The significance of extracellular Ca<Superscript>2+</Superscript> in contractile responses of chick amnion

Neurotransmitter receptors are formed during chick embryo development in the amnion, an avascular extraembryonic membrane devoid of innervation. Carbachol induces phasic and tonic contractions mediated by M₃ cholinoceptors in an amniotic membrane strip isolated from 11–14-day-old chick embryo. The carbachol effect on the amnion contractile activity was studied in normal physiological salt solution, during depolarization by K⁺, exposure to nifedipine, and in calcium-free medium. Voltage-dependent and receptor-operated Ca²⁺ channels as well as calcium from intracellular stores are involved in the contractile response to carbachol. Phasic contractions of the amnion are mainly induced by calcium ions entering through voltage-dependent calcium channels, while tonic contractions are also maintained by receptor-operated channels. Ca²⁺-activated potassium channels can serve as a negative feedback factor in regulation of the amnion contractile responses.     

Release of contractile agents from rat vas deferens by clonidine.

Clonidine induces contractile effects on the isolated rat vas deferens, but not on rat uterus or guinea-pig ileum. However, we have observed that if clonidine is incubated for about 10 min with a nutrient solution containing an isolated rat vas deferens, the resulting solution can contract an isolated rat uterus, or guinea-pig ileum indicating the involvement of a substance released from the vas. This contractile effect was partially reduced by naloxone and by serotonin antagonists, and by using a denervated vas, indicating that opioids, serotonin and eventually other substances released from nerve tissue of the vas can be involved.     

P物质对5—HT引起的大鼠回肠纵行肌收缩效应的影响及其机制分析

本文采用离体大鼠回肠纵行肌-肌间神经丛(LM-MP)标本,观察SP对5-HT引起的LMMP标本收缩效应的影响,并对其作用机制进行了分析。实验结果:(1) 阈下剂量的SP(5nmol/L)可明显加强5-HT(100nmol/L)引起的LM-MP收缩效应;(2) SP受体拮抗剂[D-Pro~2、DTrp~(7,9)]SP、M受体阻断剂阿托品可抑制或阻断SP对5-HT的加强效应。表明这种效应是通过SP受体中介的;(3) M受体阻断剂阿托品也可阻断SP的加强效应,而平滑肌5-HT受体阻断剂BOL对SP的加强效应似无阻断作用。这些结果提示,阈下剂量的SP对5-HT具有调制作用,并与胆碱能机制有关。     

Non-adrenergic mechanisms of inhibition of the contractile activity of the cat small intestine by histamine, bradykinin, and met-enkephalin

I. a. histamine and bradykinin caused both an activation and an inhibition of jejunal contractile activity. The inhibitory effect was preserved after blockade of muscarinic cholinoreceptors, alpha- and beta-adrenoceptors, and abolished with the nicotinic cholinoceptor blockade. Metenkephalin inhibited the jejunal contractile activity after first activating it. The inhibitory effect of the peptide was preserved after blockade of alpha- and beta-adrenoceptors as well as the nicotinic cholinoceptors. The data obtained suggest that the non-adrenergic inhibitory effect of metenkephalin on intestinal contractions was the result of its depressing action on motor cholinergic neurons, whereas the inhibition of intestinal contractile activity with histamine and bradykinin resulted from their activating action on cholinergic interneurons which activate non-adrenergic inhibitory neurons through nicotinic cholinoceptors.     

Isolation, partial purification and pharmacodynamics of a slow contractile substance in the venom sac extract of the wasp Vespa cincta Fabr

The venom of V. cincta contains acetylcholine (ACh), histamine and 5-hydroxytryptamine (5-HT). Blockers of these agonists did not block completely the hypotensive and smooth muscle contractile activity of venom. On smooth muscle, there was a residual slow contraction. The active substance which produced this slow contraction was separated by solvent extraction, gel filtration and TLC. The purified material (which has been provisionally designated "Vecikinin") lowered cat, rat and guinea pig blood pressure, increased amplitude of cardiac contraction, and increased capillary permeability. Vecikinin contracted several smooth muscle preparations (rat uterus, rat ascending colon, guinea pig ileum, guinea pig colon and rat ileum), while relaxing rat duodenum. Its contractile activity was not lost on boiling, but acid or alkali-boiling reduced its contractile activity. It was inactivated on incubation with chymotrypsin and carboxypeptidase but not with trypsin, pepsin or leucine aminopeptidase. It is a peptide, appears to be of low molecular weight, and could be distinguished from substance P, angiotensin, bradykinin and hornet or wasp kinin.     

Carbachol effect on kinetics of the alpha1-adrenergic contractile response of the rat vas deferens

Analysis of the control kinetics of the rat vas deferens contractile response to phenylephrine showed that alpha 1-adrenoceptors mediating the contraction could be in different functional states. In some organs these receptors represented a single pool with Hill coefficient n = 1 (the linear mode of the Scatchard plot), in others--not a single pool, n > 1 (not linear mode of the Scatchard plot). Activation of muscarinic cholinergic receptors by carbachol exerted a stimulating effect on the alpha 1-adrenergic contractile response especially to low adrenomimetic concentrations and the maximum response was increased. The action of cholinomimetic was accompanied by a decrease of Hill coefficient. When the control represented a single pool of alpha 1-adrenoceptors in the presence of carbachol Scatchard plot became biphasic with Hill coefficient n < 1, in addition to the low affinity pool the high affinity appeared. In case of not homogeneous control pool, in the presence of carbachol a single pool was revealed and n was close to 1. These findings suggest that the stimulatory effect of carbachol is caused by its modulator action on the alpha 1-adrenoceptors states and activating influence on the intracellular effector's system.     

Cytosolic heparin inhibits muscarinic and alpha-adrenergic Ca2+ release in smooth muscle. Physiological role of inositol 1,4,5-trisphosphate in pharmacomechanical coupling

In order to test the physiological significance of inositol 1,4,5-trisphosphate (InsP3) in pharmacomechanical coupling, we have utilized two near-physiological systems, in which relatively high molecular weight solutes can be applied intracellularly and receptor coupling is retained: beta-escin permeabilization and reversible permeabilization. We showed that in smooth muscle permeabilized with beta-escin, one of the saponin esters, alpha 1-adrenergic (phenylephrine) and muscarinic (carbachol) agonists, as well as caffeine and InsP3, cause contractions mediated by Ca2+ release. These contractions were calmodulin-dependent and blocked by depletion of Ca2+ stored in the sarcoplasmic reticulum. Intracellular heparin (Mr = about 5000), a blocker of InsP3 binding to its receptor and a specific inhibitor of InsP3-induced Ca2+ release in smooth muscles, inhibited the responses to the agonists and to InsP3, but not those to caffeine, nor did it block the enhanced contractile response to cytoplasmic Ca2+ induced by agonists and by GTP gamma S. Neomycin blocked Ca2+ release induced by carbachol, but not by caffeine. In reversibly permeabilized ileum smooth muscle cells, loaded with Fura-2 acid and heparin, the intracellular heparin inhibited Ca2+ release and contractions induced by carbachol in Ca2+-free, high K+ solution. Heparin did not inhibit the high K+ contractions (with 1.2 mM Ca2+) and had no significant inhibitory effects on carbachol-induced responses in the presence of extracellular Ca2+. These results, obtained under near-physiological conditions, support the conclusion that InsP3 is the major physiological messenger of the Ca2+ release component of pharmacomechanical coupling, but not of the components mediated by Ca2+ influx or by potentiation of the contractile response to Ca2+.     

Functional interaction of purified muscarinic receptors with purified inhibitory guanine nucleotide regulatory proteins reconstituted in phospholipid vesicles

The GTP binding regulatory protein (Ni involved in adenylate cyclase inhibition was purified from rat brain and reconstituted, together with muscarinic cholinergic receptors purified from porcine brain, into phospholipid vesicles. Guanosine 5'-O-(3-[35S]thio)-triphosphate ([35S]GTP gamma S) binding and GTP hydrolyzing activities of reconstituted Ni were stimulated by the addition of a muscarinic agonist, carbachol. The effect of carbachol was to increase the Vmax values of these activities, but the Km values were also increased slightly in most cases. Carbachol bound to vesicles with the same order of magnitude of Km as that for stimulation of GTPase. The affinity of this binding was reduced by GTP gamma S, indicating that the high-affinity receptor-Ni complex was formed in a GTP-dependent manner in reconstituted vesicles. Incubation of Ni with NAD and islet-activating protein (IAP), pertussis toxin, caused ADP-ribosylation of the alpha-subunit of Ni. The criteria for the receptor-Ni interaction, i.e. carbachol stimulation of the activities of Ni and the GTP gamma S effect on carbachol binding, were no longer observed, when this IAP-treated Ni, instead of the nontreated Ni, was reconstituted into vesicles, though there was no difference between IAP-treated and nontreated Ni in their basal activities observable without carbachol. No, the protein with a character very similar to Ni in rat brain, was also coupled to muscarinic receptors when they were reconstituted into vesicles under the same conditions. Thus, GTP-binding proteins serving as the substrate of IAP-catalyzed ADP-ribosylation are capable of interaction functionally with muscarinic receptors in phospholipid vesicles.     

Synthetic lapachol derivatives relax guinea-pig ileum by blockade of the voltage-gated calcium channels

The present study was designed to further evaluate a possible spasmolytic activity of synthetic lapachol derivatives, norlapachol, alpha-norlapachone, beta-norlapachone and hydro-hydroxy-norlapachol (HH-norlapachol), on guinea-pig ileum. In guinea-pig ileum, except for norlapachol, all naphthoquinones inhibited the phasic contractions induced by carbachol or histamine. Even when the ileum was pre-contracted with KCl, carbachol or histamine, all naphthoquinones induced relaxation, suggesting that these naphthoquinones could be acting on the voltage-gated calcium channels (Ca(V)). As the tonic component this contraction is maintained mainly by the opening of the Ca(V), we hypothesized that these naphthoquinones might be acting on these channels. This hypothesis was confirmed by the observation that norlapachol (pD'2 = 4.99), alpha-norlapachone (pD'2 = 4.49), beta-norlapachone (pD'2 = 6.33), and HH-norlapachol (pD'2 = 4.53) antagonized the contractions induced by CaCl2 in depolarizing medium nominally without Ca2+. As beta-norlapachone was the most potent we decided to continue the study of its action mechanism. The fact that this naphthoquinone has inhibited the tonic contractions induced by S-(-)-Bay K8644 [EC50 = (1.6 +/- 0.30) x 10(-5) M] suggests that the Ca2+ channel involved belongs to the type L (Ca(V)1.2). In addition, in the functional level, the spasmolytic effect of beta-norlapachone does not involve participation of free radicals, since its curve of relaxation was unchanged in the presence of glutathione, an antioxidant agent.     

Chronic treatment with interleukin-1beta attenuates contractions by decreasing the activities of CPI-17 and MYPT-1 in intestinal smooth muscle

Interleukin-1beta (IL-1beta) is a proinflammatory cytokine that plays a central role in inflammatory bowel disease (IBD). In order to elucidate the mechanism of motility disorders frequently observed in IBD, we investigated the long term effects of IL-1beta on rat ileal smooth muscle contractility by using an organ culture system. When ileal smooth muscle strips were cultured with IL-1beta (10 ng/ml), contractions elicited by high K+ and carbachol were inhibited in a time-dependent manner. IL-1beta more strongly inhibited the carbachol-induced contractions than high K+ with decreasing myosin light chain phosphorylation. In the alpha-toxin-permeabilized ileal muscle, carbachol with GTP or guanosine 5'-3-O-(thio)triphosphate increased the Ca2+ sensitivity of contractile elements, and this G protein-coupled Ca2+ sensitization was significantly reduced in the IL-1beta-treated ileum. Among the functional proteins involved in the smooth muscle Ca2+ sensitization, CPI-17 expression was significantly reduced after the culture with IL-1beta, whereas the expressions of RhoA, ROCK-I, ROCK-II, MYPT-1, myosin light chain kinase, and myosin phosphatase (PP1) were unchanged. The phosphorylation level of CPI-17 by carbachol was low in accordance with the decrease in CPI-17 expression due to IL-1beta treatment. In contrast, constitutively phosphorylated MYPT-1 was also decreased in the IL-1beta-treated muscles. These results suggest that long term treatment with IL-1beta decreases either CPI-17 expression or MYPT-1 phosphorylation, which may result in an increase in myosin phosphatase activity to reduce force generation. Based on these findings, we consider IL-1beta to be an important mediator of gastrointestinal motility disorders in IBD, and CPI-17 and MYPT-1 are key molecules in the decreased smooth muscle contractility due to IL-1beta.     

Age-Related Alterations in the Biochemical and Functional Properties of the Bladder in Type 2 Diabetic GK Rats

Previous studies have demonstrated that experimental type 1 diabetes induced by streptozotocin causes alterations in the biochemical and functional properties of several receptor systems in the rat bladder. However, the exact mechanism involved in the pathophysiology of voiding dysfunction in type 2 diabetic patients is unknown. Because the GK rat is a widely accepted genetically determined rodent model for human type 2 diabetes, we investigated diabetes-induced changes in the bladder smooth muscle of the GK rats at several time points. Male GK rats and age-matched Wistar rats, as controls, were maintained for 4, 8, 16, and 32 weeks. Contractile responses to KCl, carbachol, ATP, and electrical field stimulation (EFS) were measured by using the isolated muscle bath techniques. Acetylcholine (ACh) release induced by EFS from bladder muscle strips was measured by using high-performance liquid chromatography coupled with a microdialysis procedure. Maximum contractile responses to carbachol and ATP, the release of ACh, and tissue sorbitol levels were similar in bladders from GK and control rats until 8 weeks of age. At 16 weeks of age, however, the contractile responses to carbachol and ATP, and tissue sorbitol levels were increased, and the EFS-induced ACh release was decreased in GK rats compared with controls. Although the maximum contractile responses to EFS were unchanged until 16 weeks of age, they were decreased in 32-week-old GK rats, compared with controls. Our data indicate the presence of age-related alterations in the biochemical and functional properties of the bladder in type 2 diabetic GK rats.     

Age-related alterations in the biochemical and functional properties of the bladder in type 2 diabetic GK rats

Previous studies have demonstrated that experimental type 1 diabetes induced by streptozotocin causes alterations in the biochemical and functional properties of several receptor systems in the rat bladder. However, the exact mechanism involved in the pathophysiology of voiding dysfunction in type 2 diabetic patients is unknown. Because the GK rat is a widely accepted genetically determined rodent model for human type 2 diabetes, we investigated diabetes-induced changes in the bladder smooth muscle of the GK rats at several time points. Male GK rats and age-matched Wistar rats, as controls, were maintained for 4, 8, 16, and 32 weeks. Contractile responses to KCl, carbachol, ATP, and electrical field stimulation (EFS) were measured by using the isolated muscle bath techniques. Acetylcholine (ACh) release induced by EFS from bladder muscle strips was measured by using high-performance liquid chromatography coupled with a microdialysis procedure. Maximum contractile responses to carbachol and ATP, the release of ACh, and tissue sorbitol levels were similar in bladders from GK and control rats until 8 weeks of age. At 16 weeks of age, however, the contractile responses to carbachol and ATP, and tissue sorbitol levels were increased, and the EFS-induced ACh release was decreased in GK rats compared with controls. Although the maximum contractile responses to EFS were unchanged until 16 weeks of age, they were decreased in 32-week-old GK rats, compared with controls. Our data indicate the presence of age-related alterations in the biochemical and functional properties of the bladder in type 2 diabetic GK rats.     

Activation of phospholipase C in rabbit brain membranes by carbachol in the presence of GTP gamma S; effects of biological detergents

Rabbit brain cortical membranes incubated with carbachol in the presence of GTP gamma S show a marked increase in the degradation of exogenous phosphatidylinositol 4,5-bisphosphate. This activation of phospholipase C is dependent on the presence of deoxycholate and maximal at 0.8-1 mM deoxycholate. There is negligible activation by carbachol alone but in the presence of GTP gamma S a carbachol effect can be readily demonstrated. Optimal activation of phospholipase C by carbachol was seen at 10 to 100 nM free Ca2+. Washing cortical membranes with hypertonic buffer extracted 60% of the membrane protein yet the carbachol and GTP gamma S coupling remained intact. Incubation of the membranes with lysophosphatidylcholine, Nonidet P-40, sodium deoxycholate or digitonin at concentrations considerably less than those frequently used to solubilize membrane proteins abolished the carbachol response. Octyl glucoside and sodium cholate also uncoupled receptor regulation of phospholipase C but only at concentrations where solubilization of membrane proteins occurred. Prior exposure of membranes to carbachol did not prevent the uncoupling observed as a result of detergent treatment. Incubation of the membranes with carbachol and GTP gamma S did not appear to be accompanied by specific release of either active phospholipase C or inhibitors of phospholipase C activity.     

The effect of calcium antagonists on contractions of the sensitized and normal guinea pig ileum

The purpose of this study was to learn wether a number of Ca²⁺ antagonists were effective in reducing contractile response of the isolated ileum of the sensitized and normal guinea pig. Contractions of the normal ileum in response to LTD₄, acetylcholine, histamine, and potassium chloride were obtained before and after verapamil, diltiazen and papaverine. Ovalbumin-induced contractions of the ovalbumin-sensitized ileum were obtained in the presence of the three Ca²⁺ antagonists. In the normal ileum, all the Ca²⁺ antagonists were highly effective in diminishing the contractile responses to LTD₄, acetylcholine, histamine and potassium chloride. In the sensitized ileum, ovalbumin-evoked contractions, with subsequent release of a potent contractile mediator (presumably SRS-A), were Ca²⁺-dependent since verapamil, diltiazem and papaverine caused a concentration-related reduction of contractions. Thus, the influx of extracellular Ca²⁺ plays a key role in the contractile responses of the normal and sensitized guinea pig ileum when stimulated by various potent agonists acting on specific receptors or on the cell membrane.     

Calcium modulation of the effects of serotonin,carbachol, and histamine on rabbit ileal ion transport.

In mammalian intestine, a number of secretagogues have been shown to work through either cyclic nucleotide or calcium mediated pathways to elicit ion secretion. Because excessive intestinal electrolyte and fluid secretion is central to the pathogenesis of a variety of diarrheal disorders, understanding of these processes is essential to the development of future clinical treatments. In the current study, the effects of serotonin (5HT), histamine, and carbachol on intestinal ion transport were examined in in vitro preparations of rabbit ileum. All three agonists induced a rapid and transient increase short-circuit current (delta Isc) across ileal mucosa. Inhibition of the delta Isc response of all three agents in chloride-free solution or in the presence of bumetanide confirmed that chloride is the main electrolyte involved in electrogenic ion secretion. Pretreatment of tissue with tetrodotoxin or atropine did not effect secretagogue-mediated electrolyte secretion. While tachyphylaxis of delta Isc response was shown to develop after repeated exposure of a secretagogue to tissue, delta Isc responses after sequential addition of different agonists indicate that cross-tachyphylaxis between agents did not occur. Serotonin, histamine, and carbachol have previously been reported to mediate electrolyte secretion through calcium-dependent pathways. To access the role of extracellular calcium in regulating ion secretion, the effect of verapamil on each agent was tested; verapamil decreased 5HT-induced delta Isc by 65.2% and histamine response by 33.5%, but had no effect on carbachol-elicited chloride secretion. An additive secretory effect was found upon simultaneous exposure of 5HT and carbachol to the system; no other combination of agents produced a significant additive effect. Findings from this study support previous work which has suggested that multiple calcium pathways may be involved in mediating chloride secretion in mammalian intestine.     

Additive and synergistic antitumor effects with toremifene and interferons

MFC-7 cells were exposed to toremifene, human alpha and gamma interferons and combinations of them in vitro. Growth of the cells was followed by ATP bioluminescence method. Rats bearing DMBA-induced tumors were treated with toremifene, rat gamma interferon and their combination daily for five weeks. The growth of the tumors was followed by palpation weekly. Toremifene and interferons inhibited the growth of MCF-7 cells. Interferons alpha and gamma were additive; toremifene and interferons were additive or at the best synergistic. Toremifene inhibited the growth of DMBA-induced tumors. Rat gamma interferon alone had no clear effect on the tumor growth. Combination of toremifene and gamma interferone was the most effective treatment and did not show any detectable toxicity. Toremifene and interferons have interesting interactions. Clinical studies using the combination might be warranted.     

Effect of L-prolyl-L-leucyl-glycinamide (MIF-I) on some neutrotransmitter-receptor interactions

Some neurotransmitter-receptor interactions have been studied in an attempt to determine how L-prolyl-L-leucyl-glycinamide (MIF-I) exerts its antiparkinson effect. MIF-I affected neither the contractile responses of isolated mouse vas deferens and guinea pig ileum to noradrenaline, acetylcholine, substance P and histamine, nor the inhibitory effects of dopamine and GABA on the rat vas deferens and guinea pig ileum. MIF-I, as well as L-leucine and Pro-Leu, antagonized the contractile response of the ileum to 5-hydroxytryptamine (5-HT). Behavioural tests were used to examine the action of MIF-I on CNS transmitter-receptor interactions. MIF-I did not modify the circling produced by either dopamine agonists in nigro-striatal lesioned rats of 5-HT agonists in rats with a lesion of the medial raphe nucleus. MIF-I affected neither 5-hydroxytryptophan-induced head twitches in mice, which is a measure of 5-HT receptor stimulation, nor striatally-evoked head turning in the rat, which is a model for brain GABA function. It is concluded that MIF-I, at the doses used, does not directly modify the function of any of the CNS transmitter examined. Other possibilities to explain its antiparkinson action are discussed.     

Does the hydrolysis of inositol phospholipids lead to the opening of voltage operated Ca2+ channels in guinea-pig ileum? Studies with fluoride ions and caffeine

Fluoride ions (1-30 mM) stimulate phosphoinositide hydrolysis in guinea-pig ileum longitudinal smooth muscle slices, and this is not inhibited in the presence of indomethacin or nifedipine. This action is associated with a slow contractile response which peaks after approximately five minutes and then declines towards baseline; at this time the contractile response to a maximally effective concentration of carbachol is also inhibited. Fluoride-induced contractions are inhibited completely in the presence of nifedipine. Similarly, contractions induced by caffeine, which releases Ca2+ from intracellular stores, are also inhibited by nifedipine. These data are consistent with a model in which the activation of a G-protein by F- ions leads to the following sequential events: activation of phospholipase C, release of intracellular Ca2+, opening of voltage operated (i.e. dihydropyridine sensitive) Ca2+ channels and contraction. The transient nature of the fluoride contraction and the inhibition of the carbachol contraction may be due to a slow elevation of cAMP levels induced by F-.     

Circulating antibodies against neonatal cardiac muscarinic acetylcholine receptor in patients with Sjögren's syndrome

Isolated congenital heart block may be associated with Primary Sjogren's Syndrome. In this work we demonstrated that IgG present in the sera ofpatients with Primary Sjogren's Syndrome (PSS) could bind and activate muscarinic acetylcholine receptors of rat neonatal atria. These antibodies were able to inhibit in a irreversible manner the binding of ³H-QNB to muscarinic cholinergic receptors of purified rat atria membranes. Moreover, IgG from PSS individuals could modify biological effects mediated by muscarinic cholinoceptors activation, i.e. decrease contractility and cAMP and increase phosphoinositide turnover and cGMP. Atropine blocked all of these effects and carbachol mimicked them; confirming muscarinic cholinergic receptors-mediated PSS IgG action. Neither binding nor biological effect were obtained using adult instead of neonatal rat atria. IgG from sera of normal women were not effective in the studied system. The prevalence of cholinergic antibody was 100% in PSS and was independent of Ro/SS-A and La/SS-B antibodies. It could be concluded that antibody against muscarinic cholinergic receptors may be another serum factor to be considered in the pathophysiology of the development of congenital heart block.     

Intracellular transmission of the cholinergic signal in the chick amnion

The role of the system of deposited calcium in the mediation of contractile reactions to carbachol in an isolated amnion of 11–13 day old chicken embryo was studied. It was found that thapsigargin (2 μM, 20 min), an inhibitor of the endoplasmic reticulum Ca²⁺-ATPases, decreases the tonic reaction to carbachol by 40 ± 2%. In the presence of U73122 (5–10 μM, 10 min), a phosphoinositide-specific phospholipase C inhibitor, the rhythmic contractile reaction of the amnion to carbachol is blocked, whereas the tonic reaction decreases to 47 ± 9% of the initial one. Ryanodine (10 μM, 5 min) inhibits the spontaneous contractile activity of the amnion and decreases the tonic reaction to carbachol to 36 ± 3% relative to control. In the presense of ryanodine, nifedipine (0.05 μM) completely blocks the tonic reaction to carbachol. Thus, calcium mobilized from intracellular stores via inositol trisphosphate and ryanodine receptors is involved in realization of contractile reactions, mediated by M3 receptors, in the chick amnion.