Investigation of the relaxant effects of propofol on ovalbumin-induced asthma in guinea pigs

BACKGROUND AND OBJECTIVE: Because the incidence of asthma appears to be increasing, the importance of proper perioperative management of individuals with asthma will also continue to increase. Although its mechanism of smooth muscle relaxation is unknown, propofol has been associated with less bronchoconstriction during anaesthetic induction. The aim of this study was to investigate the possible mechanism of these effects and the effects of propofol on the isolated trachea preparations from control and ovalbumin-sensitized guinea pigs. METHODS: Adult male guinea pigs, weighing 280-330 g, were randomly allocated to two experimental groups, each consisting of 10 animals. Ten guinea pigs were sensitized by intramuscular injections of 0.30 mL of a 5% (w/v) ovalbumin/saline solution into each thigh (0.6 mL total) on days 1 and 4, whereas the remaining 10 served as controls receiving a total of 0.6 mL distilled water on days 1 and 4 as placebo. The isolated trachea preparations were mounted in tissue baths with modified Krebs-Henseleit solution and aerated with 95% oxygen and 5% carbon dioxide. We tested the effects of propofol (10(-7)-10(-3) M) on resting tension and after precontraction with carbachol and histamine on isolated trachea preparations from control and ovalbumin-sensitized guinea pigs. We also tested the effect of propofol on isolated trachea preparations precontracted with carbachol and histamine in the absence and presence of different inhibitors or antagonists. We investigated propofol responses in tracheal smooth muscle precontracted with CaCl2. RESULTS: Propofol (10(-7)-10(-3) M) produced a concentration-dependent relaxation of isolated tracheal preparations precontracted by carbachol (10(-6) M) and histamine (10(-6) M) in both groups. Preincubation with N(w)-nitro L-arginine methyl ester (3x10(-5) M), indomethacin (10(-5) M) or propranolol (10(-4) M) did not produce a significant alteration on propofol-induced relaxation responses (P>0.05), while preincubation with tetraethylammonium (3x10(-4) M) significantly decreased the propofol-induced relaxation responses in both groups (P<0.05). Propofol (10(-7)-10(-3) M) induced concentration-dependently relaxations in isolated trachea rings precontracted with CaCl2 in both the control and ovalbumin-sensitized groups. CONCLUSION: Propofol induced concentration-dependent relaxations in precontracted, isolated trachea smooth muscle of guinea pigs in both the control and ovalbumin-sensitized groups. These relaxations were independent of epithelial function and stimulation of beta adrenergic receptors. Opened Ca2+-sensitive K+ channels and inhibited L-type Ca2+ channels can contribute to these relaxations.     

Investigation of the mechanism of nicotine-induced relaxation in guinea pig gallbladder

BACKGROUND: Muscular contraction of the gallbladder is the primary determinant of bile delivery into duedonum. Gallbladder filling and emptying are influenced by both inhibitory and excitatory stimuli, and NO plays a key role in normal relaxation. In this study, to determine whether nicotine acts on the gallbladder muscle, the mechanism of its effect on strips of guinea pig gallbladder was studied in vitro. MATERIALS AND METHODS: Guinea pig gallbladder muscle strips were mounted in organ bath with modified Krebs-Henseleit solution and aerated with Carbogen. Tension was measured with isometric force transducers, and muscle relaxation was expressed as percent decrease of precontraction induced by carbachol. RESULTS: Nicotine produced concentration dependent relaxation when preparations were precontracted by carbachol (10(-6) M). Nicotine-induced relaxation was 51.6 +/- 3.2% of phenylephrine contraction and was not affected by guanethidine (10(-5) M), propranolol (10(-6) M), hexamethonium (10(-4) M), indomethacin (10(-5) M), N(w)-nitro L-arginine methyl ester (L-NAME) (3 x 10(-5) M), methylene blue (10(-5) M), glibenclamide (10(-5) M), clotrimazole (10(-6) M), tetraethylammonium (3 x 10(-4) M), or 4-aminopyridine (10(-3) M). Nicotine did not exhibit a calcium antagonizing effect. CONCLUSIONS: From these results, we concluded that nicotine-induced relaxation of the guinea pig gallbladder is not mediated by the release of noradrenaline, nitric oxide (NO), prostaglandins, or a related substance, or by the activation of potassium channels, or by the stimulation of nicotinic cholinoceptors. Further work is needed to determine the cellular mechanism(s) of action by which nicotine acts on gallbladder smooth muscle.     

Electrically induced relaxation of the noradrenaline contracted isolated urethra from rabbit and man

Isolated urethral preparations from rabbit and man responded to transmural electrical stimulation with contraction when the basal tension was low, and with relaxation when the preparations were contracted by noradrenaline, clonidine, 5-hydroxytryptamine and lysine vasopressin. Both contractant and relaxant responses were abolished by tetrodotoxin, suggesting that they were caused by the action of transmitters released from nerves. The electrically induced contractions in the rabbit urethra had a threshold frequency of 5 to 6 Hz and maximum was reached at 40 Hz. The responses were markedly reduced by alpha-receptor blockers suggesting that the released contraction-mediating transmitter was mainly noradrenaline. The relaxant response was immediate and rapidly reversible. It was obtained at a threshold frequency of 1 to 2 Hz and maximum was reached at 10 to 15 Hz. It was not inhibited by propranolol, indomethacin, atropine or peptides such as substance P, VIP, vasopressin or somatostatin. Prostaglandin E2, isoprenaline, adenosine-5'-triphosphate and VIP relaxed the noradrenaline contracted rabbit urethra with a time course different from that of the electrically induced relaxation. Nifedipine and "calcium free" solution decreased the noradrenaline induced contraction but did not influence the relaxant response to electrical stimulation. It is suggested that the relaxant response of the isolated noradrenaline-contracted urethra to electrical stimulation is caused by an unknown transmitter released from nerves.     

The mechanism of inhibitory actions of propofol on rat supraoptic neurons.

BACKGROUND: In the perioperative period, plasma osmotic pressure, systemic blood pressure, and blood volume often change dramatically. Arginine vasopressin is a key factor in the regulation of these parameters. This study was performed to evaluate the direct and the mechanism of the actions of propofol on arginine vasopressin release from magnocellular neurosecretory neurons in the rat supraoptic nucleus. METHODS: Somatodendritic arginine vasopressin release from supraoptic nucleus slice preparations was measured by radioimmunoassay. Ionic currents were measured using the whole-cell mode of the patch-clamp technique in supraoptic nucleus slice preparations or in single dissociated supraoptic nucleus neurons of the rat. RESULTS: Propofol at concentrations greater than 10(-5) M inhibited the arginine vasopressin release stimulated by potassium chloride (50 mM). This inhibition by propofol was not reversed by picrotoxin, a gamma-aminobutyric acid(A)(GABA(A)) receptor antagonist, whereas arginine vasopressin release induced by glutamate (10(-3) M) was also inhibited by propofol at a clinically relevant concentration (10(-6) M). The latter effect was reversed by picrotoxin. Propofol evoked Cl- currents at concentrations ranging 10(-6) to 10(-4) M. Propofol (10(-6) M) enhanced the GABA (10(-6) M)-induced current synergistically. Moreover, propofol (10(-6) M) prolonged the time constant of spontaneous GABA-mediated inhibitory postsynaptic currents. Furthermore, propofol (10(-5) M and 10(-4) M) reversibly inhibited voltage-gated Ca2+ currents, whereas it did not affect currents induced by glutamate (10(-3) M). CONCLUSIONS: Propofol inhibits somatodendritic arginine vasopressin release from the supraoptic nucleus, and the enhancement of GABAergic inhibitory synaptic inputs and the inhibition of voltage-gated Ca2+ entry are involved in the inhibition of arginine vasopressin release.     

The Mechanism of Inhibitory Actions of Propofol on Rat Supraoptic Neurons

Background: In the perioperative period, plasma osmotic pressure, systemic blood pressure, and blood volume often change dramatically. Arginine vasopressin is a key factor in the regulation of these parameters. This study was performed to evaluate the direct effects and the mechanism of the actions of propofol on arginine vasopressin release from magnocellular neurosecretory neurons in the rat supraoptic nucleus.

Methods: Somatodendritic arginine vasopressin release from supraoptic nucleus slice preparations was measured by radioimmunoassay. Ionic currents were measured using the whole-cell mode of the patch-clamp technique in supraoptic nucleus slice preparations or in single dissociated supraoptic nucleus neurons of the rat.

Results: Propofol at concentrations greater than 10-5 M inhibited the arginine vasopressin release stimulated by potassium chloride (50 mM). This inhibition by propofol was not reversed by picrotoxin, a gamma-aminobutyric acidA (GABAA) receptor antagonist, whereas arginine vasopressin release induced by glutamate (10-3 M) was also inhibited by propofol at a clinically relevant concentration (10-6 M). The latter effect was reversed by picrotoxin. Propofol evoked Cl- currents at concentrations ranging 10-6 to 10-4 M. Propofol (10-6 M) enhanced the GABA (10-6 M)-induced current synergistically. Moreover, propofol (10-6 M) prolonged the time constant of spontaneous GABA-mediated inhibitory postsynaptic currents. Furthermore, propofol (10-5 M and 10-4 M) reversibly inhibited voltage-gated Ca2+ currents, whereas it did not affect currents induced by glutamate (10-3 M).     

Stimulation of P2y purinoceptors induces, via nitric oxide production, endothelium-dependent relaxation of human isolated corpus cavernosum

PURPOSE: Endothelial P2y purinoceptor stimulation is known to induce vasodilatation mediated by NO release from endothelial cells. We examined the effect of a potent P2y agonist, adenosine-5'-O-(2-thiodiphosphate) (ADPbetaS), on human corporal cavernosal strips and its dependence on a functional endothelial lining. MATERIALS AND METHODS: The preparations mounted in isometric conditions were precontracted by noradrenaline (NA) at a concentration of 0.1 microM. Increasing concentrations of ADPbetaS from 1 microM to 100 microM were added in the presence and absence of a functional endothelium or in the presence and absence of an NO synthase inhibitor and a selective P2y antagonist. Acetylcholine (Ach)-induced relaxation was used in each experiment for control. RESULTS: In human precontracted corporal cavernosal strips with a functional endothelium (relaxed by acetylcholine) ADPbetaS induces a dose-dependent relaxation with maximal relaxation of 45.5+/-5.0% and an EC50 of 11.7 microM. The relaxant effect of ADPbetaS was reduced by 77.1+/-7.0% by reactive blue 2 (20 microM)(a P2y antagonist). L-NAME (L-Nitro Arginin Methyl Ester), an NO synthase inhibitor (100 microM), reduced Ach- and ADPbetaS- induced relaxations by 86.59+/-3.24% and 86.83+/-0.5% respectively. Ach- and ADPbetaS- induced relaxations were significantly inhibited after dislodging of the endothelial lining of the corporal cavernosal strips, 90.11+/-6.2% and 87.1+/-5% respectively. CONCLUSIONS: Human corporal cavernosal strips can be relaxed by stimulation of P2y purinoceptors via NO release. This relaxation is an endothelium-dependent mechanism. Purines may be implicated in physiological erection in man.     

Endothelium dependent relaxation of human corpus cavernosum by bradykinin

The release of endothelium-derived relaxing factor (EDRF) from human corpus cavernosum (CC) tissue was confirmed by demonstrating that bradykinin produces endothelium dependent relaxation of human CC tissue. Human CC strips were set in a tissue bath and isometric tension changes were recorded. All strips showed spontaneous contractions and produced tonic contractions by both high potassium solution and noradrenaline (NA) (10(-9) to 10(-4) M) in a dose dependent manner. In preparations precontracted with NA, relaxation was produced by bradykinin (10(-7) to 2 x 10(-6) M). Strips lacking endothelium were contracted by NA but no relaxation was observed with the addition of bradykinin. More direct evidence of the release of EDRF from human CC was demonstrated by a "sandwich" mount. We conclude that bradykinin relaxes human CC by releasing EDRF and that this EDRF may be a factor in erectile function.     

Effects of diabetes on neurotransmission in rat vaginal smooth muscle.

The aim of this work was to characterize the effect of experimental diabetes on neurotransmission in rat vagina. Female Sprague-Dawley rats were divided into two groups: non-diabetic controls (NDM, n=38) and diabetics (DM, n=38). DM was produced by intraperitoneal injection of streptozotocin. Eight weeks later the animals were killed, the distal part of the vagina was removed, and smooth muscle strips were prepared for functional organ bath experiments and for measurement of nitric oxide synthase (NOS) activity. In DM preparations, the EC(50) value for noradrenaline (NA) was significantly increased (P<0.05) and the maximal contractile response decreased (P=0.001). In preparations precontracted with NA, the NO donor SNAP and calcitonin gene-related peptide (CGRP) caused concentration-dependent relaxations, which were significantly decreased (P<0.001) in the DM group. Electrical stimulation of nerves (EFS) caused frequency-dependent contractions, which were significantly lower in DM than in NDM strips (P<0.001). SNAP and CGRP concentration-dependently inhibited EFS evoked contractions in both NDM and DM preparations. The inhibition was significantly lower (P<0.05) in the DM group. In NDM preparations precontracted with NA, EFS evoked frequency-dependent relaxations; such relaxations were inhibited or reduced in DM. Treatment with the NOS inhibitor, L-NOARG 0.1 mM, abolished relaxations in all preparations or produced contraction in DM preparations. Calcium-dependent NOS activity was not significantly different in the DM and NDM groups. However, the DM animals showed a small but significant increase in calcium-independent NOS-activity (P<0.05). Diabetes interferes with adrenergic-, cholinergic- and NANC-neurotransmitter mechanisms in the smooth muscle of the rat vagina. The changes in the nitrergic neurotransmission are not due to reduction in NOS-activity, but seem to be due to interference with later steps in the L-arginine/NO/guanylate cyclase/cGMP system.     

THE ACTION MECHANISM OF RELAXATION EFFECT OF ATROPINE ON THE ISOLATED RABBIT CORPUS CAVERNOSUM

PURPOSE: Atropine has been used to block cholinergic neurotransmission in basic research and has received recent interest clinically in the intracavernosal pharmacotherapy of erectile dysfunction. It has been suggested that at a low dose (10(-8) M), atropine blocks muscarinic receptors, and that at a large dose (10(-3) M), it induces the release of EDRF. However, no report has supported this idea experimentally. We tried to confirm the action of atropine in cavernosal tissue and define its mechanism. MATERIALS AND METHODS: Strips of rabbit corpus cavernosum were mounted in organ chambers. On the precontracted muscle strips with phenylephrine (PHE; 5 x 10(-6) M), atropine was treated with increasing concentration from 10(-11) M. The relaxing activity of atropine was observed in deendothelialized tissue and preparation with treatment with methylene blue (10(-4) M), pyrogallol (10(-4) M), NW-nitro-L-arginine (L-NNA; 3 x 10(-4) M) and indomethacin (10(-4) M). To evaluate the relationship of atropine to Ca++, the muscle strip was incubated in Ca++ free solution, and Ca++ induced contraction by addition of CaCl2 (10(-3) M) was recorded with atropine. Depolarization by KCl was observed with atropine to investigate the relationship of atropine relaxation to K+. RESULTS: On the precontracted muscle strip with PHE, atropine induced a dose-related contraction up to 10(-8) M and began to exert a relaxing effect at the concentration of 10(-7) M and reached the 93.6% relaxation effect at the concentration of 10(-4) M, causing dose-dependent relaxation. The relaxing effect of atropine was partially inhibited by endothelial disruption, and by pretreatment with methylene blue, pyrogallol, L-NNA, and indomethacin, although they were not statistically significant. At the basal state of muscle strips in Ca++ free solution, atropine decreased basal tension as well as inhibited the contraction induced by CaCl2 dose-dependently. However, atropine did not influence depolarization by KCl. CONCLUSIONS: Atropine has both a contraction effect at lower concentrations and a relaxation effect at higher concentrations on cavernosal smooth muscle. It is presumed that the relaxation at higher concentrations is mediated via increasing intracellular calcium sequestration, not by hyperpolarization or secretion of EDRF.     

The in vitro reversal of histamine-induced vasodilation in the human internal mammary artery.

Anaphylactic shock therapy includes the use of catecholamines but they may not always be effective. Because vasodilation during anaphylaxis is a result of the endothelial release of multiple mediators, we investigated the effects of epinephrine, vasopressin, and inhibitors of nitric oxide and prostanoid pathways on histamine-induced relaxation in human internal mammary artery. The vessel segments were obtained intraoperatively and were suspended in organ chambers to record isometric tension. Norepinephrine (10(-6) M) was used to precontract the rings followed by histamine (10(-6.5) M) to relax the vessels and mimic vascular collapse. Epinephrine, vasopressin, methylene blue, N(G)-monomethyl-L-arginine (L-NMA) and indomethacin were added in a cumulative fashion to reverse the histamine-induced vasodilation. The internal mammary artery segments exhibited greater contraction in the presence of the epinephrine (4.9 +/- 0.7 g) compared with vasopressin (2.6 +/- 0.7 g). Vasopressin (10(-11) to 10(-7) M), methylene blue (10(-7) to 10(-5) M), L-NMA (10(-6) to 10(-4) M), and indomethacin (10(-7) to 10(-5) M) were only partially effective. These findings suggest that vasopressin and methylene blue may offer a potential therapeutic option in the treatment of histamine-induced vasodilatory shock. IMPLICATIONS: Epinephrine only partially reverses histamine-induced vasodilation in human internal mammary arteries, whereas vasopressin, methylene blue, and drugs involved in the inhibition of nitric oxide and prostaglandin generation lead to a complete reversal of the vascular relaxation.     

The participation of adenosine receptors in the adenosine 5''-triphosphate-induced relaxation in the isolated rabbit corpus cavernosum penis

AIM: To investigate the participation of adenosine receptors in the adenosine 5'-triphosphate (ATP)-induced relaxation in the corpus cavernosum penis (CCP) of rabbits. METHODS: The ATP-induced relaxation was assessed on the noradrenaline precontracted CCP of rabbits in the presence and absence of 8-(3-chlorostyryl)caffeine (CSC); an adenosine A(2A) receptor antagonist; alloxazine and MRS1754; adenosine A(2B) receptor antagonists; and ARL67156, an inhibitor of ecto-nucleoside triphosphate diphosphohydrolases. RESULTS: Adenosine and ATP relaxed the noradrenaline precontracted CCP of rabbits in a concentration-dependent manner. The adenosine- and ATP-induced relaxations were suppressed by alloxazine and MRS1754, but not by 8-(3-chlorostyryl)caffeine. ARL67156 potentiated the ATP-induced relaxation but not the adenosine-induced one. MRS1754 suppressed the ATP-induced relaxation potentiated by ARL67156. CONCLUSIONS: The above results suggest that, in the CCP of rabbits, the adenosine receptor mediating adenosine-induced relaxation is of the A(2B) receptor and the ATP directly causes relaxation through the A(2B) receptor on the CCP.     

ATP- and adenosine-induced relaxation of the smooth muscle of the pig urethra

OBJECTIVES

To investigate relaxation mechanisms for ATP and adenosine in the pig urethra, together with the possible role of ATP in nerve‐evoked urethral relaxations, as ATP is thought to cause bladder smooth muscle contraction via P2X receptors, whereas relaxation is mediated via G‐protein coupled P2Y receptors, and ATP may also induce relaxation via breakdown to adenosine.

MATERIALS AND METHODS

Circular muscle strips from the female pig urethra were mounted in tissue baths to record force; the effects of increasing concentrations of 1–300 µm ATP, the P2‐receptor agonist 2‐methylthioATP (2‐MeSATP), adenosine, the stable adenosine‐analogue, 5′(N‐ethylcarboxamido) adenosine (NECA), ADP, uridine‐triphosphate (UTP) and α,β‐methylene‐ATP were assessed on the spontaneously developed tone. Responses to ATP were further assessed in the presence of G‐protein activator guanosine 5′‐O‐(3‐thiotriphosphate) (GTPγS; 1–10 µm ), the G‐protein inhibitor guanosine 5′‐O‐(2‐thio‐diphosphate) (GDPβS; 10–100 µm ), suramin (1–100 µm ), the ecto‐ATPase inhibitor 6‐N,N‐diethyl‐β‐γ‐dibromomethylene‐d ‐adenosine‐5‐triphosphate (ARL 67156, 10–100 µm ), and the suggested P2Y receptor antagonist, reactive blue‐2 (1–100 µm ). The effect of the adenosine (P1) receptor antagonist 8‐(p‐sulphophenyl)theophylline (8‐SPT, 1–100 µm ) on responses to adenosine, and the effects of the adenosine reuptake inhibitor S(p‐nitrobenzyl)‐6‐thioinosine (NBTI, 1–100 µm ) on responses to adenosine and ATP were also assessed. Responses to electrical field stimulation (EFS, 12 and 30 Hz) in the presence of phentolamine (1 µm ), scopolamine (1 µm ) and NΩ‐nitro‐L‐arginine (0.3 mm ) were studied before and after treatment with GTPγS, GDPβS, suramin, reactive blue‐2 and ARL 67156.

RESULTS

Strips were relaxed in a concentration‐dependent manner by exogenously administered ATP and 2‐meSATP, the relaxations being slowly developing and long‐lasting. The relaxant effect evoked by both agonists at 300 µm amounted to about half of the spontaneously developed tone. The relaxation evoked by ATP was not significantly affected by GTPγS, GDPβS, suramin, ARL 67156 or reactive blue‐2. Adenosine induced a concentration‐dependent relaxation of the smooth muscle tone, reaching a maximum of ≈ 70% at 300 µm , whereas 300 µm NECA only relaxed the preparations by ≈ 35%. The adenosine‐induced relaxation was not affected by treatment with 8‐SPT. However, NBTI (1 µm ) significantly reduced the relaxation evoked by 300 µm adenosine. ADP relaxed the smooth muscle tone by ≈ 40% (300 µm ). There was no response to UTP, and the effect of α,β‐methylene‐ATP was negligible (5% relaxation at 100 µm ). EFS caused slowly developing and long‐lasting relaxations that were unaffected by GTPγS, GDPβS, suramin, reactive blue‐2 and ARL 67156.

CONCLUSIONS

These results suggest that exogenous ATP and adenosine relax the smooth muscle of the pig urethra in a manner similar to that evoked by electrical stimulation of nerves, although there was no evidence for involvement of a definable P2Y receptor subtype in these relaxations.

     

Intravenous anesthetics inhibit nonadrenergic noncholinergic lower esophageal sphincter relaxation via nitric oxide-cyclic guanosine monophosphate pathway modulation in rabbits

BACKGROUND: Nonadrenergic noncholinergic (NANC) nerves have important roles in the regulation of the lower esophageal sphincter (LES) motility and function. The effects of thiopental, ketamine, and midazolam on NANC LES relaxation were investigated. METHODS: The isometric tension of circular muscle strips from Japanese White rabbits was examined. The NANC relaxation was induced by KCl (30 mM) in the presence of atropine (3 x 10(-6) M) and guanethidine (3 x 10(-6) M). The modifications of the NANC and sodium nitroprusside (SNP; 10(-5) M)-induced relaxation by the anesthetics were examined. The content of 3',5'-cyclic guanosine monophosphate (cGMP) was measured by radioimmunoassay. RESULTS: The KCl-induced relaxation was abolished by pretreating with tetrodotoxin (10(-6) M). The NANC relaxation was inhibited in the presence of N(G)-nitro-L-arginine (L-NNA; 3 x 10(-5) M), methylene blue (10(-6) M), apamin (10(-7) M), and glibenclamide (10(-5) M). The SNP-induced relaxation was inhibited by methylene blue but was not affected by tetrodotoxin, L-NNA, apamin, or glibenclamide. Ketamine (EC50 = 8.8 x 10(-5) M) and midazolam (EC50 = 4.8 x 10(-6) M) suppressed the NANC response in a concentration-dependent manner, leaving SNP-induced response unchanged. Thiopental altered neither of the relaxations. cGMP content was decreased in the presence of ketamine and midazolam. CONCLUSION: The NANC relaxation was mediated by nitric oxide and by low-conductance calcium- and adenosine triphosphate-sensitive potassium channels of smooth muscle. The modulation of the nitric oxide-cGMP pathway was related, at least in part, to the inhibitory actions of ketamine and midazolam on the NANC LES relaxation.     

Phosphodiesterase 5 in the female pig and human urethra: morphological and functional aspects

OBJECTIVE: To characterize the distribution of phosphodiesterase 5 (PDE-5), cGMP and cGMP-dependent protein kinase I (PKG1), and to evaluate the effect of pharmacological inhibition of PDE-5 in isolated preparations of pig and human urethra, as the nitric oxide (NO)/cGMP pathway generates the main inhibitory signals to reduce resistance in the bladder outlet and urethra during emptying of the bladder. MATERIALS AND METHODS: After obtaining ethics committee approval, urethral specimens were obtained from three female patients during cystectomy, and from young female pigs. The specimens were prepared for immunohistochemical investigations and for functional studies in organ baths. Effects of sildenafil, vardenafil and tadalafil (1 nm to 30 microm) were studied in l-noradrenaline (1 microm)-activated or spontaneously contracted preparations, and on relaxations induced by electrical-field stimulation (EFS). Levels of cGMP were determined by radioimmunoassay. RESULTS: After stimulation with the NO donor, DETA NONO-ate (1 mm), there was greater cGMP-immunoreactivity (IR) in urethral and vascular smooth muscles. There was a wide distribution of cGMP- and vimentin-positive interstitial cells between pig urethral smooth muscle bundles. There was also cGMP-IR within NO-synthase-IR endothelium. There was PDE-5 IR within the urethral and vascular smooth muscle cells, but also in vascular endothelial cells that expressed cGMP-IR. In pig and human sections, there was strong PKG1-IR in alpha-actin-IR urethral smooth muscle cells that also contained IR for cGMP. Sildenafil, vardenafil and tadalafil caused mean (sem) concentration-dependent relaxations of the pig urethra which, at 30 microm, were 80 (3)% (11 samples), 81 (5)% (12 samples) and 64 (4)% (10 samples) of the spontaneous tone. The relaxation of L-noradrenaline-contracted female human urethra was 100% in response to 10 microm sildenafil, and 85 (15)% and 47 (13)% for 30 microm of vardenafil and tadalafil, respectively (three samples). Vardenafil or sildenafil (30 microm) doubled cGMP levels in pig specimens. There were no effects on cGMP levels with tadalafil. EFS (1-32 Hz) caused l-NG-nitroarginine-sensitive relaxations of pig urethral muscle that were increased in amplitude and duration by PDE-5 inhibition. At 0.1 microm, sildenafil, vardenafil or tadalafil significantly prolonged the mean (sem) duration of the relaxation at 4 Hz by 55 (19)%, 45 (14)% and 51 (12)%, respectively. CONCLUSIONS: PDE-5-, cGMP- and PKG1-IR is widely distributed in human and pig urethral tissues. Nerve-induced relaxations of urethral preparations were enhanced at low concentrations of sildenafil, vardenafil and tadalafil, whereas there were direct smooth muscle-relaxant actions of the PDE-5 inhibitors at high concentrations. Inhibition of PDE-5 might be an interesting option to facilitate cGMP-mediated relaxation of the outflow region.     

Effect of sildenafil and rolipram on adrenergic responses in isolated human and monkey corpus cavernosum

OBJECTIVE: Evaluate and compare effects of phosphodiesterase inhibitors (PDEIs), sildenafil and rolipram, on adrenergic contractile responses of human and monkey cavernosal smooth muscle. METHODS: Human penises were obtained from patients undergoing gender reassignment surgery. Isolated human and monkey corpus cavernosum (CC) strips were suspended in tissue bath chambers for isometric tension experiments. The effects of the drugs on precontracted monkey and human CC and neurogenic contractions in human CC were investigated. RESULTS: Both sildenafil and rolipram induced concentration-dependent relaxations of human and monkey CC strips precontracted with noradrenaline (NA). The IC(50) values, determined by reverse regression for nitroglycerin (NTG), isoprenaline, and sildenafil in monkey CC, were, respectively, 1.5+/-0.9x10(-7) M, 3.7+/-0.6x10(-6) M, and 1.7+/-0.7x10(-5) M. Similarly, in human CC muscle, sildenafil was weaker than NTG as a muscle relaxant. Sildenafil, 1.5 microM, reduced neurogenic contractions in human CC due to stimulation of predominantly adrenergic nerves. The suppressant effect of sildenafil on adrenergic transmission was attenuated in CC strips pretreated with N omega-nitro-L-arginine and overcome with a higher stimulus frequency or tetraethylammonium. Rolipram partially inhibited adrenergic excitatory response but without significantly affecting NA-induced contraction. CONCLUSIONS: Sildenafil and rolipram induced concentration-dependent reversal of human and monkey CC tone mediated by NA. Both PDEIs attenuated contractile adrenergic response of human CC to electrical stimulation. The results also underline the importance of the cyclic adenosine monophosphate-dependent signalling pathway in regulating the tone. PDE4 inhibition in CC is an additional mechanism for erection and potential therapeutic adjunct.     

Ketanserin interaction with urethral alpha-adrenoceptors

The selective 5-HT2 receptor blocker ketanserin was found to reduce maximal urethral pressures in healthy females by about 40% without reducing blood pressure. In vitro, ketanserin completely or almost completely reduced contractions of the isolated female rabbit urethra induced by phenylephrine, noradrenaline (NA) and electrical field stimulation. The drug was less effective against responses evoked by clonidine and 5-hydroxytryptamine (5-HT). 5-HT-induced contractions were effectively reduced by methysergide, but little affected by prazosin and rauwolscine. In concentrations exceeding 10(-7) M ketanserin significantly increased efflux of 3H in 3H-NA preloaded preparations of rabbit urethral muscle. Low concentrations of 5-HT, less than 10(-6) M, had slight inhibitory effects of 3H release, whereas 5-HT 10(-5) M caused a significant increase. It is concluded that ketanserin counteracts the effects of postjunctional alpha 1-adrenoceptor stimulation in isolated rabbit urethra. Such an effect might also explain its urethral pressure lowering action in man.     

Impairment of corpus cavernosal smooth muscle relaxation by glycosylated human haemoglobin

OBJECTIVE: To examine the effect of HbA1c, an isoform of glycosylated haemoglobin (GHb, a product of non-enzymatic reactions between elevated blood glucose and haemoglobin), on nitric oxide-mediated corpus cavernosal smooth muscle relaxation, and to categorize the mechanisms involved. MATERIALS AND METHODS: Corpus cavernosal tissue from Wistar rats (300-350 g body weight) was prepared for the measurement of isometric tension. After equilibration in Krebs solution gassed with 95% O2/5% CO2 at 37 degrees C for 90 min, optimal resting tension was applied. Tissue was precontracted with 1 micromol/L noradrenaline (NAd) and either relaxed with incremental doses of acetylcholine (ACh) or sodium nitroprusside (SNP). After washout, strips were again precontracted with NAd and then incubated with pyrogallol (100 micromol/L), 100 microL of haemoglobin or 100 microL of GHb in the presence of either L-arginine (100 micromol/L), indomethacin (10 micromol/L), allopurinol (100 micromol/L), deferoxamine (100 micromol/L), catalase (600 IU/mL), or superoxide dismutase (SOD) (120 IU/mL) before ACh- or SNP-induced relaxation responses were repeated. RESULTS: Haemoglobin and GHb significantly impaired the relaxation of rat corpus cavernosum to ACh in a dose-dependent manner. L-arginine reversed the impairment caused by Hb, but not GHb. A donor of superoxide anions, pyrogallol, mimicked this impairment to ACh when added to control strips. Catalase, deferoxamine, indomethacin and allopurinol had no significant effect on the impaired relaxation response to ACh, whilst L-arginine partially reversed it. SOD completely reversed the GHb-induced impaired relaxation; GHb did not alter the relaxation response to SNP. CONCLUSION: GHb significantly impairs endothelial NO-mediated corpus cavernosal relaxation in the rat, in vitro. This effect is caused partly by the generation of superoxide anions and the extracellular inactivation of NO.     

Pre-junctional alpha2-adrenoceptors modulation of the nitrergic transmission in the pig urinary bladder neck

AIMS: To investigate the nitric oxide (NO)-mediated nerve relaxation and its possible modulation by pre-junctional alpha2-adrenoceptors in the pig urinary bladder neck. METHODS: Urothelium-denuded bladder neck strips were dissected, and mounted in isolated organ baths containing a physiological saline solution (PSS) at 37 degrees C and continuously gassed with 5% CO2 and 95% O2, for isometric force recording. The relaxations to transmural nerve stimulation (electrical field stimulation [EFS]) or exogenously applied NO were carried out on strips pre-contracted with 1 microM phenylephrine (PhE) and treated with guanethidine (10 microM) and atropine (0.1 microM), to block noradrenergic neurotransmission and muscarinic receptors, respectively. RESULTS: EFS (0.2-1 Hz, 1 msec duration, 20 sec trains, current output adjusted to 75 mA) evoked frequency-dependent relaxations which were abolished by the neuronal voltage-activated Na+ channel blocker tetrodotoxin (TTX, 1 microM). These responses were potently reduced by the nitric oxide synthase (NOS) inhibitor NG-nitro-L-arginine (L-NOARG, 30 microM) and further reversed by the NO synthesis substrate L-arginine (L-ARG, 3 mM). The alpha2-adrenoceptor agonist BHT-920 (2 microM) reduced the electrically evoked relaxations, its effectiveness being higher on the responses induced by low frequency stimulation. BHT-920-elicited reductions were fully reversed by the alpha2-adrenoceptor antagonist rauwolscine (RAW, 1 microM). Exogenous NO (1 microM-1 mM) induced concentration-dependent relaxations which were not modified by BHT-920, thus eliminating a possible post-junctional modulation. CONCLUSIONS: These results indicate that NO is involved in the non-adrenergic non-cholinergic (NANC) inhibitory neurotransmission in the pig urinary bladder neck, the release of NO from intramural nerves being modulated by pre-junctional alpha2-adrenoceptor stimulation.     

Effect of etomidate on endothelium-dependent relaxation induced by acetylcholine in rat aorta

The goals of this in vitro study were to investigate effects of etomidate on endothelium-dependent relaxation induced by acetylcholine in rat aorta, and to elucidate the associated cellular mechanism. In endothelium-intact rings precontracted with phenylephrine 10(-6) M, dose-response curves for acetylcholine (10(-9) to 10(-5) M) and calcium ionophore (10(-9) to 10(-6) M) were generated in the presence and absence of etomidate (5 x10(-6) 10(-5) M). In endothelium-intact or -denuded rings precontracted with phenylephrine 10(-6) M, sodium nitroprusside (10(-9) to 10(-6) M) dose-response curves were generated in the presence and absence of etomidate (10(-5)M). Etomidate (5 x10(-6), 10(-5)M) produced a significant rightward shift in the dose-response curves induced by acetylcholine (receptor-mediated endothelium-dependent agonist) and calcium ionophore A23187 (non receptor-mediated endothelium-dependent agonist). Etomidate (10(-5)M) had no effect on sodium nitroprusside (endothelium-independent nitric oxide donor)-induced vasorelaxant response in both endothelium-intact and -denuded rings. These results indicate that etomidate at clinically relevant concentrations attenuates endothelium-dependent relaxation induced by acetylcholine by an acting at a site distal to the endothelial muscarinic receptor, but proximal to guanylate cyclase activation of vascular smooth muscle in rat aorta.     

Contractant and relaxant properties of the female rabbit urethral submucosa

Isolated submucosal (lamina propria) preparations from the female rabbit urethra exhibited both contractant and relaxant properties. The nerve-mediated contraction to electrical field stimulation was adrenergic in nature, and both this response and the contraction induced by exogenous application of noradrenaline were blocked to a greater extent by alpha 2 than by alpha 1-adrenoceptor blocking agents. Vasoactive intestinal polypeptide was found to be a potent inhibitor of the noradrenaline-mediated contraction. Neuropeptide Y induced contraction of the preparation, but also inhibited the nerve-mediated contractant response. In noradrenaline-contracted preparations, electrical field stimulation induced a non-adrenergic, non-cholinergic relaxation. The maximum relaxant response was significantly greater when the preparations were contracted by clonidine than by noradrenaline. Abundant smooth muscle cells with no obvious connection to vessel walls were found in the submucosa, but to what extent the contractant and relaxant responses can be ascribed to vascular or non-vascular smooth muscle is not settled. The results indicate a non-uniform distribution of the peripheral nervous control within the wall of the female rabbit urethra. The demonstrated contractant and relaxant properties of the submucosal tissue might be of importance for urethral function.