Kinetic analysis of contraction-relaxation process in smooth muscles

A method is proposed for analysing kinetic curves of the smooth muscle contraction--relaxation approved on smooth muscle preparations of ureter and taenia coli. A notion of the velocity coefficient is introduced. It is the parameter which gives a quantitative characteristics of changes in the dynamics of muscle contraction and relaxation under the effect of factors modifying the contractile response. In order to illustrate the application of this parameter studies were carried out of the effect of sodium-free medium, monensin, and of temperature decrease on the contractile activity of the smooth muscle tissue of the ureter. The method can be useful while investigating the regularities of electro- and pharmacomechanical conjunction in the smooth muscles, as well as during pharmacological screening of compounds--regulators of calcium homeostasis in myocytes and their contractile activity.     

Effects of temperature and Na0+ on the relaxation of phasic and tonic tension of guinea-pig ureter muscle

Effects of temperature and Na0+ on the relaxation of guinea-pig ureter smooth muscle were studied. Relaxation of phasic contraction was found to be highly temperature-dependent, practically independent of Na0+ and Ca02+, and resistant to vanadate. The relaxation of the tonic tension of both high-K and low-Na contracture was less temperature-dependent and affected by Na0+. The relaxation of tonic tension produced by introduction of Na0+ was about 3-5 times faster than that produced by Ca-free solution. La3+ ions were found to block the relaxation of the tonic component of the Na+-free contracture initiated by removal of Ca02+. Three systems of regulation of cell calcium are suggested to be operative in the ureter muscle: a fast one which is highly temperature-dependent and responsible for the relaxation of the phasic contraction (probably the sarcoplasmic reticulum), and two slow membrane-linked carriers, one of which is dependent on Na0+ (probably Na-Ca exchange) and another one which is independent of Na0+ and inhibited by La3+ (probably Ca-pump).     

The removal of stones from low in the ureter; a report on an improved method

Extraction of stones from the lower part of the ureter can be facilitated by use of a long filiform which permits the attachment and introduction of dilating Phillips catheters of increasing caliber and of various stone extractors. The filiform must be left in place, with the tip superior to the stone, until the ureter has been successfully dilated, the stone extracted and a drainage catheter inserted. The filiform serves to guide the instruments up the ureter. Smooth muscle relaxation, or "tone paralysis," is achieved by leaving each dilating catheter in the ureter for at least ten minutes.A combination of spinal and local anesthesia is used, and this contributes further to the desired ureteral relaxation. This simple method was used successfully in 34 of 35 consecutive cases to remove a stone in the lower part of the ureter.     

THE REMOVAL OF STONES FROM LOW IN THE URETER—A Report on an Improved Method

Extraction of stones from the lower part of the ureter can be facilitated by use of a long filiform which permits the attachment and introduction of dilating Phillips catheters of increasing caliber and of various stone extractors. The filiform must be left in place, with the tip superior to the stone, until the ureter has been successfully dilated, the stone extracted and a drainage catheter inserted. The filiform serves to guide the instruments up the ureter.Smooth muscle relaxation, or “tone paralysis,” is achieved by leaving each dilating catheter in the ureter for at least ten minutes.A combination of spinal and local anesthesia is used, and this contributes further to the desired ureteral relaxation. This simple method was used successfully in 34 of 35 consecutive cases to remove a stone in the lower part of the ureter.     

Inhibitory effect of methergoline on serotonin induced contraction of isolated strips of coronary arteries

Metergoline (antiserotonin drug) prevents the contraction induced by serotonin on strips of isolated coronary arteries. Moreover when metergoline is added at the maximal contraction, it induces relaxation of the vascular smooth muscle preceeded by a brevious phase of contraction.     

Phorbol myristate acetate causes in guinea-pig lung parenchymal strip a maintained spasm which is relatively resistant to isoprenaline

The effect of phorbol myristate acetate (PMA) was compared with that of histamine on the guinea-pig lung parenchymal strip. PMA, 10(-5) M, caused a slowly developing sustained contraction which had approximately the same magnitude as the maximal histamine contraction. Isoprenaline, at 10(-5) M, caused 86% relaxation of the histamine contraction but only 22% relaxation of the PMA contraction. Forskolin, at 10(-5) M had a similar action to isoprenaline on the effects of both spasmogens while aminophylline, 5 X 10(-4) M, was considerably less effective. Sodium nitroprusside had little effect on the histamine contraction and actually increased the PMA spasm. It is suggested that protein kinase C may have a role in the tonic phase of the contraction of bronchiolar smooth muscle. These findings could have relevance for the delayed phase of asthma, which is known to be insensitive to beta-agonists.     

Research and comparative characteristic of the factors determining elasticity of the human skin

Changes in skin elasticity have been analyzed under different conditions (upon skin stretching, at different thickness of the skin, at different contents of collagen, intercellular and endocellular liquids, upon changes of venous pressure, and during contraction and relaxation of smooth muscles in skin vessels - vasomotions). Elasticity was defined by the acoustic method from the speed of diffusion of a superficial sheared acoustic wave in the skin, by the autoresonant method from the mechanical resonance frequency of skin, and from the vacuum pressure needed for skin site deformation of constant volume. It was shown that the major factors determining the elasticity of skin are it stretching, thickness, and the contents of collagen and liquids in it. The influence on elasticity of venous pressure and the contraction activity of smooth muscles in vessels is not essential. This suggests that the parameters of skin elasticity can be used as indicators of systemic and local lesions of the connective tissue.     

On the mechanisms whereby temperature affects excitation-contraction coupling in smooth muscle.

Moderate cooling of smooth muscle can modulate force production and may contribute to pathophysiological conditions, but the mechanisms underlying its effects are poorly understood. Interestingly, cooling increases force in rat ureter, but decreases it in guinea pigs. Therefore, this study used ureteric smooth muscle as a model system to elucidate the mechanisms of the effects of cooling on excitation-contraction coupling. Simultaneous recordings of force, intracellular [Ca(2+)], and electrical activity were made in intact ureter and ionic currents measured in isolated cells. The increase in force amplitude in rat ureter with cooling was found to be due to a significant increase in the duration of the Ca(2+) transient. This in turn was due to a marked prolongation of the action potential. In guinea pigs, both these parameters were much less affected by cooling. Examination of membrane currents revealed that differences in ion channel contribution to the action potential underlie these differences. In particular, cooling potentiated Ca(2+)-activated Cl(-) currents, which are present in rat but not guinea pig ureteric smooth muscle, and prolonged the plateau of the action potential and Ca(2+) entry. The force-Ca(2+) relationship revealed that the increased duration of the Ca(2+) transient was sufficient in the rat, but not in the guinea pig, to overcome kinetic lags produced in both species by cooling and potentiate force. Ca(2+) entry and release processes were largely temperature-insensitive, but the rate of relaxation was very temperature-sensitive. Effects of cooling on myosin light chain phosphatase, confirmed in experiments using calyculin A, appear to be the predominant mechanisms affecting relaxation. Thus, smooth muscle is diverse in its response to temperature, even when experimental variables, such as the mode of stimulation, are removed. Although the biochemical and mechanical events accompanying contraction are likely to be affected in similar ways by temperature, differences in electrical events lead to subsequent differences in these processes between smooth muscles.     

Coexistence of at least three distinct beta-adrenoceptors in human internal mammary artery.

The internal mammary artery (IMA) is currently the preferred conduit for myocardial revascularization. However, perioperative vasospasm and a hypoperfusion state during maximal exercise may limit its use as a bypass graft. The mechanism of spasm has not been clearly defined. Since beta-adrenoceptor activation plays a major role in vasorelaxation, the present study was carried out to investigate the beta-adrenoceptor responsiveness of human IMA smooth muscle. Isoproterenol produced a concentration-dependent relaxation in endothelium-denuded IMA segments, precontracted with phenylephrine (maximal relaxation 46.33+/-5.45%). Atenolol (10(-6)M) and propranolol (2x10(-7)M) inhibited isoproterenol-induced relaxation. While atenolol produced partial inhibition, propranolol caused a complete inhibition in a majority of the segments and a partial inhibition in a minority. BRL 37344, a selective beta 3-adrenoceptor agonist, produced a concentration-dependent relaxation in phenylephrine-precontracted rings of endothelium-denuded IMA (maximal relaxation 40.35+/-4.07%). Cyanopindolol, a beta-adrenoceptor partial agonist, produced a marked relaxation (58.65+/-6.2%) in endothelium-denuded IMA rings, precontracted with phenylephrine. Cyanopindolol-induced relaxation was resistant to blockade by propranolol (2x10(-7)M). Spontaneous contractions of IMA rings were also observed in some cases that were inhibited by isoproterenol and BRL 37344. This observation implies the important role of beta-adrenoceptor activation in prevention of human IMA spasm. The results obtained in present study indicate that human IMA smooth muscle possesses an atypical beta-adrenoceptor together with beta1- and beta2-adrenoceptors. Regarding the relaxation induced in IMA rings by adding BRL 37344, the possible identical entities of IMA atypical beta-adrenoceptors and beta 3-adrenoceptors are suggested.     

基因谱系示踪揭示小鼠Tbx18+肾脏间质祖细胞分化为输尿管平滑肌

本文旨在研究Tbx18+肾脏间质祖细胞分化为输尿管平滑肌细胞的命运及转录因子Tbx18在小鼠输尿管平滑肌发育形成中起到的作用．实验建立Tbx18:Cre/R26REYFP和Tbx18:Cre/R26RLacZ两种谱系示踪系统和Tbx18:Cre/Cre 敲除模型．该示踪模型通过cre重组酶的表达能有效地示踪Tbx18+肾脏间质祖细胞在泌尿系统的发育命运．通过免疫荧光染色和X-gal染色,同时发现Tbx18+肾脏间质祖细胞可分化为输尿管平滑肌细胞,但不分化为输尿管移行上皮细胞．在Tbx18:Cre/Cre基因突变模型中,泌尿系统出现明显的肾积水和输尿管积水,肾盏、肾盂扩张,输尿管明显缩短和扩张．实验结果揭示,Tbx18+ 肾脏间质祖细胞可以分化为输尿管平滑肌细胞,且转录因子Tbx18在哺乳动物输尿管平滑肌的发育中起到重要的作用．     

Mechanics of caudal artery relaxation in control and hypertensive rats

Alterations of smooth muscle function can just as easily stem from mechanical alterations in its ability to relax as from alteration in contraction. Since a failure of arterial smooth muscle to relax may contribute to the development of hypertension, we felt it necessary to study the relaxation process in greater depth. The effect of load on the time course of relaxation of rat caudal artery smooth muscle was analyzed either by comparing afterloaded contractions against various loads or by imposing abrupt alterations in load. Unlike mammalian striated muscles in which relaxation was reported sensitive to loading conditions, relaxation in the smooth muscle of the rat caudal artery (n = 17) was found to be largely independent of loading conditions. This type of relaxation has been termed "inactivation-dependent" relaxation; it is typical of muscle tissue in which the calcium sequestering apparatus is poorly developed. Our results suggest that calcium resequestration, or some biochemical process downstream to it, is the rate-limiting step during relaxation in arterial smooth muscle and that this is not qualitatively different for hypertensive arterial smooth muscle. These analytic techniques were used in the study of relaxation of hypertensive vessels. Quantitative analysis of the relaxation curves showed that both isometric and isotonic relaxation time was prolonged in hypertensive arterial smooth muscle. Prolonged isotonic relaxation indicates that hypertensive arteries remain narrowed for prolonged periods compared with normotensive vessels. Such narrowed vessels may be a factor in the increased total peripheral resistance seen in genetic hypertension.     

The biophysics and biochemistry of smooth muscle contraction.

In this review the biophysics and biochemistry of smooth muscle contraction are dealt with. We describe a new model for the study of bronchial smooth muscle, which facilitates study of cellular contractile mechanisms. A new concept emerging is that study of steady-state mechanical parameters such as maximal isometric force (Po) velocity is inadequate because two types of crossbridges (normally cycling (NBR) and latch) seem to be sequentially active during smooth muscle contraction. Thus quick-release techniques are required to characterize the force-velocity properties of the two types of bridges. Pathophysiological processes that affect the muscle's shortening ability seem to affect the early NBRs only. With respect to maximal shortening capacity of the smooth muscle, the role of loading is very important. The differences between isotonic, elastic, and viscous loading are considerable. Ultimately, the time course and magnitude of loading should exactly resemble that operative in vivo. Once again, it is the characteristic of loading in the early phase of contraction that is crucial, as most of the shortening in smooth muscle occurs early in the contraction. While the maximum force developed by smooth muscle per unit cross-sectional area is the same as for striated muscle, the velocity is 50 times less. The properties of the series and parallel elastic elements of smooth muscle are described. The latter, when in compression mode, acts as an internal resistance to shortening and probably limits it. Isotonic relaxation has therefore not been studied in smooth muscle. We have developed a shortening parameter that is independent of the load on the muscle and of the initial length of the muscle's contractile element. We report the novel observation that isotonically relaxing smooth muscle reactivates itself, resulting in terminal slowing of the relaxation process. With respect to the biochemistry of smooth muscle contraction, contractile (actin isoforms, myosin heavy and light chains and their isoforms), regulatory (calmodulin-4 Ca2+, myosin light chain kinase, myosin light chain and its phosphorylation, tropomyosin, caldesmon, and calponin), and cytoskeletal (chiefly desmin and vimentin) proteins are discussed. While the kinase activates the contractile system, caldesmon and calponin modulate the activity downward. The cytoskeletal proteins desmin, vimentin, and alpha-actinin could constitute the muscle cell's internal resistor.     

Synthetic nitrovasodilators are effective, in vitro, in relaxing penile tissue from impotent men: the findings and their implications

Normal penile erectile function is dependent on arterial adequacy, appropriate venous occlusion, neurohumoral factors, and finally the relaxation of penile cavernous trabecular smooth muscle. The present experiments were designed to test whether compounds related to endothelium-derived relaxing factor have a role in penile smooth muscle relaxation and whether this role is preserved in clinically impotent tissue. Isometric tension experiments were conducted using strips of human tissue (appropriately obtained) from patients found to be impotent by clinical criteria. Glyceryl trinitrate and isosorbide dinitrate produced maximal relaxations of 66 and 63%, respectively, in tissues contracted with norepinephrine: 50% relaxation was observed at 6 x 10(-7) and 8 x 10(-5) M, respectively. The finding of a relaxant response to synthetic nitrovasodilators in "impotent" tissue implies that (i) complete end organ (smooth muscle) failure is not always, if ever, seen, (ii) endothelium-derived factors probably play a role in erectile tissue parallel with their role in other vascular tissues, (iii) more proximal factors may be responsible for clinical impotence, and (iv) synthetic nitrovasodilators may have a role in the therapy of clinical impotence.     

Comparative effects of galanin on isolated smooth muscle cells from ileum in five mammalian species.

Effect of galanin and CCK8 were studied on isolated smooth muscle cells obtained from pig, guinea-pig, rat, rabbit and dog ileum circular muscle layer. Galanin as well as CCK8 induced a concentration-dependent contraction of pig, rat, rabbit and guinea-pig ileum smooth muscle cells. Maximal contraction ranged between 23.7 +/- 1.9% and 26.1 +/- 3.1% decrease in cell length from control in the presence of both peptides. This maximal contraction was obtained at 1 nM galanin in pig, rat, rabbit, 1 nM CCK8 in rat, rabbit, guinea-pig, at 10 nM galanin in guinea-pig and 10 nM CCK8 in pig. Concentrations of galanin inducing a half maximal contraction (EC50) ranged between 8 pM and 80 pM in these species. In dog, CCK8 induced a concentration-dependent contraction of ileum smooth muscle cells, with a maximal contraction (24.5 +/- 2.3%) at 1nM and an EC50 of 50 pM while galanin inhibited cell contraction induced by CCK8. The CCK-induced contraction was abolished at 10 nM galanin and 10 nM VIP. Concentrations of galanin and VIP inducing a half-maximal relaxation of contracted cells were 2 pM and 3 pM respectively. It is concluded that galanin may induce cell contraction of pig, guinea-pig, rat and rabbit ileum circular muscle layer and cell relaxation of dog ileum by a direct myogenic effect.     

A novel bronchial ring bioassay for the evaluation of small airway smooth muscle function in mice

Advances in our understanding of murine airway physiology have been hindered by the lack of suitable, ex vivo, small airway bioassay systems. In this study, we introduce a novel small murine airway bioassay system that permits the physiological and pharmacological study of intrapulmonary bronchial smooth muscle via a bronchial ring (BR) preparation utilizing BR segments as small as 200 microm in diameter. Using this ex vivo BR bioassay, we characterized small airway smooth muscle contraction and relaxation in the presence and absence of bronchial epithelium. In control BRs, the application of mechanical stretch is followed by spontaneous bronchial smooth muscle relaxation. BRs pretreated with methacholine (MCh) partially attenuate this stretch-induced relaxation by as much as 42% compared with control. MCh elicited a dose-dependent bronchial constriction with a maximal tension (E(max)) of 8.7 +/- 0.2 mN at an EC(50) of 0.33 +/- 0.02 microM. In the presence of nifedipine, ryanodine, 2-aminoethoxydiphenyl borate, and SKF-96365, E(max) to MCh was significantly reduced. In epithelium-denuded BRs, MCh-induced contraction was significantly enhanced to 11.4 +/- 1.0 mN with an EC(50) of 0.16 +/- 0.04 microM (P < 0.01). Substance P relaxed MCh-precontracted BR by 62.1%; however, this bronchial relaxation effect was completely lost in epithelium-denuded BRs. Papaverine virtually abolished MCh-induced constriction in both epithelium-intact and epithelium-denuded bronchial smooth muscle. In conclusion, this study introduces a novel murine small airway BR bioassay that allows for the physiological study of smooth muscle airway contractile responses that may aid in our understanding of the pathophysiology of asthma.     

Regulation of Gadd45a mRNA expression in vascular smooth muscle under growth and stress conditions

In order to identify differentially expressed genes under growth conditions, quiescent vascular smooth muscle cells (VSMCs) were stimulated with foetal calf serum (FCS) or platelet-derived growth factor-BB (PDGF-BB) for different time periods. Analysing the gene expression by the differential display (DD) method, we identified the cDNA of the growth arrest and DNA damage inducible gene 45a (Gadd45a, also known as gadd45 and gadd45a). Treatment with FCS or PDGF-BB led to a transient down-regulating of Gadd45a expression during the G0/G1 phase and maximal expression when cells had completed division. We found that expression of p53 and BRCA1 mRNA precedes Gadd45a mRNA expression with a maximal induction in the S phase. As in smooth muscle cells, a similar pattern of the Gadd45a mRNA expression was observed in knockout Gadd45a(-/-) cultured mouse embryonic fibroblasts (MEFs). However, no differences between Gadd45a(+/+) and Gadd45a(-/-) cell lines were observed regarding their kinetics of cell division. These experiments suggest a function of Gadd45a when cells exit the cell cycle rather than when regulating the entry into the S phase.     

Effects of sodium nitroprusside, nitroglycerin, and sodium azide on levels of cyclic nucleotides and mechanical activity of various tissues.

Three agents that activate guanylate cyclase, sodium nitroprusside, nitroglycerin and sodium axide, were examined for their effects on cyclic GMP and cyclic AMP accumulation and muscle motility with several tissues. All of these agents, except nitroglycerin with ventricle preparations, increased cyclic GMP levels and did not alter cyclic AMP in incubations of preparations of bovine tracheal smooth muscle, guinea pig tracheal chains, taenia cecum, atria and ventricle, and rat liver and cerebral cortex. Increases in cyclic GMP with these agents occurred with relaxation of smooth muscle preparations and without alteration in the contractility of atrial preparations. These observations support the hypothesis that cyclic GMP accumulation in smooth muscle may be related to relaxation rather than contraction as proposed previously. Relaxation with these agents is not associated with alterations in cyclic AMP levels. Increases in cyclic GMP levels in atrial preparations can also occur without changes in contractile force or rate of contraction.     

Functional assessment of human femoral arteries after cryopreservation

An established method for the cryopreservation of human femoral arteries for subsequent transplantation as allografts has been studied with particular attention to preservation of smooth muscle and endothelium. Human femoral arteries (HFAs) were harvested from multi-organ donors. Two groups were established; a control group of unfrozen HFAs and a group of cryopreserved HFAs. Cryopreservation was performed using RPMI solution containing dimethyl sulfoxide and the rate of cooling was 1 degrees C/min to -40 degrees C and faster thereafter until -150 degrees C was reached. The contraction and relaxation responses of unfrozen and frozen/thawed arteries were assessed by measurement of the isometric force generated by the HFAs in an organ bath. After thawing (warming was at 15 degrees C/min) the maximal contractile response to noradrenaline was 43% of the response of unfrozen HFAs. The endothelium-independent response to sodium nitroprusside was not altered, whereas the endothelium-dependent relaxation response to acetylcholine was slightly altered. The cryopreservation method used provided limited preservation of the contractility of human femoral arteries, and good preservation of both endothelium-independent and endothelium-dependent relaxation responses.     

Pituitary adenylate cyclase activating peptide (PACAP) in guinea-pig lung: distribution and dilatory effects.

The lower airways of guinea-pigs were analyzed for pituitary adenylate cyclase activating peptide (PACAP) using immunocytochemistry. In the trachea a moderate supply of PACAP-immunoreactive nerve fibers occurred around smooth muscle bundles, glands and small blood vessels. In the lung, PACAP-immunoreactive nerve fibers were distributed around small glands and bronchi. A rich supply of PACAP immunoreactive nerve fibers was found around blood vessels in the lungs. PACAP-suppressed smooth muscle responses were analysed using isolated circular segments of trachea, pulmonary arteries and aorta of guinea-pigs. In both airways and arteries PACAP caused a concentration-dependent relaxation of precontracted segments. The maximal relaxation effects were more pronounced in the airways than in the arteries while the order of potency was aorta greater than pulmonary artery greater than trachea. The effect of PACAP was compared to those of acetylcholine (ACh) and vasoactive intestinal peptide (VIP). In the pulmonary artery the vasomotor responses expressed as maximal dilatation had the order: ACh greater than VIP = PACAP while the order of potency was PACAP = VIP greater than ACh. In the trachea, PACAP was slightly more potent than VIP. The relaxatory responses to PACAP in the trachea and the intrapulmonary arteries were unaffected by pretreatment with atropine, prazosin, yohimbine, propranolol, mepyramine, cimetidine and Spantide. Removal of the endothelium abolished PACAP-induced vascular relaxation. Conceivably, PACAP-containing nerve fibers play a role in the regulation of airway resistance and local blood flow.