Home  About us  Contact
 

Circular Smooth Muscle (circular + smooth_muscle)

Distribution by Scientific Domains
Medical Sciences80%

Terms modified by Circular Smooth Muscle

  • circular smooth muscle cell
    		•

    Selected Abstracts

    The role of carbon monoxide in the gastrointestinal tract

    THE JOURNAL OF PHYSIOLOGY, Issue 2 2004
    Simon J. Gibbons
    Carbon monoxide (CO) is a biologically active product of haem metabolism that contributes to the normal physiology of the gastrointestinal tract. In this article, we review recent data showing that CO is an integral regulator of gastrointestinal motility and an important factor in the response to gastrointestinal injury. CO is generated by haem oxygenase-2 (HO-2), which is constitutively expressed in many inhibitory neurones of the vertebrate enteric nervous system. The membrane potential gradients along and across the muscle layers of the gastrointestinal tract require the generation of CO by haem oxygenase-2. The presence of CO is also necessary for normal inhibitory neurotransmission in circular smooth muscle and appears to permit nitric oxide-mediated inhibitory neurotransmission. Genetic deletion of the haem oxygenase-2 gene in mice slows gut transit. The other major CO synthetic enzyme, haem oxygenase-1 (HO-1) is induced under conditions of stress or injury. Recent studies have demonstrated that up-regulation of haem oxygenase-1 protects the gut from several types of gastrointestinal injury, suggesting that CO or induction of HO-1 may find therapeutic use in gastrointestinal diseases and injuries. Furthermore, it is anticipated that the understanding of CO-mediated signalling in the gastrointestinal tract will inform studies in other tissues that express haem oxygenases. [source]

    Alpha1A/L -adrenoceptors mediate contraction of the circular smooth muscle of the pig urethra

    AUTONOMIC & AUTACOID PHARMACOLOGY, Issue 4 2006
    K. Bagot
    Summary 1 Sympathetically mediated urethral tone is essential for the maintenance of continence and involves the activation of postjunctional ,1 -adrenoceptors. This study characterizes the ,1 -adrenoceptor subtypes responsible for mediating contraction of the urethral circular smooth muscle of the pig. 2 The potency order of a number of agonists and the affinities of several receptor selective antagonists were determined on pig-isolated circular smooth muscle strips in the presence of cocaine (1 ,m) and corticosterone (10 ,m) to inhibit amine uptake and propranolol (1 ,m) to antagonize , -adrenoceptors. 3 The potency order for agonists was N -[5-(4,5-dihydro-1H-imidazol-2yl)-2-hydroxy-5,6,7,8-tetrahydronaphthalen-1-yl]methanesulphonamide (A61603) > noradrenaline = phenylephrine = M6434 > methoxamine with pEC50 values of 7.3, 5.8, 5.7, 5.6 and 5.0 respectively. 4 The ,1D -adrenoceptor-selective antagonist 8-[2-[4-(2-methoxyphenyl)-1-piperazinyl]ethyl]-8-azaspiro[4,5]decane-7,9-dione (BMY7378) caused rightward shifts of the concentration,response curves to noradrenaline, yielding a low affinity estimate (6.6) for the urethral receptor. The ,1A -adrenoceptor-selective antagonists, RS100329 and 5-methylurapidil, gave relatively high affinity estimates (9.6 and 8.8 respectively) for this receptor. All three antagonists produced Schild plots with slopes close to unity but did reduce maximum responses at higher concentrations. Prazosin antagonized responses of the urethra to noradrenaline, yielding a mean affinity estimate of 9.0. Although the Schild plot for prazosin again had a slope of unity, this drug also reduced maximum responses to noradrenaline at all concentrations examined (10,100 nm). N -[2-(2-cyclopropylmethoxyphenoxy)ethyl]-5-chloro- ,,, -dimethyl-1H-indole-3-ethanamide (RS17053), which discriminates between responses mediated via ,1A (high affinity) and ,1L -adrenoceptors (low affinity) at concentrations up to 3 ,m, failed to antagonize responses of the urethra. 5 These results suggest that contraction of urethral circular smooth muscle in the pig is mediated via a single population of adrenoceptors with the pharmacological characteristics of the ,1A/L -adrenoceptor, most probably the ,1L -adrenoceptor. [source]

    Neurally released ATP mediates endothelium-dependent hyperpolarization in the circular smooth muscle cells of chicken anterior mesenteric artery

    BRITISH JOURNAL OF PHARMACOLOGY, Issue 7 2005
    Marwan Draid
    The object of the present study was to clarify the neurotransmitter(s) controlling membrane responses to electrical field stimulation (EFS) in the circular smooth muscle cells of first-order branches of chicken anterior mesenteric artery. EFS (five pulses at 20 Hz, 1 ms) evoked a hyperpolarization of amplitude ,21.6±1.2 mV, total duration 21.8±1.2 s and latency 641.7±81.9 ms. The response was tetrodotoxin-sensitive and nonadrenergic noncholinergic (NANC) in nature. The NANC response was blocked by the nonspecific purinergic antagonist, suramin, indicating that the response is mediated by the neurotransmitter adenosine 5,-triphosphate (ATP). Either desensitization or blockade of P2Y receptor with its putative agonist 2-methylthioATP (1 ,M for 30 min) or with its antagonist cibacron blue F3GA (10 ,M), respectively, abolished the purinergic hyperpolarization. PPADS at concentrations up to 100 ,M had no effect on the EFS-induced response, indicating that this response is mediated through P2Y, but not P2X, receptor. In addition, the response was completely abolished by two specific P2Y1 receptor antagonists, namely, MRS 2179 (300 nM) and A3P5PS (10 ,M). Removal of the endothelium abolished the purinergic hyperpolarization, which was converted, in some preparations, to a small depolarization, indicating that the hyperpolarizing response is endothelium-dependent. The present study suggests that in first-order branches of chicken anterior mesenteric artery, ATP released from perivascular nerves may diffuse to the endothelium-activating P2Y1 receptor to induce release of an inhibitory substance that mediates hyperpolarization in the circular smooth muscle. British Journal of Pharmacology (2005) 146, 983,989. doi:10.1038/sj.bjp.0706413 [source]

    Role of sarcoplasmic reticulum in control of membrane potential and nitrergic response in opossum lower esophageal sphincter

    BRITISH JOURNAL OF PHARMACOLOGY, Issue 6 2003
    Yong Zhang
    We previously demonstrated that a balance of Ca2+ -activated Cl, current (ICl(Ca)) and K+ current activity sets the resting membrane potential of opossum lower esophageal sphincter (LES) circular smooth muscle at ,,41 mV, which leads to continuous spike-like action potentials and the generation of basal tone. Ionic mechanisms underlying this basal ICl(Ca) activity and its nitrergic regulation remain unclear. Recent studies suggest that spontaneous Ca2+ release from sarcoplasmic reticulum (SR) and myosin light chain kinase (MLCK) play important roles. The current study investigated this possibility. Conventional intracellular recordings were performed on circular smooth muscle of opossum LES. Nerve responses were evoked by electrical square wave pulses of 0.5 ms duration at 20 Hz. In the presence of nifedipine (1 ,M), substance P (1 ,M), atropine (3 ,M) and guanethidine (3 ,M), intracellular recordings demonstrated a resting membrane potential (MP) of ,38.1±0.7 mV (n=25) with spontaneous membrane potential fluctuations (MPfs) of 1,3 mV. Four pulses of nerve stimulation induced slow inhibitory junction potentials (sIJPs) with an amplitude of 6.1±0.3 mV and a half-amplitude duration of 1926±147 ms (n=25). 1H -[1,2,4]oxadiazolo[4,3-a]quinoxalin-1-one (ODQ), a specific guanylyl cyclase inhibitor, abolished sIJPs, but had no effects on MPfs. Caffeine, a ryanodine receptor agonist, hyperpolarized MP and abolished sIJPs and MPfs. Ryanodine (20 ,M) inhibited the sIJP and induced biphasic effects on MP, an initial small hyperpolarization followed by a large depolarization. sIJPs and MPfs were also inhibited by cyclopiazonic acid, an SR Ca2+ ATPase inhibitor. Specific ICl(Ca) and MLCK inhibitors hyperpolarized the MP and inhibited MPfs and sIJPs. These data suggest that (1) spontaneous release of Ca2+ from the SR activates ICl(Ca), which in turn contributes to resting membrane potential; (2) MLCK is involved in activation of ICl(Ca); (3) inhibition of ICl(Ca) is likely to underlie sIJPs induced by nitrergic innervation. British Journal of Pharmacology (2003) 140, 1097,1107. doi:10.1038/sj.bjp.0705537 [source]