Tocolytic and toxic activity of papaya seed extract on isolated rat uterus

Carica papaya L. seeds extracted with 80% ethanol (EEPS) caused concentration-dependent tocolysis of uterine strips isolated from gravid and non-gravid rats. Prostaglandin F2alpha and oxytocin-induced contractions of the isolated rat uterus were also inhibited in a concentration-dependent fashion by EEPS. Recoveries of the uterine activity after EEPS-induced uterine quiescence were very weak. Higher concentration of EEPS caused prompt uterine quiescence, which was also significantly irreversible. Pre-incubation of the rat uterus in Ringer Locke solution containing 10 mg/ml of EEPS for 1 hour prior to suspension in tissue baths led to significant depression of the spontaneous and KCl (60 mM)-induced uterine contractions relative to the solvent control (P<0.05). Cross sections of EEPS-pretreated non-gravid rat uterus (stained with hematoxyline and eosin) examined under light microscope revealed degeneration of the endometrium and myometrium with obvious cytoplasmic vacuolation indicating that EEPS could have direct toxic effect on the uterine tissues. Previous workers have reported benzyl isothiocyanate (BITC) as the main bioactive and anthelmintic compound in different extracts of papaya seeds. Using electron impact ionization methods, the presence of BITC in EEPS was also shown in this study. Mass spectra of both EEPS and standard BITC showed a base peak of benzyl/tropylium ion at m/z 91 (indicative of an aromatic compound) and the molecular ion peak of BITC (m/z 149). Our earlier studies have demonstrated BITC-induced functional and morphological derangement of isolated uterus. We thus conclude that at high concentration, EEPS is capable of causing irreversible uterine tocolysis probably due to the damaging effect of BITC (its chief phytochemical) on the myometrium.     

Relationship of urotensin I induced vasodilatory action in rat thoracic aorta to Ca2+ regulation

The relaxant effects of the synthetic fish neuropeptide urotensin I were examined in helical strips of rat aorta. In K+-depolarized aorta strips, urotensin I and verapamil competitively inhibited Ca2+-induced contractions. Urotensin I relaxed, in a concentration-dependent manner, the contraction produced by the Ca2+ ionophore A23187, whereas verapamil had no effect on this contraction, even at a concentration of 10(-5) M. In the absence and presence of extracellular Ca2+, urotensin I inhibited both components of the contractions elicited by norepinephrine or urotensin II, another fish neuropeptide. Verapamil reduced only the norepinephrine or urotensin II induced contraction in the presence of extracellular Ca2+, with little or no change in the contraction in Ca2+-free buffer. The urotensin I induced relaxation response in aortic strips contracted by 40 mM KCl was enhanced by pretreatment with papaverine or forskolin. Pretreatment with dibutyryl cAMP did not significantly alter the action of urotensin I. The presence or absence of endothelial cells did not change the response to urotensin I. These results suggest that urotensin I antagonizes the action and (or) mobilization of extracellular and intracellular Ca2+.     

Evidence of relaxant effect of omeprazole in rabbit corpus cavernosum in vitro

The present experiments were designed to investigate the effects of omeprazole, a H(+)-K+ ATPase inhibitor, on corporal smooth muscle tone in vitro. All spontaneous contractile activity in the corpus cavernosum was blocked following omeprazole (0.1 mM-1 mM) administration. However atropine (1 microM), Nw-nitro L-arginine methyl ester (L-NAME, 30 microM) or indomethacin (10 microM) did not affect the spontaneous contraction. Omeprazole (10 microM-1 mM) concentration-dependently induced relaxation in corporal smooth muscle precontracted with 10 microM phenylephrine or 80 mM KCl. Pretreatment of corporal tissue with L-NAME (30 microM), indomethacin (10 microM), ammonium chloride (7.5 mM), sodium acetate (7.5 mM), tetraethyl ammonium chloride (0.5 mM) or glibenclamide (1 microM) had no effect on the omeprazole induced relaxant responses. Nimodipine, an L-type Ca++ channel blocker, relaxed corporal strips precontracted with 80 mM KCl. Collectively, these results indicate that the inhibition of spontaneous contraction and the relaxation of precontracted corporal smooth muscle by omeprazole is probably mediated by the blockade of calcium channels. Further work is needed to determine the cellular mechanism(s) of action by which omeprazole acts on corpus cavernosum smooth muscle.     

Endothelium-independent vasorelaxation by leonurine, a plant alkaloid purified from Chinese motherwort

Leonurine, a plant alkaloid present in Chinese motherwort, induced concentration- dependent and endothelium-independent relaxation of phenylephrine (PE)- pretreated rat aortic arterial rings. The IC50 values for leonurine were 86.4+/-10.4 and 85.9+/-17.2 microM in the presence and absence of endothelium respectively. It inhibited the responses of aortic smooth muscle to PE in Ca2+ free medium containing 100 microM EGTA, suggesting a possible action on the release of intracellular Ca2+. Leonurine is not a specific alpha-adrenoceptor blocker, since it also caused a concentration-dependent inhibition of vascular contractile responses to KCl with an IC50 value of 96.4+/-13.4 microM, suggesting that leonurine also blocks the L-type Ca2+-channel. In addition, leonurine relaxed the aortic contraction induced by prostaglandin F2alpha (PGF2alpha). These inhibitory effects of leonurine were reversible and did not affect the resting tension. In conclusion, these findings suggest that leonurine is an effective inhibitor of vascular smooth tone, probably acting by inhibiting the Ca2+ influx and the release of intracellular Ca2+.     

Tyrosine phosphorylation increases Ca2+ sensitivity of vascular smooth muscle contraction

In order to elucidate the role of tyrosine phosphorylation in vasoconstriction, we investigated the effects of inhibitors of tyrosine kinase (genistein, 30 microM) and phosphatase (sodium o-vanadate, 5 microM) on the contraction of aorta isolated from guinea pig. Genistein significantly inhibited norepinephrine-induced contraction, but it did not affect that induced by KCI. Thus, tyrosine phosphorylation may not be involved in the contractile response to KCI alone. The aortic contraction elicited by KCl was significantly augmented by sodium o-vanadate, which increased both the maximum force and pD2 values of KCl contraction. In the presence of verapamil, KCl-induced contraction was abolished even after pretreatment with sodium o-vanadate. Sodium o-vanadate also augmented Ca2+-induced contraction in the aortic strips depolarized with KCl, increasing both its maximum force and pD2 values. Neither basal 45Ca2+ uptake nor verapamil-sensitive 45Ca2+ uptake induced by KCl were affected by pretreatment with sodium o-vanadate. These results suggest that tyrosine phosphorylation is involved in the contraction of guinea-pig aorta not through transplasmalemmal Ca2+ entry but through increased Ca2+ sensitivity of the intracellular contractile pathway.     

Testosterone and dihydrotestosterone inhibit gallbladder motility through multiple signalling pathways

Testosterone (T) has been shown to cause vasodilation in rabbit coronary arteries through a nongenomic pathway. Part of this T-induced relaxation was shown to be mediated by opening voltage dependent K(+) channels. T infusion also reduces peripheral resistance in human males with heart failure. The effects of T or its active metabolite 5-alpha dihydrotestosterone (DHT) are not well studied. This study investigates the effect of T and DHT on contraction in guinea pig gallbladder strips. T or DHT induced a concentration-dependent relaxation of cholecystokinin octapeptide (CCK)-induced tension. Pretreatment of the strips with PKA inhibitor 14-22 amide myristolated had no significant effect on the relaxation induced by either T or DHT. Pretreatment of strips with 2-APB, an inhibitor of IP(3) induced Ca(2+) release, produced a significant (p<0.001) reduction in the T- or DHT-induced relaxation. Bisindolymaleimide IV and chelerythrine Cl(-) when used in combination had no significant effect on the amount of CCK-induced tension, but significantly (p<0.01) decreased the amount of T- or DHT-induced relaxation. The flavone chrysin, an aromatase inhibitor, and genistein, an isoflavone, each produced a significant (p<0.01) reduction in CCK-induced tension. Chrysin significantly (p<0.05) increased T-induced relaxation; however, genistein had no effect on T-induced relaxation. It is concluded that T and DHT inhibits gallbladder motility rapidly by nongenomic actions of the hormones. Multiple pathways that include inhibition of intracellular Ca(2+) release, inhibition of extracellular Ca(2+) entry, and the actions of PKC may mediate this effect.     

Spasmolytic activity of essential oil and various extracts of Ferula gummosa Boiss. on ileum contractions

Traditional herbal medicines such as Ferula gummosa Boiss. have been used for treatment of intestinal disorders in Iran. To date no pharmacological evidence for their effectiveness has been reported. The aim of this study was to examine the relaxant effect of essential oil, hydro-alcoholic, etheric, petrolic and methanolic extracts of Ferula gummosa and two of its components, alpha-pinene and beta-pinene, on isolated rat ileum contractions induced by KCl and acetylcholine (ACh). Ferula gummosa essential oil (FGEO) and hydro-alcoholic, etheric, petrolic and methanolic extracts all inhibited the response to 80 mM KCl in a concentration-dependent manner and attenuated the maximum attainable response of the ACh concentration-response curve. Although the effect of etheric extract on ACh contractions was less than that of petrolic extract, the overall order of effectiveness on the weight basis was the etheric, petrolic, methanolic, and hydro-alcoholic extracts, and the essential oil, respectively. A mixture of etheric and petrolic extracts together had a similar effect on KCl response to etheric extract was used alone. Alpha-pinene and beta-pinene both exhibited inhibitory effect on the contraction of rat ileum, but the inhibitory effect of beta-pinene on KCl contraction was more pronounced. The inhibitory effect of a mixture of these two compounds was, however, less than the sum of their separate effects. When a mixture of alpha-pinene and beta-pinene together were examined on the ileum, without presence of the spasmogen, they initially caused contraction of the tissue, while neither of them used alone caused a noticeable contraction of the ileum. This study shows that Ferula gummosa essential oil and its various extracts are relaxant of rat isolated ileum and that at least part of their inhibitory effect is due to alpha-pinene and beta-pinene components. As the inhibition of contractile over-activity of the ileum is the basis of the treatment of some gastero-intestinal disorders such as diarrhea, Ferula gummosa may have clinical benefits for treatment of this condition.     

Effects of palmatine on isometric force and intracellular calcium levels of arterial smooth muscle

The effects of palmatine on isometric force and intracellular free calcium levels ([Ca2+]i) were determined in isolated rat arterial strips. Palmatine dose-dependently relaxed the contractile responses stimulated by phenylephrine (PE) in aortic strips. In contrast, it only partially relaxed aortic strips contracted by 51 mM KCl. Pretreatment with palmatine shifted the dose-response curves of PE both rightwards and downwards in a dose-dependent manner. When Ca2+-free solution and re-addition of Ca2+ were applied to assess PE-induced phasic and tonic contractions, palmatine was found to be effective in inhibiting both contractions. The effects of palmatine on intracellular calcium levels were measured with the bioluminescent calcium indicator aequorin in rat tail artery strips. Palmatine caused a concomitant, dose-dependent decrease in PE-activated isometric force and [Ca2+]i, resulting in small changes in the [Ca2+]i-force relationship. These results suggest that vasodilatory effect of palmatine was mediated by reducing [Ca2+]i as well as affecting [Ca2+]i sensitivity of the contractile apparatus. Palmatine-induced [Ca2+]i decreases appeared to involve decreases in both Ca2+ release from intracellular stores and Ca2+ influx through calcium channels.     

Vasorelaxant effect of the flavonoid galangin on isolated rat thoracic aorta

Here we investigated the effect of the flavonoid galangin in isolated rat thoracic aortic rings. Galangin (0.1-100 microM) induced relaxation in rings pre-contracted with phenylephrine (PE 1 microM) or with KCl (100 mM) or pre-treated with the nitric oxide synthase inhibitor Nomega-nitro-L-arginine methyl ester (L-NAME, 100 microM), the cyclooxygenase inhibitor indomethacin (10 microM) and the adenylate cyclase inhibitor, SQ 22,536 (100 microM). In another set of experiments, rat aortic rings were incubated with galangin (1-100 microM) and the contractile responses to PE (0.001-3 microM) or to KCl (60 mM) were evaluated. We also evaluated the effect of galangin (100 microM) on PE (10 microM)-induced contraction in a Ca2+-free medium. Galangin relaxed aortic rings with or without endothelium. Galangin effect was significantly inhibited by L-NAME. Galangin inhibited the contractile response to PE, either in presence or in absence of external calcium, and to KCl. In the end, we also found that galangin caused nitric oxide (NO) release from aortic rings and abolished the increase in [Ca2+]i triggered by PE or KCl in aortic smooth muscle cells, either in presence and in absence of external Ca2+. Our results suggest that galangin reduces the contractility of rat aortic rings through an endothelium-dependent mechanism, involving NO, and also through an endothelium-independent mechanism, inhibiting calcium movements through cell membranes.     

Vascular effects of caffeic acid phenethyl ester (CAPE) on isolated rat thoracic aorta

This study was aimed to investigate the vascular activity of caffeic acid phenethylester (CAPE), one of the major components of honeybee propolis. Experiments were performed on rat thoracic aortic rings, mounted in an isolated organ bath and connected to an isometric force transducer. The effect of CAPE (0.1-300 microM) was evaluated on tissue pre-contracted with phenylephrine (PE, 1 microM) or with KCl (100 mM). In another set of experiments, tissue was incubated with CAPE (1-100 microM) and responses to PE (0.01-3 microM) or KCl (60 mM) were evaluated. The effect of CAPE on cytosolic Ca(2+) concentration in aortic smooth muscle cells stimulated with PE or KCl was also evaluated. CAPE (0.1-300 microM) caused a concentration-dependent relaxation (pEC(50) 4.99 +/- 0.19; Emax 100.75 +/- 1.65%; n = 4) of tissue pre-contracted with PE that was reduced by endothelium removal or by incubation with N(omega)-nitro-L-arginine methyl ester (L-NAME, 100 microM). CAPE also relaxed KCl-precontracted tissue (pEC(50) 4.40 +/- 0.08; n = 4). CAPE inhibited contractile responses to PE or to KCl, and also inhibited the contractile response to PE obtained in a Ca(2+)-free medium. In addition, CAPE inhibited the increase in cytosolic Ca(2+) concentration triggered by stimulation of aortic smooth muscle cells with PE or KCl. Our results demonstrate a vascular activity for CAPE, that is only partially dependent on nitric oxide. Indeed, at high concentrations, CAPE vasorelaxant effect occurs also in absence of endothelium and it is likely due to an inhibitory effect on calcium movements through cell membranes.     

Selective alkylation of rat urinary bladder muscarinic receptors with 4-DAMP mustard reveals a contractile function for the M2 muscarinic receptor.

Our previous data indicate that M3 muscarinic receptors mediate carbachol induced bladder contractions. The data presented here were obtained by selective alkylation of M3 receptors with 4-DAMP mustard and suggest that the M2 receptor subtype may be involved in inhibition of beta-adrenergic receptor induced relaxation, therefore, allowing recontraction. Alkylation resulted in 85% of M3 receptors and 65% of M2 receptors unable to bind radioligand as demonstrated by subtype selective immunoprecipitation. Rat bladder strips subjected to our alkylation procedure contracted submaximally, and direct carbachol contractions were inhibited by antagonists with affinities consistent with M3 receptor mediated contraction. In contrast, the affinities of antagonists for inhibition of carbachol induced recontractions following isoproterenol stimulated relaxation in the presence of 90 mM KCl, indicated a contractile function for the M2 receptor that was not observed in control strips. In conclusion, these studies demonstrate a possible role for the M2 subtype in bladder smooth muscle contraction.     

Determination of brain gangliosides by determination of ganglioside stearic acid

A new method is described for the determination of brain gangliosides by measuring stearic acid, the chief acid of gangliosides, in an appropriately purified brain extract. The method includes extraction of tissue with chloroform-methanol, extraction of gangliosides from the extract with 0.1 M KCl, evaporation of the aqueous phase, methanolysis, and gas-liquid chromatography of the resultant methyl esters with a double internal standard. The method depends on the simple composition of ganglioside fatty acids (80% stearic acid) and allows determination of less than 0.05 micromole of gangliosides. Interfering lipids are removed from the ganglioside extract by washing with chloroform-methanol-water. The effects of contamination with nonlipid N-acetylneuraminic acid are avoided.     

Effects of anethole and structural analogues on the contractility of rat isolated aorta: Involvement of voltage-dependent Ca2+-channels

Anethole is a naturally occurring aromatic oxidant, present in a variety of medicinal plant extracts, which is commonly used by the food and beverage industry. Despite its widespread occurrence and commercial use, there is currently little information regarding effects of this compound on the vasculature. Therefore the actions of anethole on the contractility of rat isolated aorta were compared with those of eugenol, and their respective isomeric forms, estragole and isoeugenol. In aortic rings precontracted with phenylephrine (PE; 1 microM), anethole (10(-6) M-10(-4) M) induced contraction in preparations possessing an intact endothelium, but not in endothelium-denuded tissues. At higher concentrations (10(-3) M-10(-2) M), anethole-induced concentration-dependent and complete relaxation of all precontracted preparations, irrespective of whether the endothelium was intact or not, an action shared by eugenol, estragole and isoeugenol. The contractile and relaxant effects of anethole in PE-precontracted preparations were not altered by L-NAME (10 microM) or indomethacin (10 microM), indicating that neither nitric oxide nor prostaglandins were involved in these actions. The mixed profile of effects was not confined to PE-mediated contraction, since similar responses were obtained to anethole when tissues were precontracted with 25 mM KCl. Anethole and estragole (10(-6)-10(-4) M), but not eugenol or isoeugenol, increased the basal tonus of endothelium-denuded aortic rings, an action that was abolished by VDCC blockers nifedipine (1 microM) and diltiazem (1 microM), or by withdrawal of extracellular Ca(2+). Our data suggest complex effects of anethole on isolated blood vessels, inducing contraction at lower doses, mediated via opening of voltage-dependent Ca(2+)-channels, and relaxant effects at higher concentrations that are shared by structural analogues.     

铁对血管收缩活动的影响及其机制

动脉粥样硬化的发生和铁引起的氧化应激密切相关。铁对血管的直接效应及其对血管收缩功能的影响尚不明确。本文采用血管环灌流装置 ,观察铁对离体SD大鼠去内皮胸主动脉环的直接效应 ,及对去内皮主动脉环KCl和苯肾上腺素 (PE)引发的收缩效应的影响。结果显示 :( 1) 10 0 μmol/L枸橼酸铁 (FAC)引起大鼠血管环发生相位性收缩 ,最大收缩幅度可达KCl诱发的最大收缩的 2 4 0 2± 2 3 7%。当 [Ca2 +]o 增加 1倍时 ,铁所致的血管环收缩幅度明显增加 (P <0 0 1)。阻断L 型钙通道后 ,铁所致的血管环收缩幅度明显降低 (P <0 0 1)。在无钙液中 ,用佛波酯收缩血管环 ,待收缩稳定后给予FAC ,此时收缩幅度增加 49 18± 3 75 %。 ( 2 )铁孵育 3 0min后 ,KCl引起血管环收缩的幅度显著降低 (P <0 0 1)。铁孵育可使PE引起的收缩量 -效曲线右移 (P <0 0 5 )。 ( 3 )二甲基亚砜、过氧化氢酶和谷胱甘肽可明显降低铁对PE血管收缩反应的抑制作用 (P <0 0 5 )。从这些结果可得到以下结论 :铁可引起胸主动脉发生相位性收缩 ,其机制可能与L 型钙通道短暂开放导致钙离子内流 ,及平滑肌对钙的敏感性增加有关 ;较长时间与铁孵育后 ,可对血管收缩功能产生损伤 ,氧自由基的生成增加和细胞内GSH的水平降低可能参与铁对收缩功能的     

Differences in the association of calmodulin with cyclic nucleotide phosphodiesterase in relaxed and contracted arterial strips

Changes in the concentration of cytosolic Ca2+ are assumed to alter the activity of Ca2+-calmodulin-sensitive cyclic nucleotide phosphodiesterase in intact cells. However, this assumption is based on indirect evidence and by analogy from studies of enzyme activities in broken cell systems. We have developed a procedure for estimating the fraction of Ca2+-calmodulin-sensitive phosphodiesterase that is in an activated, ethylene glycol bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid (EGTA) sensitive state in intact porcine coronary artery strips. The experimental approach involves homogenization of the strips and assay of cyclic guanosine monophosphate (cyclic GMP) phosphodiesterase activity under conditions that retard changes in the amount of the complex Ca2+-calmodulin-phosphodiesterase. Our findings indicate that cyclic GMP phosphodiesterase in intact coronary artery strips does associate with Ca2+-calmodulin and that interventions that change the concentration of Ca2+ in the cytosol of the intact strip change the extent of this functional association. Exposure to histamine (10 or 100 microM) or 50 mM KCl caused contraction and an increase in EGTA-sensitive cyclic GMP phosphodiesterase activity. Isoproterenol-induced relaxation of tissues that had been caused to contract with 10 microM histamine was accompanied by a reduction in EGTA-sensitive cyclic GMP phosphodiesterase activity to the same level as that present before contraction was initiated.     

A post-calcium site of action for HA1004, a novel vasculorelaxant

The novel vasorelaxant HA1004 [N-(2-guanidinoethyl)-5-isoquinolinesulfonamide] was investigated with regard to its effects on transmembrane Ca2+ movement in relation to tension development in the rabbit aortic strips. The contractile responses to KCl (40 mM) and norepinephrine (3 X 10(-7) M) were inhibited by HA1004 (1 and 3 X 10(-5) M) (49-78%), whereas the increases in 45Ca efflux (which reflects increases in cytosolic Ca2+ levels) were not affected. Moreover, HA1004 (1 and 3 X 10(-5) M) did not significantly affect 45Ca influx due to KCl stimulation. While HA1004 at 10(-5) M had no effect on norepinephrine-induced 45Ca influx, the drug at 3 X 10(-5) M showed significant inhibition. Based on this and previously reported work, it is concluded that HA1004 inhibits contraction mainly through uncoupling of the Ca-tension relations in vascular smooth muscle.     

K(+) channel inhibition, calcium signaling, and vasomotor tone in canine pulmonary artery smooth muscle

We investigated the role of K(+) channels in the regulation of baseline intracellular free Ca(2+) concentration ([Ca(2+)](i)), alpha-adrenoreceptor-mediated Ca(2+) signaling, and capacitative Ca(2+) entry in pulmonary artery smooth muscle cells (PASMCs). Inhibition of voltage-gated K(+) channels with 4-aminopyridine (4-AP) increased the membrane potential and the resting [Ca(2+)](i) but attenuated the amplitude and frequency of the [Ca(2+)](i) oscillations induced by the alpha-agonist phenylephrine (PE). Inhibition of Ca(2+)-activated K(+) channels (with charybdotoxin) and inhibition (with glibenclamide) or activation of ATP-sensitive K(+) channels (with lemakalim) had no effect on resting [Ca(2+)](i) or PE-induced [Ca(2+)](i) oscillations. Thapsigargin was used to deplete sarcoplasmic reticulum Ca(2+) stores in the absence of extracellular Ca(2+). Under these conditions, 4-AP attenuated the peak and sustained components of capacitative Ca(2+) entry, which was observed when extracellular Ca(2+) was restored. Capacitative Ca(2+) entry was unaffected by charybdotoxin, glibenclamide, or lemakalim. In isolated pulmonary arterial rings, 4-AP increased resting tension and caused a leftward shift in the KCl dose-response curve. In contrast, 4-AP decreased PE-induced contraction, causing a rightward shift in the PE dose-response curve. These results indicate that voltage-gated K(+) channel inhibition increases resting [Ca(2+)](i) and tone in PASMCs but attenuates the response to PE, likely via inhibition of capacitative Ca(2+) entry.     

Relaxing and contracting activities of heartworm extract on isolated canine abdominal aorta.

Effect of adult heartworm (HW) crude extract on isolated canine abdominal aortic strips precontracted with noradrenaline was examined by recording isometric changes in tension. HW extract caused contraction of the aortic strip at a low concentration (LC) and its relaxation at a high concentration (HC). In aortic strips without endothelium, LC extract elicited a contraction similar to that in the strips with endothelium, whereas HC extract failed to produce any relaxation but instead produced a contraction. The relaxing effect of HC extract was blocked after treatment with 300 microM NG-nitro-L-arginine methyl ester hydrochloride, with reversal by additional treatment with 3 mM L-arginine. It was also markedly reduced or abolished after treatment with 3 microM oxyhemoglobin or 1 microM methylene blue. Fractionation of HW extract by high-performance liquid chromatography revealed that the relaxing and contracting activities are due to different substances in the extract. The results indicate that HW extract contains 2 different vasoactive substances, 1 causing contraction of canine abdominal aorta via a direct action on the smooth muscle, and the other its relaxation indirectly by releasing nitric oxide from endothelial cells. These vasoactive substances might play a role in HW extract-induced shock in dogs, and in the pathogenesis of HW infection.     

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.     

Role of cADPR in sodium nitroprusside-induced opossum esophageal longitudinal smooth muscle contraction

Nitric oxide (NO) relaxes most smooth muscle, including the circular smooth muscle (CSM) of the esophagus, whereas in the adjacent longitudinal smooth muscle (LSM), it causes contraction. The second messenger pathways responsible for this NO-induced LSM contraction are unclear, given that these opposing effects of NO are both cGMP dependent. In intestinal LSM, but not CSM, cADP ribose (cADPR)-dependent pathways participate in Ca(2+) mobilization and muscle contraction; whether similar differences exist in the esophagus is unknown. The purpose of this study was to determine whether cADPR plays a role in the NO-mediated contraction of opossum esophageal LSM. Standard isometric tension recordings were performed using both LSM and CSM strips from opossum distal esophagus that were hung in 10-ml tissue baths perfused with oxygenated Krebs solution. cADPR produced concentration-dependent contraction of LSM strips with an EC(50) of 1 nM and peak contraction of 57 +/- 18% of the 60 mM KCl-induced contraction. cADPR had no effect on CSM strips at concentrations up to 10(-6) M. The EC(50) of cADPR caused contraction (18 +/- 2% from initial resting length) of isolated LSM cells. Sodium nitroprusside (SNP; 300 muM) induced contraction of LSM strips that averaged 67 +/- 5% of the KCl response. cADPR antagonists 8-bromo-cADPR and 8-amino-cADPR, as well as ryanodine receptor antagonists ryanodine and tetracaine, significantly inhibited the SNP-induced contraction. In conclusion, in the opossum esophagus, 1) cADPR induces contraction of LSM, but not CSM, and 2) NO-induced contraction of LSM appears to involve a cADPR-dependent pathway.