No evidence for a significant non-nitrergic, hyperpolarising factor contribution to field stimulation-induced relaxation of the mouse anococcygeus

1. The aim of the study was to determine whether a nerve-derived hyperpolarizing factor (NDHF) might contribute to non-adrenergic, non-cholinergic (NANC) relaxations of the mouse anococcygeus when low concentrations of contractile agent are used to raise tone and low frequencies of field stimulation applied; such a non-nitrergic NDHF has been proposed to contribute to NANC relaxations of the rat anococcygeus and guinea-pig taenia coli. 2. Phenylephrine (0.1-100 microM) produced concentration-related contractions of the mouse isolated anococcygeus muscle; 0.2 microM phenylephrine (EC26) was used to raise tone in subsequent experiments. 3. Field stimulation (0.5, 1.0 and 5.0 Hz) produced frequency-dependent relaxations of phenylephrine-induced tone. In the presence of the nitric oxide synthase inhibitor L-NG-nitro-arginine (L-NOARG; 100 microM), the soluble guanylate cyclase inhibitor 1H-[1,2,4]oxodiazolo[4,3-a]quinoxalin-1-one (ODQ; 5 microM), or a combination of these two drugs, relaxations to field stimulation were abolished at all frequencies studied. Relaxations to sodium nitroprusside (0.01-5 microM) were unaffected by L-NOARG but strongly inhibited by ODQ; neither enzyme inhibitor affected relaxations to 8-Br-cyclic GMP (10 microM). 4. Nifedipine (1 microM) reduced the contractile response to 0.2 microM phenylephrine by 38%; however, it had no effect on NANC relaxations. 5. It is concluded that NANC relaxations of the mouse anococcygeus are purely nitrergic and that there is no significant contribution from a putative NDHF.     

Effects of hydroxocobalamin on nitrergic transmission in rat anococcygeus and bovine retractor penis muscles: sensitivity to light

Hydroxocobalamin inhibited nitrergic nerve-induced relaxations in rat anococcygeus and bovine retractor penis muscles in a concentration-dependent manner. In the rat anococcygeus muscle, the inhibition was greater in light than in dark conditions, whereas in the bovine retractor penis the inhibition was similar under both conditions.     

Characterization of the 16+9 kb and 30+9 kb CYP2D6 XbaI haplotypes

The effects of ultraviolet (UV) light (310 nm) on human cavernosal smooth muscles were investigated. Cavernosal strips were obtained from men during penile prosthetic surgery. When the cavernosal strips were irradiated with UV light in an organ bath, after precontraction by norepinephrine (100 nM) for 10, 20, 40 and 90 s at intervals of 3 min, the contracted cavernosal smooth muscles from the impotent men without vascular risk factors (controls) showed relaxation depending on the duration of irradiation. However, the relaxation was not found when the strips were pretreated with methylene blue (10 microM) or their epithelia were denuded. The relaxation response of the cavernosal strips from the patients with diabetogenic impotence was significantly reduced compared with that of the controls. Photorelaxation of human cavernosal strips therefore seems to be dependent on endothelium.     

The effects of treatment with lipopolysaccharide on responsiveness of rat blood vessels

Effects of treatment with lipopolysaccharide (LPS) both in vivo (intraperitoneal administration of 20 mg.kg-1 LPS for 6 hours) and in vitro (incubation with 1 microgram.kg-1 LPS for 6 hours) on the responsiveness of the rat thoracic aorta, carotid, renal, femoral, mesenteric, pulmonary arteries, and the femoral and mesenteric veins were examined. Intraperitoneal administration of LPS did not change the blood pressure of rats, but increased the heart rate significantly. The same amplitude of relaxation was produced by L-arginine in the aortic strips treated by LPS in vivo and in vitro, and the responses were inhibited by NG-nitro-L-arginine (L-NOARG). The contractile responses to phenylephrine in the aortic strips were reduced by LPS-treatment in vivo or in vitro, but the extent of inhibition was greater in vivo than in vitro. Further, the attenuation of contractile responses to phenylephrine was completely reversed by L-NOARG in the strips treated with LPS in vitro, whereas the reversal by L-NOARG was incomplete in the strips treated with LPS in vivo. Different amplitudes of relaxations were also produced by L-arginine or SNP in the blood vessels treated by LPS in vivo or in vitro. However, the tail artery treated with LPS in vivo or in vitro did not relax in response to L-arginine but did produce a relaxation to SNP. These results suggest that the hyporesponsiveness of rat blood vessels after treatment with LPS in vivo or in vitro may be related to an enhanced NO production in the smooth muscle cells and that there is a possible heterogeneity of regional induction or activation of L-arginine/NO pathway by LPS in rat blood vessels.     

Characterization of the potassium channels involved in EDHF-mediated relaxation in cerebral arteries

1. In the presence of NG-nitro-L-arginine (L-NOARG, 0.3 mM) and indomethacin (10 microM), the relaxations induced by acetylcholine and the calcium (Ca) ionophore A23187 are considered to be mediated by endothelium-derived hyperpolarizing factor (EDHF) in the guinea-pig basilar artery. 2. Inhibitors of adenosine 5'-triphosphate (ATP)-sensitive potassium (K)-channels (KATP; glibenclamide, 10 microM), voltage-sensitive K-channels (Kv; dendrotoxin-1, 0.1 microM or 4-aminopyridine, 1 mM), small (SKCa; apamin, 0.1 microM) and large (BKCa; iberiotoxin, 0.1 microM) conductance Ca-sensitive K-channels did not affect the L-NOARG/indomethacin-resistant relaxation induced by acetylcholine. 3. Synthetic charybdotoxin (0.1 microM), an inhibitor of BKCa and Kv, caused a rightward shift of the concentration-response curve for acetylcholine and reduced the maximal relaxation in the presence of L-NOARG and indomethacin, whereas the relaxation induced by A23187 was not significantly inhibited. 4. A combination of charybdotoxin (0.1 microM) and apamin (0.1 microM) abolished the L-NOARG/ indomethacin-resistant relaxations induced by acetylcholine and A23187. However, the acetylcholine-induced relaxation was not affected by a combination of iberiotoxin (0.1 microM) and apamin (0.1 microM). 5. Ciclazindol (10 microM), an inhibitor of Kv in rat portal vein smooth muscle, inhibited the L-NOARG/ indomethacin-resistant relaxations induced by acetylcholine and A23187, and the relaxations were abolished when ciclazindol (10 microM) was combined with apamin (0.1 microM). 6. Human pial arteries from two out of four patients displayed an L-NOARG/indomethacin-resistant relaxation in response to substance P. This relaxation was abolished in both cases by pretreatment with the combination of charybdotoxin (0.1 microM) and apamin (0.1 microM), whereas each toxin had little effect alone. 7. The results suggest that Kv, but not KATP and BKCa, is involved in the EDHF-mediated relaxation in the guinea-pig basilar artery. The synergistic action of apamin and charybdotoxin (or ciclazindol) could indicate that both Kv and SKCa are activated by EDHF. However, a single type of K-channel, which may be structurally related to Kv and allosterically regulated by apamin, could also be the target for EDHF.     

A non-nitrergic smooth muscle relaxant factor released from rat urinary bladder by muscarinic receptor stimulation

PURPOSE: To study the possible release of a relaxant factor from isolated rat bladder tissue. MATERIALS AND METHODS: Thoracic aortae and urinary bladders were obtained from 55 female Sprague-Dawley rats. The bladder body was used in its original tubular shape as the donor tissue in a co-axial bioassay system, and the aorta served as acceptor tissue. RESULTS: In a co-axial bioassay system with endothelium-free, norepinephrine-contracted, rat aortic preparations mounted within urothelium-intact urinary bladder, carbachol caused a concentration-dependent relaxation, amounting to 64+/-7% (n = 10) of the induced contraction, suggesting release of a relaxing factor. The relaxant effect of carbachol was lost if the urinary bladder segment was removed. However, the relaxation was affected neither by removal of the urothelium, nor by bladder segment inversion. It was resistant to inhibition of the L-arginine/nitric oxide and cyclo-oxygenase pathways, and unaffected by beta-adrenoceptor blockade and K+ channel inhibition. The relaxation was not associated with any significant changes in the intracellular levels of cGMP or cAMP. CONCLUSION: A previously unrecognized non-adrenergic, non-nitrergic, non-prostanoid inhibitory mediator is released from the rat urinary bladder by muscarinic receptor stimulation. The physiological importance of such a factor remains to be established.     

Release of the antioxidants ascorbate and urate from a nitrergically-innervated smooth muscle

1. The main object of the present study was to determine whether ascorbate, an antioxidant which has been shown to protect nitric oxide (NO) from attack by scavenger molecules, might be released from nitrergically-innervated smooth muscle; ascorbate release from the rat anococcygeus was measured by use of h.p.l.c. with electrochemical detection. 2. Incubation of rat anococcygeus muscles in normal physiological salt solution (PSS; 30 min) resulted in release of ascorbate into the bathing medium (7.7 +/- 0.9 nmol g-1 tissue). This release was increased by 96% when muscles were incubated in high K+ (70 mM) PSS. The resting release of ascorbate was unaffected by tetrodotoxin (TTX; 1 microM), omega-conotoxin GVIA (10 nM) or omission of calcium ions from the PSS (with addition of 0.2 mM EGTA), but all three procedures attenuated the increased release observed under depolarizing conditions. Resting release of ascorbate was unaffected by glutamate (100 microM), aspartate (100 microM), gamma-aminobutyric acid (100 microM) or carbachol (50 microM). 3. A second h.p.l.c. peak, which always preceded the ascorbate peak, was identified as urate. Urate release from the anococcygeus, following 30 min incubation in normal PSS, was 64.6 +/- 12.7 nmol g-1 tissue but, unlike ascorbate, urate release was unchanged in high K+ PSS. In functional experiments, urate (100-400 microM) partially protected NO (15 microM)-induced relaxations of the rat anococcygeus from inhibition by 2-(4-carboxyphenyl)-4,4,5,5-tetramethylimidazoline-1-oxyl-3-oxide (carboxy-PTIO; 50 microM), but not from inhibition by hydroquinone or duroquinone (both 100 microM). 4. Muscles chemically sympathectomized with 6-hydroxydopamine (6-OHDA, 500 microM; 2 h) still exhibited release of ascorbate (2.5 +/- 0.4 nmol g-1 tissue) and urate (22.2 +/- 2.9 nmol g-1 tissue); in both cases the release was similar to that observed in time-matched control tissues not exposed to 6-OHDA. High K+ PSS produced a TTX-sensitive increase in release of ascorbate, but not urate, from 6-OHDA-treated muscles. 5. The results demonstrate that significant amounts of ascorbate and urate are released from the rat anococcygeus muscle. Ascorbate, but not urate, release appears to be enhanced by activation of nerves which are resistant to 6-OHDA pretreatment. Since both antioxidants can protect NO from attack by scavenger molecules, their release in nitrergically-innervated tissues may be important for the provision of the correct redox environment to allow NO to fulfill its proposed neurotransmitter role.     

Effect of phorbol ester, 12-deoxyphorbol 13-isobutylate (DPB), on muscle tension and cytosolic Ca2+ in rat anococcygeus muscle

Effects of phorbol ester, 12-deoxyphorbol 13-isobutyrate (DPB), on muscle tension and cytosolic Ca2+ ([Ca2+]i) level was investigated in rat anococcygeus muscle in comparison with other smooth muscles. 1) DPB (10(-6) M) induced a large contraction and an elevation of [Ca2+]i level in rat aorta and small and rhythmic changes in tension and [Ca2+]i level in guinea pig ileum. However, DPB did not change either of the parameters in rat anococcygeus muscle. 2) DPB caused tension development without changing the [Ca2+]i level elevated by high K+, ionomycin or beta-escin in the anococcygeus muscle. 3) In the beta-escin permeabilized muscles of guinea pig ileum and urinary bladder, rabbit mesenteric artery and rat anococcygeus muscle, DPB enhanced the Ca(2+)-developed tension. Moreover, the enhancement was inhibited by H-7 (3 x 10(-5) M). 4) DPB did not cause muscle tension to develop in the muscle of rat aorta, guinea pig ileum and rat anococcygeus muscle, pretreated with phorbol 12-myristate 13-acetate for 24 hr. In conclusion, DPB showed different contractile effects on the aorta, ileum and anococcygeus muscle, respectively. The initiation of muscle tension by DPB probably requires [Ca2+]i and the DPB-induced enhancement may be due to a Ca2+ sensitization of contractile elements in the anococcygeus muscle. Therefore, the difference between the DPB-induced response of the anococcygeus muscle and those of the other muscles seems to be due to a different Ca2+ movement caused by DPB. Moreover, it is suggested that DPB develops muscle tension by increasing [Ca2+]i and enhances it through the mediation of protein kinase C in the anococcygeus muscle as well as the other smooth muscles.     

Inhibition of vasoactive amine induced contractions of vascular smooth muscle by hydrogen peroxide in rabbit aorta

OBJECTIVE: The aims were to investigate the effects of H2O2 on arterial contractions induced by vasoactive amine agonists and a high concentration of potassium ions (high K+) in vitro and to explore the possible underlying mechanism(s) involved. METHODS: Isometric tension of rabbit isolated aortic strips was measured and the effects of pretreatment with H2O2 on contractions induced by phenylephrine and high K+ were compared. The effects of H2O2 on precontracted strips were determined in the presence and absence of the aortic endothelium and compared with those of acetylcholine. RESULTS: The tension developed in response to an agonist was expressed as a percentage of the contraction induced by high K+ (64.7 mM) superfusion. Pretreatment with 300 microM H2O2 reduced the mean phenylephrine (0.3 microM) induced contraction from 96.2(SEM 1.4) to 61.8(2.8)%; the effect was stable and reversed by washing out the H2O2. Hydrogen peroxide relaxed phenylphrine precontracted strips with and without endothelium but it showed no relaxant effect when the strips were precontracted by high K+, whereas acetylcholine (1 microM) induced transient relaxation of high K+ precontracted strips by 27.8(2.9)%. The relaxant effect of H2O2 was not affected by pretreatment with indomethacin (a cyclo-oxygenase inhibitor), desferrioxamine (a hydroxyl radical scavenger), or diphenylphenylenediamine (a lipophilic antioxidant). CONCLUSIONS: H2O2 inhibits vasoactive amine induced contractions of the vascular smooth muscle of rabbit aorta in vitro without affecting voltage dependent Ca2+ influx or contractile machinery. The mechanism responsible for its inhibitory effects may be related to impairments of the cellular signalling reactions initiated by the agonists.     

The effect of sodium based hypo-osmolality on arterial smooth muscle reactivity in vitro

The study tested the hypothesis that the reduced [Na+]e and hypo-osmolality of normal pregnancy are causally linked to the attenuation of vascular smooth muscle reactivity in vitro. Aortic rings from nonpregnant female rats were incubated in physiological medium containing 114 mM NaCl/l and the contractile responses to phenylephrine, KCl and CaCl2 as well as the relaxations to acetylcholine and KCl were compared with those of rings incubated in normal medium containing 119 mM NaCl/l. There was no solute substituted for the lowered [Na+]. Experiments with phenylephrine were repeated using de-endothelialized rings and intact rings pretreated with indomethacin. Contractile responses of intact rings (n = 11) in hypo-osmolar solution to phenylephrine were significantly (P < 0.001) lower than of those in normal medium (n = 11). Responses were partially restored by endothelial denudation but not in the presence of indomethacin. Relaxations to acetylcholine (n = 7 for hypo-osmolar; n = 6 for normal solution) and KCl (n = 7 for each of hypo- and normal osmolar) were significantly enhanced (P < 0.05) in rings incubated in hypo-osmolar solution. There was no significant difference between the responses of the rings to KCl, and CaCl2 in either solution. These effects are similar to some of those previously described for vascular smooth muscle in normal pregnancy suggesting that the reduced [Na+]e and hypo-osmolarity of normal pregnancy may be contributing to the diminished vascular reactivity.     

Octreotide acetate inhibits motility in the rabbit distal colon

BACKGROUND: Congestive heart failure is a clinical condition associated with alterations in the normal balance of neurohumoral agents and factors acting on the vascular wall. The etiology of this condition, however, remains largely undefined. To help elucidate the pathophysiology of this disease, vascular function and angiotensin-converting enzyme activity were evaluated in 2-month-old Syrian cardiomyopathic hamsters (SCHs) that had not yet developed heart failure. Age-matched normal hamsters were used as control hamsters. METHODS AND RESULTS: Vascular function studies included determinations of contractile responses of aortic rings to 0.1 microM angiotensin II and 0.1 microM norepinephrine. In addition, endothelial function was evaluated by the vasorelaxant action of acetylcholine on norepinephrine-precontracted aortic rings. The results indicate that the pressor effect of angiotensin II (0.1 microM) was 35% greater in aortic rings from SCRs than that observed in control animals. This effect is specific for angiotensin II because the contraction induced by NE (0.1 microM) was similar in both of these strains. Angiotensin-converting enzyme activity was three-fold higher in aorta homogenates from SCHs but normal in plasma and heart tissue when compared with control hamsters. Aortic ring preparations from SCHs also exhibited endothelial dysfunction because the maximal relaxation elicited by 10 microM acetylcholine was reduced 53%. Concentration-response curves with acetylcholine yielded EC50 values that were threefold lower in SCHs (97.2 +/- 0.1 nM) than in control animals (286 +/- 7 nM). Indomethacin (1 microM) increased the vasorelaxant effect of acetylcholine 28% in SCHs and shifted to the left the concentration-response curve of this agonist, suggesting an increased relaxation with the cyclooxygenase inhibitor. No effect of indomethacin on acetylcholine-induced relaxation was observed in control animals. Sodium nitroprusside induced similar relaxations in both control animals and SCHs, suggesting that the vascular smooth muscle response is normal in SCR. CONCLUSIONS: Altogether these results point to a state of enhanced vascular contractility in young SCHs that could predispose these animals to develop heart failure, the enhanced vascular contractility could result from increased activity of the local renin-angiotensin system, augmented vascular response to angiotensin II, reduced nitric oxide synthesis, and enhanced production of prostaglandins.     

Effect of elevated glucose on contractile and relaxant response of aortic strips in Indian bonnet monkey (Macaca radiata radiata)

Vascular contractile response to phenylephrine and potassium chloride were examined in strips of isolated thoracic aorta from non-diabetic monkeys with and without intact endothelium exposed to glucose (5.5 mM; control) and (11 mM; high) concentration. Acetylcholine causes relaxation in isolated aortic strips with intact endothelial cells while it causes contraction in aortic strips with damaged endothelial cells. In preparations with intact and damaged endothelium, there was a significant increase in the maximal contractile response to potassium chloride when added cumulatively, on exposure to elevated glucose (11 mM) concentration as compared to control. It was also observed that relaxant response to acetylcholine and sodium nitroprusside in control (5.5 mM) and high glucose (44 mM) concentration. Endothelium-dependent relaxation to acetylcholine decreased significantly in the presence of 44 mM glucose. In preparation without endothelium, contraction caused by acetylcholine increased in the presence of glucose (44 mM). Direct smooth muscle relaxation to sodium nitroprusside remained unchanged in aortic strips with and without endothelium. Relaxation response to sodium nitroprusside decreased in strips with damaged endothelium on exposure to high glucose when compared to control glucose.     

A thermodynamic investigation of reactions catalyzed by tryptophan synthase

In this study, we demonstrated that sodium selenite with high doses (> or = 10(-3) M) were potent in inducing a contracture type effect on heart and smooth muscles. Selenite (Se), at a concentration of 10(-3) M, caused a contracture effect in heart preparations. Also, low Se concentrations did not have any significant effect. Although low concentrations of Se (> or = 10(-5) M) had a biphasic effects on acetylcholine (ACh) induced and spontaneous ileum contractions, 10(-3) M selenite enhanced once more a contracture effect similar to that of the heart preparations. Replacing Ca2+ concentration of the bathing solution by twofold Ca2+ or Ca2+-free did not change the effects of selenite (10(-5) M) on contractility of ileum preparations. In vascular smooth muscle, low concentration of selenite (< 10(-4)) had no significant effects on KCl, and phenylephrine-induced contractions and acetylcholine-induced endothelium-dependent relaxations of isolated rabbit aorta. However, the contractions induced by phenylephrine and the relaxations induced by acetylcholine in rabbit aorta were depressed significantly by high concentration of selenite (10(-3) M). The results obtained by selenite exposure from these three different types of tissue preparations first suggest that the high concentration of selenite exposure induces some alterations in the functions of muscles and endothelium in a tissue- and dose-dependent manner. Second, this observed irreversible type of dysfunction of tissues induced by 10(-3) M selenite is not directly dependent on the Ca2+ entrance into the cytosol, but might be induced by the increase of intracellular Ca2+ with the disturbance of Ca2+ regulation.     

The role of cyclic nucleotides in guinea-pig bladder contractility

1. The effects of phosphodiesterase (PDE) inhibition and forskolin pretreatment on the contractile responses of guinea-pig urinary bladder strips to electrical field stimulation, carbachol, ATP and KCl were studied. 2. Inhibition of cyclic AMP-specific PDE4 isozymes by rolipram significantly reduced the contractile response of bladder strips to field stimulation. Rolipram also suppressed the contractile response to low concentrations of carbachol, but potentiated the response to high concentrations. The contractile response to ATP was significantly reduced by rolipram treatment, but that to KCl was unaltered. 3. Inhibition of cyclic GMP-specific PDE5 isozymes by zaprinast had no effects on the contractile response of bladder strips to field stimulation, ATP or KCl. Zaprinast suppressed the contractile responses to 1 microM carbachol and potentiated the response to high concentrations. 4. Contractile responses to field stimulation and to carbachol after pretreatment with the adenylyl cyclase activator, forskolin, were qualitatively similar to those caused by rolipram treatment. beta-Adrenoceptor blockade with propranolol partially reversed the inhibitory effects of rolipram on the response to field stimulation. 5. Rolipram significantly reduced the contractile response of bladder strips from sensitized guinea-pigs to ovalbumin challenge, but zaprinast was ineffective. PDE inhibition had similar effects on the responsiveness of control and of sensitized guinea-pig bladder strips to field stimulation, carbachol, ATP and KCl. 6. The data suggest that the contractile response of guinea-pig bladder strips can be modified by increases in cyclic AMP levels.     

Effect of nitroprusside on smooth muscle and adrenergic nerve terminals in isolated blood vessels

Experiments were designed to assess the mode of action of nitroprusside on isolated blood vessels and its relative potency on venous and arterial smooth muscle. Strips from dog blood vessels were mounted in an organ bath for isometric tension recording. Sodium nitroprusside (10(-5) M) depressed the contraction of saphenous vein strips caused by electric stimulation, tyramine, K+, Ba++, norepinephrine and acetylcholine. The depression of the norepinephrine-induced contractions also occurred in a Ca++- free medium and when Ca++ influx was inhibited by verapamil. Nitroprusside reduced the frequency of the spontaneous contractions of strips of portal-mesenteric veins. It depressed the contraction caused by norepinephrine in tibial artery strips more than in saphenous vein strips. Saphenous vein strips were incubated with (3H)norepinephrine and mounted for superfusion and isometric tension recording. Sodium nitroprusside (10(-5) M) had no effect on the basal efflux of 3H compounds. During electric stimulation, it did not change the output of (3H)norepinephrine but increased the outflow of deaminated and O-methylated metabolites. Thus sodium nitroprusside 1) has a direct effect on the smooth muscle cells which is independent of Ca++ influx, 2) depresses contractions of different types of vascular smooth muscle and 3) does not inhibit the release of norepinephrine from the nerve endings.     

MauE and MauD proteins are essential in methylamine metabolism of Paracoccus denitrificans

Electrical field stimulation (EFS) produced relaxation of contracted arteries in the presence of tetrodotoxin. In the present study the contributions of vascular smooth muscle repolarization and endothelial release of nitric oxide to the relaxation response were investigated using isolated rat tail arteries and bovine aortic endothelial cells (BAEC). Intact and endothelium-denuded rings or intact, pressurized artery segments were contracted with either phenylephrine or KCl prior to EFS. Electrical field stimulation induced a small relaxation in denuded, phenylephrine contracted rings that was inhibited by the K+ channel blockers glibenclamide and BaCl2. In intact, phenylephrine-contracted rings, EFS induced significantly larger relaxations that were inhibited by BaCl2 as well as by L-NAME, an inhibitor of nitric oxide (NO) synthase, and methylene blue. EFS-induced relaxations were completely inhibited when BaCl2 and L-NAME or methylene blue were combined. Exposure to Ca(2+)-free buffer or diltiazem also inhibited the relaxation while ascorbic acid had no effect. Effluent from electrically stimulated BAEC caused denuded, phenylephrine contracted rings to relax. The ability of the effluent to cause relaxation was almost completely blocked by exposure of the BAEC to L-NAME or exposure of the recipient vascular smooth muscle to methylene blue; glibenclamide caused partial blockade. Simultaneous measurements of membrane potential and intraluminal pressure showed that EFS-induced membrane repolarization preceded changes in steady-state pressure. It is concluded that (1) the smooth muscle cells possess an endothelium-independent repolarization mechanism, (2) EFS causes endothelial cells of intact arteries to release NO and possibly a hyperpolarizing factor, (3) EFS of BAEC causes release of NO, and (4) EFS-induced relaxation depends on vascular smooth muscle cell membrane repolarization and endothelial cell release of vasoactive substances.     

Buthus martensi karsch venom: prejunctional adrenergic activity in the rat isolated anococcygeus muscle

The effect of Buthus martensi Karsch venom (MKV) on adrenergic responses was investigated using the rat isolated anococcygeus muscle (Acm), since several scorpion venoms can cause peripheral sympathetic nerve stimulation with enhanced adrenergic responses. The effects of phentolamine (5 microM), guanethidine (5 microM), tetrodotoxin (2 microM), desipramine (1.5 microM) and reserpine pretreatment in vivo (5 mg/kg s.c. x 24 hr and 5 mg/kg i.p. x 3 hr) on contractile responses of the rat Acm to field stimulation, noradrenaline (3 microM), tyramine (10 microM), crude MKV (2 micrograms/ml), carbachol (3 microM) and potassium chloride (50 mM) were compared. Phentolamine, guanethidine, tetrodotoxin and reserpine pretreatment completely blocked the contractile responses of the Acm to MKV and to field stimulation but desipramine potentiated the responses. The responses to NA were completely blocked by phentolamine, but were potentiated by guanethidine, desipramine and reserpine pretreatment. The contractile responses to tyramine were completely blocked by phentolamine, desipramine and reserpine pretreatment. The low doses (0.1 microgram/ml x 3) of MKV, which did not produce any observable increase in tone of the anococcygeus muscle, potentiated the contractile responses to field stimulation, but not the responses to exogenous NA. Thus, the adrenergic agonist action of MKV in the rat isolated anococcygeus muscle is mediated by some prejunctional mechanism(s) of action, presumably stimulating the release of the neurotransmitter noradrenaline.     

Effect of vagotomy on airway hyperreactivity to endogenously released neurotransmitters at 18-24 h after inhaled antigen

Airway reactivity was examined in anaesthetized guinea-pigs 18-24 h after inhalation challenge of ovalbumin-sensitized animals with ovalbumin. Bronchoconstrictor responses were measured from the increases in pulmonary inflation pressure. The study was undertaken to examine whether ovalbumin challenge induced airway hyperreactivity to neurotransmitters released endogenously by vagal nerve stimulation. Stimulation parameters were selected to cause release of either acetylcholine (0.3 ms pulse width for 3 s, 20 V, 2-40 Hz), both acetylcholine and neuropeptide (5 ms pulse width for 15 s, 20 V, 0.5-8 Hz) or neuropeptide only, using the latter parameters in the presence of atropine. The vagi were paired for stimulation and in some experiments were cut central to the stimulation point. Frequency-response curves for acetylcholine- and neuropeptide-mediated bronchoconstrictor responses to vagal stimulation when the nerves were intact revealed no airway hyperreactivity after ovalbumin challenge. The presence of atropine failed to reveal airway hyperreactivity. However, when the vagi were cut, the frequency-response curves were displaced to the left after ovalbumin challenge compared with saline challenged animals, indicating airway hyperreactivity. This airway hyperreactivity was significant after atropine and suggests an increase in sensitivity to endogenously released neuropeptides rather than acetylcholine. It also indicates that the airway hyperreactivity is dependent on removal of the afferent vagal pathways. Frequency-response curves for cholinergic stimulation (0.3 ms) with intact vagi revealed no airway hyperreactivity after antigen challenge. Comparisons of exogenously administered 5-hydroxytryptamine (5-HT, 300 ng/100 g i.v.) and a single vagal stimulation of 0.3 ms pulse width (cholinergic) revealed no airway hyperreactivity to either stimulus after ovalbumin challenge. However if the vagi were cut, airway hyperreactivity was observed, again suggesting that removal of afferent pathways is important for revealing airway hyperreactivity in the anaesthetized guinea-pig. Ovalbumin challenge caused significant increases in the bronchoconstrictor responses to a single dose of capsaicin (50 microg/100 g i.v.) or dose-response curves to bradykinin. Since these agents release neuropeptides from sensory C-fibres, this is further support for a raised sensitivity to endogenously released neuropeptides.     

Inhibition of relaxations to nitrergic stimulation of the mouse anococcygeus by duroquinone

1. The role of copper/zinc superoxide dismutase (Cu/Zn SOD) in protection of nitrergic neurotransmission in the mouse anococcygeus was investigated by use of duroquinone (DQ), which generates superoxide anions within tissues via reduction by flavoprotein enzymes. 2. In control anococcygeus muscles, DQ (10-100 microM) produced concentration-related inhibition (-log IC40 = 4.41) of relaxations to exogenous nitric oxide (NO; 15 microM). Nitrergic relaxations induced by field stimulation (10 Hz; 10 s train) were much less affected, 100 microM DQ reducing nitrergic relaxations by only 14 +/- 6%. 3. Following incubation with the Cu/Zn SOD inhibitor, diethyldithiocarbamate (DETCA; 3 mM; 45 min incubation; 10 min washout), the inhibitory effects of DQ on relaxations to NO were potentiated (-log IC40 = 5.22), and clear, concentration-related inhibitions of nitrergic relaxations were now observed (-log IC40 = 4.54). In both cases, these inhibitions were partially reversed by Cu/Zn SOD (250 u ml-1). In DETCA-treated tissues, DQ (100 microM) also reduced relaxations to sodium nitroprusside (1 microM) and S-nitroso-glutathione (30 microM), but potentiated those to 8-Br-cyclic GMP (100 microM). 4. Neither hydroquinone (HQ: 100 microM) nor 1,4-benzoquinone (BQ: 100 microM), both of which reduced responses to exogenous NO, inhibited relaxations induced by field stimulation in DETCA-treated tissues. Indeed, when added during DQ-induced inhibition of nitrergic relaxations, both HQ and BQ produced partial reversal of the block. 5. DQ had no effect on the detection of superoxide anions estimated via the xanthine:xanthine oxidase chemiluminescence assay, or of authentic NO as measured by a chemical microsensor. However, the detection of both superoxide anions and NO in these assays was inhibited by inclusion of either HQ or BQ. 6. The results support the proposal that nitrergic transmission in the peripheral nervous system is protected by Cu/Zn SOD activity in the region of the neuroeffector junction, and this may explain the lack of effect of superoxide anion generating drugs such as DQ. Such an explanation does not hold for either HQ or BQ, which appear to be acting directly as free radical scavengers in these experiments.