Relaxant effect of diallyl sulfide on nonpregnant rat uterus: Involvement of voltage-dependent calcium channels.

AIM: We aimed to determine the effect and mechanism of action of diallyl sulfide (DAS), an active component of sulfur-containing foods such as garlic on rat uterine activity. METHODS: Isometric tension changes in longitudinal uterine strips obtained from 20 female Sprague-Dawley rats (250-300 g) in estrus stage of estrous cycle were studied in isolated organ baths containing Krebs-Henseleit solution. RESULTS: Diallyl sulfide (10-8 -10-6 M) caused a concentration-dependent relaxation on KCl (60 mM)-induced contractions and inhibited spontaneous peristaltic activity of uterine strips (P < 0.05). None of the following antagonists significantly changed the inhibitory effect of DAS on both KCl-precontracted uterine strips and spontaneous peristaltic activity of the uterus (P > 0.05): nitric oxide synthase inhibitor L-NAME (10-4 M), hydrogen sulfide-producing enzymes cystation ß synthase and cystation γ-lyase inhibitors, aminooxyacetic acid (10-4 M) and propargylglycine (10-3 M) and nonselective cyclooxygenase inhibitor indomethacin (10-4 M). However, in calcium-free Krebs solution containing high KCl (30 mM), DAS significantly inhibited CaCl2 (10-5 -10-2 M)-induced uterine contractions in a concentration-dependent manner (P < 0.05). CONCLUSION: Diallyl sulfide has a relaxing effect on KCl-contracted rat uterus strips and an inhibitory effect on spontaneous uterine activity, possibly by decreasing the calcium influx into the cytoplasm of uterine smooth muscle cells.

Vascular responses of aortic, renal, and uterine arteries in suramin-induced preeclampsia-like syndrome in rats

Background/aim: Suramin is a potent angiogenesis inhibitor in rodents and attenuates placental development in rat pregnancy. We aimed to produce preeclampsia-like syndrome by suramin administration in rats and to investigate the functional responses in aortic, renal, and uterine arteries. Materials and methods: Pregnant and nonpregnant wistar rats received suramin (100 mg/kg, intraperitoneal) or equal volume of saline on days 10 and 11. Blood pressures of rats were observed daily. On the day 20, rats were executed. Protein levels in urine were measured and fetuses, placentas, and kidneys were weighted and evaluated. Thoracic aorta, renal, and uterine arteries were removed for functional studies. Results: Increased blood pressures and proteinuria were detected in suramin-given pregnant rats. Pathological examination of kidneys showed an acute tubular injury after suramin injection. Numbers and weights of fetuses and placentas were reduced in suramin-given pregnant rats. In functional studies, endothelial dysfunction occurred in uterine and renal arteries but not in the aorta. In this study, we showed that preeclampsia-like syndrome occurred in suramin-given rats. Conclusion: Our findings, which show that endothelial dysfunction occurred in uterine and renal arteries but not in the aorta, are consistent with the human findings of microvascular changes in preeclampsia.

The Effect of Sumatriptan in Ischemic Conditions in the Rat Heart.

OBJECTIVES: The aim of this study was to investigate the effect of SUM on IR-induced injury in rat heart and its effect on IPC-induced protection. MATERIALS AND METHODS: The rats were randomly divided into four groups: IR, SUM-IR, IPC, and SUM-IPC. The mean arterial blood pressure and heart rate were recorded to calculate PRP. Standard limb lead 2 ECG were recorded to evaluate arrhythmia parameters. RESULTS: The PRP values in the SUM-IPC group were significantly lower than in the SUM-IR group at the beginning of reperfusion (p<0.05). The incidence of VT in the IPC, SUM-IR, and SUM-IPC groups was significantly lower than in the IR group (p<0.05). VF was only observed in the IR group. CONCLUSION: SUM protects the heart against IR injury but is not as protective as IPC alone. Although SUM diminishes IPC-induced protection against VT, the preventive effect of SUM against VF may be predictive for cardioprotection in ischemic conditions.

Propranolol-induced relaxation in the rat basilar artery.

Propranolol is a non-selective beta-adrenergic receptor blocker used in the treatment of cardiovascular diseases and migraine prophylaxis. Although it has been shown that propranolol dilates the peripheral arteries of rat, its action in the central nervous system vasculature has not been investigated. In this study, the effects of propranolol in rat basilar artery were investigated. Basilar arteries from male Wistar rats were examined in a myograph system. The relaxant effects of propranolol, pindolol, atenolol, pizotifen and methysergide were examined in basilar arteries precontracted by serotonin or PGF2α. Only propranolol and pizotifen induced vasorelaxations; the pD2 values were 5.23±0.13 and 5.94±0.03; respectively. The vasorelaxation induced by propranolol and pizotifen was not affected by endothelium or the presence of l-NOARG and/or indomethacin. The calcium channel blocking activity of propranolol and pizotifen was compared with that of nifedipine in a calcium free solution with high K(+) (60mM) concentration. These drugs shifted the concentration-response curves of calcium induced contractions with pA2 values of 5.45±0.04; 7.14±0.09; and 9.22±0.06 respectively. The P2Y receptor agonist UTP was used to induce sustained and stable contractions in basilar artery segments. Nifedipine caused a marked, but an incomplete relaxation. Cyclopiazonic acid, an inhibitor of sarcoplasmic reticulum calcium channels, but not propranolol or pizotifen abolished the remaining tonus after partial relaxations obtained with nifedipine. These results suggest that propranolol causes vasorelaxation by blocking the L-type voltage-gated calcium channels in the rat basilar artery.

Cyclosporine A-induced acute hepatotoxicity in guinea pigs is associated with endothelin-mediated decrease in local hepatic blood flow.

AIMS: To bring further insight into the mechanism of cyclosporine A (CsA)-induced hepatotoxicity, the acute effect of CsA on local hepatic blood flow (LHBF) and its association with systemic hemodynamics, histopathological and biochemical indicators of liver toxicity were studied in guinea pigs in vivo. The association of endothelin (ET) and/or Cremophor-EL (C-EL, vehicle in parenteral CsA preparation) with CsA effects was also investigated. MAIN METHODS: Animals were assigned into five groups; control, CsA, C-EL, Bosentan (non-selective ET receptor antagonist)+CsA, and BQ-123 (ET(A) receptor antagonist)+CsA. CsA was infused intravenously (i.v.) at 20 and 10mg/kg doses by 15 min interval. Antagonists were administered 15 min before CsA infusion. LHBF and mean arterial blood pressure (MAP) changes were simultaneously recorded. Blood and liver samples were collected for biochemical and histopathological examinations. KEY FINDINGS: CsA, but not C-EL, decreased LHBF by 53.3% at the end of 30 min. Although being non-significant, CsA slightly increased MAP suggesting that, CsA-induced acute decrease in LHBF was likely independent of MAP changes. Bosentan (5mg/kg, i.v.) and BQ-123 (1mg/kg, i.v.) pre-treatments prevented the CsA-induced decrease in LHBF suggesting that CsA decreases LHBF through an ET-related mechanism. Additionally, CsA, but not its vehicle C-EL, caused marked acute pathological changes in the liver morphology. SIGNIFICANCE: CsA-induced findings of acute hepatotoxicity were prevented by bosentan and BQ-123 pre-treatments. Thus, CsA seems to exert acute hepatotoxic effect through ET-related mechanisms.

Nebivolol has protective effect against endothelial and ileal dysfunction due to I/R.

In this study, two enantiomers of the drug, L-nebivolol and racemic nebivolol, were used to measure and compare their ability to prevent endothelial dysfunction, disturbed ileal contractility, and ileal injury induced by I/R. The superior mesenteric artery of male Sprague-Dawley rats was occluded for 45 min to induce ischemia, and then the clamp was removed for 60-min reperfusion. Drugs or saline were administered prior to the surgical procedure in the I/R and sham-operated groups. Vasodilation in the third branch of the mesenteric artery was evaluated with a myograph system. Isometric contractions of the ileal segments in response to acetylcholine or electrical field stimulation (EFS) (120 V, 2-ms pulse duration for 5 s, 1-20 Hz) were recorded on a polygraph. Additionally, the ileal segments were examined histopathologically. Acetylcholine-induced relaxation of the mesenteric artery, precontracted by submaximal phenylephrine, markedly decreased after I/R. L-nebivolol pretreatment reversed this relaxation, but racemic nebivolol did not. Contractions induced by both acetylcholine and EFS were significantly reduced after I/R. L-nebivolol, but not racemic nebivolol, prevented this reduction in the acetylcholine-induced contractions. I/R-induced reduction was prevented by L-nebivolol only in response to EFS of 20 Hz. Intestinal I/R caused severe ischemic injury in the rat ileum, which was prevented by L-nebivolol, but not racemic nebivolol. Control responses were not affected by L-nebivolol or racemic nebivolol. These results suggest that L-nebivolol had a protective effect against both endothelial dysfunction of the mesenteric artery and ileal injury induced by intestinal I/R; however, similar effects were not observed for racemic nebivolol.

Endothelial dysfunction in the mesenteric artery and disturbed nonadrenergic noncholinergic relaxation of the ileum due to intestinal ischemia-reperfusion can be prevented by sildenafil.

The aim of the present study was to evaluate the effects of sildenafil on endothelium-dependent mesenteric artery vasorelaxation and nonadrenergic noncholinergic (NANC) ileal responses in an experimental rat intestinal ischemia-reperfusion (I/R) model. The superior mesenteric artery was occluded for 45 min of ischemia and then the clamp was removed for 60 min of reperfusion. Sildenafil (1 mg/kg, i.v.) or saline was administered prior to surgery in the I/R and sham-operated groups. Acetylcholine-induced relaxation of the mesenteric arteries, which were precontracted via submaximal phenylephrine, decreased markedly after I/R. Sildenafil pretreatment reversed the acetylcholine-induced relaxation. In the ileum, NANC responses were significantly attenuated following I/R, which were increased by sildenafil pretreatment. These results indicate that pretreatment with sildenafil prevented both endothelial dysfunction in the mesenteric artery and impairment of ileal NANC responses in a rat intestinal I/R model.

The effects of sildenafil on the functional and structural changes of ileum induced by intestinal ischemia-reperfusion in rats.

There is evidence demonstrating the protective effect of cGMP-specific phosphodiesterase type 5 (PDE5) inhibitors against ischemic injury in certain tissues. In this study, sildenafil, a potent inhibitor of PDE5, was tested for its beneficial effects in the prevention of disrupted ileal contractility and damage to tissue caused by intestinal ischemia-reperfusion in rats. Male Sprague-Dawley rats were divided into four groups: sham-operated; sham-operated with sildenafil pretreatment; ischemia-reperfusion with vehicle pretreatment; and ischemia-reperfusion with sildenafil pretreatment. The superior mesenteric artery was occluded for 45 min to induce ischemia. The clamp was then removed for a 60 min period of reperfusion. Sildenafil (1 mg/kg, i.v.) or saline was administered prior to the surgical procedure in the ischemia-reperfusion and sham-operated groups. Isometric contractions of the ileal segments in response to acetylcholine or electrical field stimulation (120 V, 2 ms pulse for 5 s, 1-20 Hz) were recorded. Additionally, levels of thiobarbituric acid reactive substances and myeloperoxidase activity were measured in addition to a histopathological examination of the ileal tissue. The contractions induced by both acetylcholine and electrical field stimulations were markedly inhibited after ischemia-reperfusion. Sildenafil pretreatment (1 mg/kg, i.v.) abolished the inhibition of responses to acetylcholine. The increased levels of thiobarbituric acid reactive substances and myeloperoxidase activity caused by ischemia-reperfusion were reversed to control levels with sildenafil pretreatment. Intestinal ischemia-reperfusion caused severe ischemic injury in rat ileum, which was prevented by sildenafil. These results suggest that sildenafil pretreatment has a protective effect against ileal dysfunction and damage induced by intestinal ischemia-reperfusion in the rat.

Short-term and long-term FK506 treatment alters the vascular reactivity of renal and mesenteric vascular beds.

The aims of this study were to investigate the role of endothelin-1 in FK506-induced hypertension and vascular dysfunction of rats treated with the drug for 8 (short-term) or 30 (long-term) days and to measure malondialdehyde levels in the kidneys. Kidney and mesentery of rats were perfused. In the short-term treated groups, there was no significant change in systolic blood pressure. The response to noradrenaline only in renal vascular beds was significantly increased by FK506 and this increase was prevented by Bosentan. FK506 had no significant effect on sodium nitroprusside-induced vasodilation in comparison with solvent in both vascular beds. Bosentan failed to prevent these responses. In the long-term treated groups, at the end of the treatment with FK506, there was a significant increase in blood pressure, but no change in the response to noradrenaline in either kidneys or mesentery. The increase in blood pressure was prevented by bosentan treatment. FK506 increased malondialdehyde levels in the kidneys of the rats from only the long-term treated groups. Bosentan did not change this increase. Our results indicated that endothelin-1 plays a key role in the FK506-induced change in vascular reactivity to noradrenaline in renal vascular beds and drug-induced hypertension in the rats. There was no relationship between oxidative stress and FK506-induced hypertension.

The role of nitric oxide in the electrical field stimulation-induced contractions of sphincter of oddi and gallbladder strips in Guinea pigs.

The aim of this study was to investigate the modulatory role of nitric oxide (NO) in the electrical field stimulation (EFS)-induced contractions of isolated sphincter of Oddi (SO) and gallbladder strips from guinea pigs. EFS was used to activate the intrinsic nerves in SO and gallbladder strips. EFS produced frequency-dependent biphasic contractile responses in the SO strips. A smaller contraction, "on response", occurred during EFS, which was followed by a bigger contraction, "off response". Both responses were completely and irreversibly abolished by tetrodotoxin (TTX) (10(-6) M). Atropine (10(-6) M) inhibited the "on response", but not the "off response". EFS produced frequency-dependent monophasic contractile responses in gallbladder strips, which were completely and irreversibly abolished by TTX (10(-6) M) and atropine (10(-6) M). A nitric oxide synthase (NOS) inhibitor, NG-nitro-L-arginine (10(-4) M and 3 x 10(-4) M, in SO and gallbladder strips, respectively), significantly increased all EFS-induced contractions of SO and gallbladder strips. L-Arginine, but not D-arginine reversed the effect induced by the NOS inhibitor, at all frequencies, in both strips. These results suggested that NO released from nitrergic nerve endings might play a regulatory role in the cholinergic neurotransmission of guinea pig SO and gallbladder strips. The "off response" in he SO preparations might be a rebound increase that was modulated by the nonadrenergic, noncholinergic inhibitory mediator NO.

Both endothelium and afferent nerve endings play a role in acetylcholine-induced renal vasodilation.

We investigated the nature and signaling pathways of endothelium- and sensory-nerve ending-derived substances involved in acetylcholine-induced vasodilation in rat isolated perfused kidney. Endothelial denudation by Triton X-100 (0.2%, 0.1 ml) or depletion of afferent nerve endings by capsaicin (10(-6) mol/l) attenuated acetylcholine-induced vasodilation. When these two agents were administered together, the response to acetylcholine was completely inhibited. CGRP1 receptor blocker CGRP 8-37 (10(-7) mol/l) and adenosine A(2) receptor antagonist ZM 241 385 (10(-7) mol/l) inhibited acetylcholine-induced dilation. When indomethacin (10(-5) mol/l), a cyclooxygenase inhibitor, l-NOARG (10(-4) mol/l), a nitric oxide (NO) synthase inhibitor, and potassium chloride (30 mmol/l), to test EDHF response, were perfused simultaneously, the inhibition was greater than that was observed with each agent alone. Guanylate cyclase inhibitor ODQ (10(-5) mol/l) or protein kinase A inhibitor KT 5720 (5x10(-7) mol/l) inhibited acetylcholine-induced dilation. Gap junction uncoupler 18alpha-glycyrrhetinic acid (10(-4) mol/l) caused an uncontrollable increase in basal perfusion pressure making it impossible to test against acetylcholine-induced dilation. Our data suggest that NO, prostanoids, EDHF, and CGRP released from vascular endothelium and afferent nerve endings participate in acetylcholine-induced vasodilation and their signal transduction molecules include protein kinase A and guanylate cyclase.

The role of endothelin in FK506-induced vascular reactivity changes in rat perfused kidney.

Tacrolimus (FK506) is an immunosuppressant agent that is widely used in transplanted patients. The aim of this study was to investigate the role of endothelin in the acute effects of FK506 on the vascular reactivity in perfused isolated rat renal and mesenteric vasculature. Left kidney/mesentery of male Wistar rats (230-300 g) were perfused by a constant flow and perfusion pressure was recorded. The responses to noradrenaline and sodium nitroprusside were obtained both in the absence and presence of FK506 (10(-7) M) or polyoxyethylene hydrogenated castor oil 60 (HCO-60 and solvent of the drug at equivalent concentrations). FK506 significantly increased the noradrenaline-induced vasoconstrictor responses in renal, but not in mesenteric vascular beds. Bosentan (10(-5) M), a nonselective endothelin ET-1 receptor antagonist given by perfusion, reversed the increase in noradrenaline responses in the kidney. Sodium nitroprusside-induced vasodilator responses in both renal and mesenteric vascular beds were significantly decreased by FK506. However, in renal vasculature, there was no significant difference between the inhibitory effects of FK506 and HCO-60, although the effect of the solvent was not significantly different from that of the control. While in the mesenteric bed, the solvent significantly inhibited nitroprusside-induced vasodilation, similar to that of FK506. The effect of FK506 on vasodilation in both vascular beds was not reversed by bosentan. Our results indicated that FK506 increased the reactivity of the renal vascular bed to noradrenaline through endothelin ET-1 receptor activation. The mechanism of impaired vasodilation due to FK506 appears to be due to its solvent action and is independent of endothelin release.

Influence of estradiol pretreatment on antimuscarinic action of oxybutynin in rat detrusor muscle.

OBJECTIVES: To investigate the antimuscarinic effect of oxybutynin in the rat detrusor muscle after estrogen pretreatment because, to our knowledge, no study has been done on the interaction of estrogen with antimuscarinic drugs. Estrogen has been shown to affect muscarinic receptors in the detrusor muscle of animals. In addition, oxybutynin has been shown to block muscarinic receptors in the bladder. METHODS: Estradiol benzoate (150 microg/kg) or saline was given subcutaneously to virgin female Wistar albino rats (n = 6, each group) for 10 consecutive days. On the 11th day, isolated detrusor muscle strips were taken, and acetylcholine (ACh)-induced contractions were evaluated in the absence or presence of oxybutynin (10 and 100 nM). RESULTS: ACh induced concentration-dependent contractions in the detrusor muscle. In the estradiol-pretreated group, the maximum of the ACh-induced contractions was diminished compared with that in the control group (P < 0.05). Oxybutynin (10 and 100 nM) inhibited ACh-induced contractions competitively (pK(B) 8.85). In the estradiol-pretreated group, the concentration-response curve to ACh was shifted further to the right in the presence of oxybutynin (100 nM). CONCLUSIONS: We have demonstrated for the first time that oxybutynin further inhibits ACh-induced and muscarinic receptor-mediated contractions in rat detrusor muscle after pretreatment with estrogen.

Involvement of endothelin and nitric oxide in cyclosporine A-induced contractions in guinea pig isolated gallbladder strips.

The involvement of endothelin (ET), ET(A) receptors and nitric oxide (NO) in the contractions induced by cyclosporine A (CyA) were investigated in guinea pig isolated gallbladder strips. Both BQ-123, a selective ET(A) receptor antagonist, and phosphoramidon, an ET converting enzyme inhibitor, inhibited the contractile responses to the parenteral and oral CyA preparations, whereas l-NOARG, a NO synthase inhibitor, potentiated these contractions. Additionally, the pattern of the concentration-dependent contractions in response to ET-1 was similar to that of CyA preparations in gallbladder strips. Both bosentan, a non-selective ET receptor antagonist, and BQ-123 inhibited the ET-1-induced contractions. These findings suggest that an ET-1-mediated mechanism contributes to the contractile response to CyA preparations in guinea pig isolated gallbladder strips. ET(A) receptor activation is likely to be involved in this process. We also speculate that CyA-induced stimulation of NO production might act as a counter-regulatory mechanism in the effect of CyA preparations in this tissue.

Mechanism of CGRP-induced vasodilation in the rat isolated perfused kidney.

We investigated the intracellular mechanisms involved in calcitonin gene-related peptide (CGRP)-induced vasodilation in rat isolated perfused kidney. CGRP-1 receptor antagonist, CGRP-8-37, abolished the responses. Endothelial denudation by Triton X-100 or nitric oxide (NO) synthase inhibition by NG-nitro-L-arginine attenuated the maximum dilation by about 63 and 55%, respectively. Protein kinase A inhibitor, KT-5720, caused an about 72% inhibition in CGRP-induced maximum dilation. Soluble guanylate cyclase inhibitor, ODQ, and ATP-sensitive potassium channel blocker, glibenclamide, inhibited the CGRP-induced maximum responses by 75 and 55%, respectively. Cyclooxygenase inhibitor, indomethacin, had no effect. Our data suggest that CGRP-1 receptors, endothelium, NO synthase, protein kinase A, soluble guanylate cyclase, and ATP-sensitive potassium channels, but not the cyclooxygenase pathway, may play a role in CGRP-induced vasodilation in rat isolated perfused kidney.

Mechanism of action of the cisapride-induced vasodilatation in renal vasculature of rat.

BACKGROUND & OBJECTIVES: Cisapride is a prokinetic agent with cholinomimetic and 5-HT4 receptor agonistic properties. It has been proposed that cisapride-induced hypotension is partly mediated by cholinergic system. The aim of this study was to investigate the mechanism of cisapride-induced dilatation in the rat isolated perfused kidney. METHODS: Left kidneys of Wistar rats were isolated and perfused via renal artery and the perfusion pressure was recorded. Cisapride given as bolus injections (10(-10)-3x10(-5) mol/l) produced dose-dependent dilatations. Perfusion of antagonists or inhibitors was started 30min before the onset of phenylephrine perfusion. RESULTS: 4-Diphenylacetoxy-N-methylpiperidine methiodide (4-DAMP; blocker of M1, and M3 muscarinic receptors; 10(-7) mol/l) inhibited the responses to the lower doses of cisapride while, dextran (10(-7) mol/l), glibenclamide (inhibitor of ATP-sensitive potassium channels; 10(-5) mol/l) and capsaicin (for neuromediator depletion; 10(-6) mol/l) inhibited those to the higher doses. Dilatations induced by most of the doses of cisapride were inhibited by atropine (non-selective muscarinic receptor antagonist; 10(-7) mol/l), methylene blue (inhibitor of soluble guanylate cyclase; 10(-5) mol/l), 1H-[1,2,4] oxadiazolo-[4,3-a] Quinoxalin-1-One (ODQ; inhibitor of soluble guanylate cyclase; 10(-5) mol/l), and NG-nitro-L-arginine (L-NOARG; NO synthase inhibitor; 10(-4) mol/l). Inhibition induced by L-NOARG was reversed by L-arginine (10(-3) mol/l). The dilatation induced by cisapride was not affected by GR113808 (5-HT4 receptor antagonist; 10(-7) mol/l) and indomethacin (cyclooxygenase inhibitor; 10(-5) mol/l). INTERPRETATION & CONCLUSION: The findings indicated that cisapride caused vasodilatation through the release of nitric oxide (NO) as a result of the release of a substance acting on muscarinic receptors, in the renal vascular bed of the rat. The role of 5-HT4 receptors and prostanoids seemed unlikely.

Calcium-antagonistic activity of sumatriptan in the rat anococcygeus muscle.

The relaxant effect of sumatriptan, a 5-HT(1B/1D) receptor agonist, on the rat anococcygeus muscle was investigated. Sumatriptan induced concentration-dependent relaxations of the phenylephrine-precontracted rat anococcygeus muscle. N(G)-nitro-L-arginine, methylene blue, glibenclamide, tetrodotoxin, indomethacin, GR 113808, GR 55562, methysergide, ketanserin, ICS 205930, clozapine, methiothepin, metergoline, mesulergine, and ritanserin did not inhibit the relaxations induced by sumatriptan. Sumatriptan converted calcium-induced contractions into relaxations in the preparations depolarized by a calcium-free, high-potassium solution. In membrane preparations obtained from the rat anococcygeus muscle, the basal rate of cAMP production by adenylate cyclase was 4.77 +/- 0.02 pmol/mg protein/min (n = 15). The enzyme activity was increased to 104 +/- 51.7 pmol/mg protein/min by forskolin (10(-4) mol/l), but did not change in the presence of sumatriptan. The mRNA expression of 5-HT(1B), 5-HT(1D), and 5-HT(7) receptors was not observed in the rat anococcygeus muscle. The results indicate that sumatriptan causes relaxation of the precontracted rat anococcygeus muscle by a calcium-antagonistic activity.