Hiroshi Seshita

Age-related changes in cholinergic and purinergic neurotransmission in human isolated bladder smooth muscles.

We evaluated the correlation among age, cholinergic and purinergic neurotransmissions in the electrical field stimulation-induced contractions in human isolated urinary bladder smooth muscles, using the muscle bath technique. Human bladder specimens were divided into three groups (G1, under 50years; G2, 51-70years; G3, over 70years old), and each muscle strip was suspended in a thermostatically controlled organ bath filled with oxygenated Krebs-Henseleit solution, connected to an isometric force displacement transducer, and an isometric tension development was recorded. The contractile responses induced by KCl, carbachol, adenosine triphosphate (ATP) and electrical field stimulation, and the effects of atropine and alpha, beta methylene ATP on electrical field stimulation-induced contractions were observed. The contractile response to KCl and concentration-response curves for carbachol and ATP, and frequency-response curves for electrical field stimulation were not significantly different among the three groups. The atropine sensitive and resistant parts of contraction induced by electrical field stimulation were decreased and increased with age, respectively. There are significant positive and negative correlations between age and the purinergic, and age and the cholinergic neurotransmissions in human isolated bladder smooth muscles, respectively. The age-related changes in neurotransmissions may contribute to the changes in bladder function in the elderly.

Pharmacological effects of tolterodine on human isolated urinary bladder

Tolterodine, (R)-N,N-diisopropyl-3-(2-hydroxy-5-methylphenyl)-3-phenylpropanamine+ ++, is an antimuscarinic drug developed for the treatment of overactive bladder with symptoms of frequency, urgency and urge incontinence. We investigated the effects of tolterodine and its major active metabolite, DD 01 (PNU-200577), (R)-N,N-diisopropyl-3-(2-hydroxy-5-hydroxymethylphenyl)-3-phenylpropa namine, on the contractions induced by carbachol, KCl, CaCl2 and electrical field stimulation in human isolated urinary bladder smooth muscles, using the muscle bath technique. Specimens of human urinary bladder were obtained from 20 patients who underwent total cystectomy due to malignant bladder tumor. The detrusor preparations were taken from the intact part of the dome region of the bladder. Carbachol (10(-9)-10(-2) M) caused concentration-dependent contraction of human detrusor smooth muscles. Tolterodine (10(-9)-10(-6) M), DD 01 (10(-9)-10(-6) M), oxybutynin (10(-8)-10(-6) M), propiverine (10(-8)-10(-6) M), atropine (10(-9)-10(-6) M), pirenzepine (10(-8)-10(-5) M), methoctramine (10(-8)-10(-5) M) and 4-diphenylacetoxy-N-methylpiperidine (4-DAMP) (10(-9)-10(-6) M) caused typical shifts to the right of the concentration-response curves for carbachol, except for higher concentrations (10(-5) M) of oxybutynin and propiverine, which caused a decrease of about 30% of the maximum contractile responses to carbachol. All the slopes of the regression lines of Schild plots were close to unity, and the rank order of pA2 values was: atropine = DD 01 = tolterodine = 4-DAMP = oxybutynin > propiverine = pirenzepine > methoctramine. Tolterodine (10(-9)-10(-6) M) and DD 01 (10(-9)-10(-6) M) did not inhibit the KCl-induced (80 mM) and CaCl2-induced (5 mM) contractions, while oxybutynin (10(-8)-10(-5) M) and propiverine (10(-8)-10(-5) M) significantly inhibited the contractions. Electrical field stimulation (2-60 Hz) caused frequency-dependent contraction of human detrusor smooth muscles, which were significantly inhibited by various drugs. In the presence of 10(-6) M atropine, tolterodine and DD 01 did not inhibit the residual contractions induced by electrical field stimulation at any of the frequencies, while oxybutynin (10(-5) M) and propiverine (10(-5) M) significantly inhibited the atropine-resistant part of the contractions. The results suggest that the inhibitory effects of tolterodine and DD 01 are mediated only by their antimuscarinic action, which is equal to that of oxybutynin and significantly greater than that of propiverine, and that tolterodine and DD 01 have neither Ca2+ channel antagonist action nor inhibitory effect on the atropine-resistant part of the contractions in human detrusor smooth muscles. These findings support the usefulness of tolterodine as a therapeutic drug for overactive bladder with symptoms of frequency, urgency and urge incontinence.

The possible effect of nitric oxide on relaxation and noradrenaline release in the isolated rabbit urethra

We evaluated the effects of N(omega)-nitro-L-arginine (L-NNA, a nitric oxide (NO) synthase inhibitor) and carboxy-2-phenyl-4,4,5,5-tetramethylimidazoline-1-oxyl 3-oxide (carboxy-PTIO, a NO scavenger) on NO-mediated relaxation and noradrenaline release from adrenergic nerve endings induced by electrical field stimulation in the rabbit urethra. Electrical field stimulation caused frequency-dependent relaxation of rabbit urethral smooth muscles precontracted with phenylephrine. The relaxation responses were significantly inhibited by treatment with L-NNA or carboxy-PTIO. The inhibitory effect of carboxy-PTIO was significantly weaker than that of L-NNA. Electrical field stimulation caused significant noradrenaline release from adrenergic nerve endings in the rabbit urethra. Treatment with carboxy PTIO enhanced electrical field stimulation-induced noradrenaline release, and simultaneous application of L-NNA and carboxy-PTIO did not further enhance noradrenaline release in the rabbit urethra. As carboxy-PTIO reacts only with the free radical NO, the present results suggest that free radical NO and NO-containing compounds are involved in the L-NNA-sensitive nitrergic nerve-mediated relaxation in the rabbit urethra. At the same time free radical NO has a prejunctional action by which it may inhibit noradrenaline release from adrenergic nerves.

Prejunctional Muscarinic Receptors Modulating Acetylcholine Release in Rabbit Detrusor Smooth Muscles

We investigated the presence and subtypes of functionally prejunctional receptors in cholinergic nerve endings of rabbit detrusor smooth muscle strips using high-performance liquid chromatography coupled with a microdialysis procedure. The effects of pretreatment with various drugs on acetylcholine (ACh) release and contractile responses induced by electrical field stimulation were evaluated. Although atropine (a muscarinic nonselective antagonist) and 4-DAMP (a muscarinic M3 antagonist) did not influence the ACh release, they markedly reduced the contractile responses. Pirenzepine (M1 antagonist) decreased ACh release and contractile responses. Methoctramine (M2 antagonist) increased the ACh release, but did not influence to the contractile responses. These results suggest that the muscarinic receptors in the rabbit detrusor smooth muscle are heterogeneous, prejunctional facilitatory (M1 receptors), and inhibitory (M2 receptors) for ACh release and postjunctional M3 receptors mediating contractile responses.

The effect of nitric oxide on acetylcholine release in the rabbit bladder.

We evaluated the effects of nitric oxide (NO) on acetylcholine release and the contractile response induced by electrical field stimulation in rabbit bladder smooth muscles using a muscle bath and high performance liquid chromatography coupled with microdialysis. Electrical field stimulation (supramaximum voltage, pulse duration 0.5 ms, frequency 5 and 20 Hz) was applied to a smooth muscle strip isolated from rabbit bladder. With low-frequency (5 Hz) stimulation, pretreatment with Nomega-nitro-L-arginine (L-NNA) (100 microM) significantly increased electrical field stimulation-induced acetylcholine release and contractile response, which were reduced by the addition of L-arginine. Pretreatment with sodium nitroprusside in the absence or presence of L-NNA significantly decreased electrical field stimulation-induced acetylcholine release and contractile response. In contrast, with high frequency (20 Hz) stimulation, pretreatment with L-NNA and sodium nitroprusside had no significant effect on either contractile response or acetylcholine release. Pretreatment with sodium nitroprusside caused no significant changes in carbachol and ATP-induced contractile responses. Sodium nitroprusside and L-NNA had no significant effects on the atropine-resistant part of the contraction induced by electrical field stimulation in rabbit bladder smooth muscles. The results suggest that there is a NO-mediated mechanism inhibiting acetylcholine release from cholinergic nerve endings in rabbit bladder, which may contribute to bladder function.

Effects of ovarian hormones on β-adrenergic receptor-mediated relaxation in the female rabbit bladder

Abstract The effects of ovarian hormones on β-adrenergic receptor-mediated responses in female rabbit detrusor smooth muscles were investigated. Ovariectomized mature female New Zealand white rabbits were untreated or treated with estrogen and/or progesterone for 2 weeks. The contractile responses to carbachol and KCl in the detrusor strips were not significantly different in all groups. As compared with dobutamine and GS-332, isoproterenol and procaterol significantly relaxed the detrusor strips derived from all groups on KCl-induced tonic contractions. Combined with estrogen treatment, isoproterenol, procaterol and GS-332 caused a significant increase in this muscle relaxation. Furthermore, estrogen treatment caused a significant increase in relaxation as a result of forskolin and the cyclic AMP (cAMP) production that was induced by isoproterenol, procaterol and GS-332. However, estrogen treatment did not affect the relaxant response to dibutyryl cyclic AMP. Progesterone treatment did not affect β-adrenergic receptor-mediated responses. These results suggest that estrogen treatment causes the increased relaxant responses mediated by β2- and β3-adrenergic receptor subtypes, which may be related to the increased cAMP content in female rabbit detrusor smooth muscles.

Effect of the NO scavenger carboxy-PTIO on endothelium-dependent vasorelaxation of various blood vessels from rabbits

In the present study, we investigated the effect of a nitric oxide (NO) scavenger, 2-(4-carboxyphenyl)-4,4,5,5-tetramethylimidazoline-1-oxyl 3-oxide [carboxy-PTIO], on endothelium-dependent relaxation of a series of blood vessels from rabbits, such as thoracic aorta and femoral, renal, mesenteric, and pulmonary arteries, using a functional muscle bath technique. Carboxy-PTIO produced concentration-dependent contractions in various vessels. The contractile responses in renal, mesenteric, and pulmonary arteries were significantly greater than those in the aorta and femoral artery. Similarly, phenylephrine-induced contractions in renal, mesenteric, and pulmonary arteries were markedly enhanced after pretreatment with carboxy-PTIO. Also, carboxy-PTIO inhibited acetylcholine-induced relaxation in various blood vessels. The maximum inhibitions in aorta and femoral artery were significantly greater than those in renal, mesenteric, and pulmonary arteries. The present data demonstrate that carboxy-PTIO reduces basal, phenylephrine-, and acetylcholine-induced release of NO in rabbit blood vessels. However, different degrees of inhibition of endothelium-dependent vasorelaxation were observed in various vessels. Specifically, the thoracic aorta and femoral artery are less susceptible to the action of carboxy-PTIO without acetylcholine than renal, mesenteric, and pulmonary arteries. Conversely, the most potent carboxy-PTIO-induced inhibition of acetylcholine-induced vasorelaxation was observed with aorta and femoral arteries. Thus, it is suggested that the contribution of endogenous NO to vascular tone and regional blood flow may vary among different rabbit blood vessels.

Prejunctional α-adrenoceptors regulate nitrergic neurotransmission in the rabbit urethra

Abstract We evaluated the effects of prejunctional α-adrenoceptors on nitric oxide (NO)-mediated urethral relaxation in rabbits using a muscle bath technique and high-performance liquid chromatography coupled with a microdialysis procedure. The amount of NO 2 − /NO 3 − released during electrical field stimulation was measured by an NO 2 − /NO 3 − analyzer based on the Griess method. Pretreatment with phenylephrine (0.01 μM) and yohimbine (0.1–10 μM) significantly reduced the relaxation responses induced by electrical field stimulation. In contrast, pretreatment with clonidine (0.01 μM) and prazosin (0.01–1 μM) enhanced the relaxation responses. Cys-NO-induced relaxations of rabbit urethral smooth muscle were not affected by pretreatment with α-adrenoceptor agonists and antagonists. The amount of NO 2 − /NO 3 − released by electrical field stimulation increased after pretreatment with clonidine (0.01 μM) and prazosin (0.01–1 μM), but decreased after pretreatment with phenylephrine (0.01 μM) and yohimbine (0.1–10 μM). The results suggest that the release of NO from nitrergic nerves in the rabbit urethra is reduced and increased by stimulation of prejunctional α 1 - and α 2 -adrenoceptors, respectively.

Measurement of acetylcholine released from rabbit detrusor smooth muscle using HPLC with electro-chemical detection coupled with microdialysis procedure.

We measured the amount of acetylcholine (ACh) released from rabbit detrusor smooth muscles induced by electrical field stimulation (EFS) using microdialysis procedure. The dialysis probe was inserted through the detrusor muscle strip and was continuously perfused with a Ringer solution containing physostigmine sulfate, at a rate of 2 microl/min. The strip was suspended in an organ bath filled with the modified Krebs-Henseleit solution and then EFS was delivered. The isometric force was recorded and monitored in each muscle preparation. The dialysates were collected every 10 min. ACh was determined by a high performance liquid chromatography with electro-chemical detection. The contraction of the muscle strip and ACh release induced by EFS were increased in a frequency and duration dependent manner. There were some differences between frequency response curves of contraction and frequency dependent ACh release. In the contractile response, the maximum contractions were observed at lower frequencies, while ACh releases reached the maximum at higher frequencies. There was a significant, but not simple correlation between EFS-induced contraction and ACh release. The results suggest that this new method is useful to investigate the ACh release from rabbit detrusor smooth muscles, and that other neurotransmitters than ACh possibly contribute to EFS-induced contraction.

Direct measurement of acetylcholine release in detrusor smooth muscles isolated from rabbits

Abstract In the present study, we measured acetylcholine (ACh) released from rabbit detrusor smooth muscle strips induced by electrical field stimulation (EFS) using high-performance liquid chromatography coupled with microdialysis procedure. There were frequency- and duration-dependent increases in contractile response and ACh release. There was a significant, but not simple correlation between EFS-induced contraction and ACh release. Atropine caused a decrease and increase in the contractile response and ACh release, respectively. Pretreatment with propranolol increased ACh release, but pretreatment with phentolamine had no significant effect. These results demonstrate that this method is applicable to direct measurement of ACh release by EFS, and that neurotransmitters other than ACh may relate to EFS-induced contraction. In addition, it is suggested that there are prejunctional inhibitory muscarinic receptors and beta-adrenoceptors, which contribute to ACh release induced by EFS in the rabbit detrusor smooth muscles.