degranulation of ileal mast cells. Taken together, these data indicate that spasmogenic responses to anaphylatoxins (and possibly other agents) that are associated with mast cell degranulation need not necessarily require mast cell mediator release for their expression.     

Muscle relaxants; effects on respiratory and circulatory dynamics

There are exceptions and variations to the general clinical rule that muscle relaxants depress respiration and have no effect on circulation. Variation may be attributed to differences in animal species, in individual response, in muscle affected, in drug used and in dose employed. Conclusions about muscle relaxants derived from animal experiments cannot always be assumed to apply to man. The "respiratory sparing" action of a muscle relaxant cannot be relied upon in any individual patient. Facilities for adequate artificial respiration must always be available when any dose of any muscle relaxant drug is administered. Muscle relaxants affect circulation by inhibition of parasympathetic and sympathetic ganglia, by anticholinesterase activity and by release of histamine.     

Effects of beta-endorphin, met-enkephalin and somatostatin on the neurotensin-induced neurogenic contraction in the guinea-pig ileum

At maximally effective concentrations, the opiate peptides β-endorphin (240 nm) and Met-enkephalin (1400 nM) virtually abolished the contractions induced by a maximally effective concentration of 60 nM neurotensin (NT), either in the longitudinal smooth muscle strip or in the intact segment of guinea-pig ileum. This inhibitory effect was concentration-dependent and was totally blocked by naloxone at 100 nM. In contrast a maximally effective concentration of somatostatin (60 nM) partially inhibited (50–60%) the contraction induced by 60 nM NT in either smooth muscle preparation. Somatostatin inhibition was concentration-dependent and was not blocked by naloxone at 100 nM. Atropine at 100 nM inhibited by 50% the contractions induced by 60 nM NT in the intact segment of guinea-pig ileum. The remaining contraction was abolished by β-endorphin and Met-enkephalin and partially reduced by somatostatin. Our results confirm that NT-induced contractions in the guinea-pig ileum are neurogenic and involve a cholinergic as well as a non-cholinergic component. Furthermore, we show that the release of mediators from both components     

Arecoline excites the colonic smooth muscle motility via M3 receptor in rabbits

Arecoline is an effective component of areca (betel nuts, a Chinese medicine named pinang or binglang). The purpose of this study was to investigate the effect of arecoline on the motility of distal colon in rabbits and its mechanisms involved. Strips of colonic smooth muscle were suspended in organ baths containing Krebs solution, and their isometric contractions were examined. The response of smooth muscle to arecoline in colonic strips was recorded. The effects of atropine, gallamine and 1,1-dimethyl-4-diphenylacetoxypiperidiniumiodide (4-DAMP) on arecoline-induced contraction were also observed. Arecoline (1 nM - 1 microM) produced a concentration-dependent contraction in both the longitudinal and the circular smooth muscle of rabbit colon. Atropine (10 microM) abolished the arecoline (80 nM)--induced contraction. M3 receptor antagonist, 4 - DAMP (0.4 microM), abolished the arecoline (80 nM)--related response, whereas M2 receptor antagonist, gallamine (0.4 microM), did not affect the effect of arecoline. These results suggest that arecoline excites the colonic motility via M3 receptor in rabbits.     

Effects on Respiratory and Circulatory Dynamics

There are exceptions and variations to the general clinical rule that muscle relaxants depress respiration and have no effect on circulation.Variation may be attributed to differences in animal species, in individual response, in muscle affected, in drug used and in dose employed.Conclusions about muscle relaxants derived from animal experiments cannot always be assumed to apply to man.The “respiratory sparing” action of a muscle relaxant cannot be relied upon in any individual patient. Facilities for adequate artificial respiration must always be available when any dose of any muscle relaxant drug is administered.Muscle relaxants affect circulation by inhibition of parasympathetic and sympathetic ganglia, by anticholinesterase activity and by release of histamine.     

Effect of the aqueous extract of African mistletoe,Tapinanthus sessilifolius (P. Beauv) van Tiegh leaf on gastrointestinal muscle activity

Effects of the aqueous extract of T. sessilifolius on the gastrointestinal muscle were investigated on smooth muscle preparations isolated from rabbit jejunum, guinea pig ileum and on gastrointestinal transit in mice. Elemental analysis of the extract was also carried out. The aqueous extract of T. sessilifolius evoked a concentration dependent contraction of the rabbit jejunum and guinea pig ileum. The contractions evoked by the extract were not attenuated either by atropine or mepyramine, but they were completely blocked by verapamil. The elemental analysis revealed the presence of Mg, Zn, Fe, Cu, and very high concentration of Ca. The intraperitoneal LD50 in mice was found to be 1500 mg/kg. The aqueous extract of T. sessilifoliius possesses active components that may be mediating the observed biological activity through calcium mobilization.     

Different mechanisms are responsible for the contractile effects of histaminergic compounds on isolated intestinal smooth muscle cells

The effects of histamine and dimaprit on intestinal smooth muscle contractility were investigated on isolated cells from longitudinal muscle of the guinea pig ileum. Both histamine (10⁻¹⁴–10⁻¹⁰ M) and dimaprit (10⁻¹³–10⁻¹⁰ M) exerted a concentration-dependent contraction of intestinal cells, causing a maximum decrease in cell length of about 20%. This effect was not significantly different from that induced by cholecystokinin-octapeptide (CCK-8) 10⁻⁹ M. The concentration-response curves to histamine and dimaprit were shifted to the left in the presence of the histamine H₂-receptor antagonist famotidine (10⁻⁷ M) indicating the occurrence in the smooth muscle of H₂ receptors mediating relaxation. Whereas the contraction produced by histamine was competitively antagonized by the H₁ receptor antagonist mepyramine (10⁻⁸ M), neither mepyramine (10⁻⁷ M) nor temelastine (10⁻⁷ M) did modify the contractile effect of dimaprit. In contrast, atropine (10⁻⁸ M) significantly depressed the maximum response to dimaprit without affecting that exerted by histamine. These data indicate that histamine and dimaprit can modify intestinal contractility, by acting via different mechanisms; while the contractile action of histamine is related to H₁ receptor activation, that produced by dimaprit involves cholinergic pathways.     

Non-genomic mechanism of action of delta-4 and 5-reduced androgens and progestins on the contractility of the isolated rat myometrium

Effective concentrations50 of androgens, i.e. testosterone, androsterone, androstanediol, 5 beta-dihydrotestosterone and progestins: progesterone, pregnanolone, pregnanedione, epipregnanolone, allopregnanolone and allopregnanedione were assayed on the tonic contractions of the isolated rat myometrium induced by calcium in high-potassium calcium-free depolarizant solutions. Steroids showed their relaxant effect by fadding the sustained contraction induced by calcium in a depolarized state. Also, the addition of the calcium ionophores A-23187 and X-537A reversed the steroid relaxant effect by increasing sharply the tonic contraction. The possibility of steroid-induced relaxation through release of noradrenaline or histamine was discarded by blocking their specific receptors. From the results it is concluded that delta-4 and 5-reduced androgens and progestins produce relaxation by a myogenic mechanism acting on the smooth muscle cell, most likely by directly blocking the calcium channels they causing modulation of: the contraction-relaxation cycle.