Ca2+-induced Ca2+ release in skinned single smooth muscle cells isolated from guinea-pig taenia caeci

The Ca2+ release from intracellular Ca2+ storage sites of skinned single smooth muscle cells isolated from guinea-pig taenia caeci was studied. The Ca2+ release from intracellular Ca2+ storage sites of the skinned single cells was enhanced by the presence of submicromolar concentrations of Ca2+ in the solution. The Ca2+ release was enhanced by caffeine and adenine, and suppressed by Mg2+ and procaine. These results suggest that the Ca2+-induced Ca2+ release mechanism may play an important role in the release of Ca2+ from intracellular storage sites of guinea-pig taenia caeci smooth muscle cells.     

Efflux of 45Ca from isolated smooth muscle cells of guinea-pig taenia caeci

Single smooth muscle cells were isolated from guinea-pig taenia caeci by digestion with collagenase. The 45Ca desaturation curve from isolated cells, which were previously washed with Ca2+-free solution containing EGTA in Ca2+-free modified Locke solution, consisted of three components (half-time: 1.0, 3.8 and 12.4 min). The 45Ca efflux from isolated cells in the third component was significantly increased by caffeine. This increase was suppressed by procaine, but was not affected by La3+. These results suggest that, in guinea-pig taenia caeci, there are at least four Ca2+ compartments: superficial low and high affinity bound Ca2+ and cellular low and high affinity bound Ca2+. Caffeine releases Ca2+ from the cellular high affinity binding sites.     

Nicorandil is a potent dilator of endothelin-induced vascular contraction

Nicorandil, an antianginal drug, is known to open K+ channel and to increase cGMP production. The effects of nicorandil on vascular contraction induced by endothelin (ET), a potent newly discovered vasoconstrictor peptide, were investigated using helical strips from rat thoracic aorta. ET at a concentration of 5 x 10(-9) M induced strong and persistent contraction in the presence of extracellular Ca2+ and similar persistent but smaller contraction in the absence of extracellular Ca2+. Nicorandil at concentrations greater than 10(-7) M, strongly and dose-dependently inhibited ET-induced contraction in the presence of extracellular Ca2+. Nicorandil also suppressed ET-induced contraction in the presence of 10(-4) M methylene blue, an inhibitor of cGMP production, in the presence of extracellular Ca2+ but not in the absence of extracellular Ca2+. ET-induced contraction was also inhibited to lesser extents by the Ca2+ channel blockers nicardipine and verapamil. Nicorandil also strongly suppressed ET-induced increase in cytosolic free Ca2+ concentration in cultured vascular smooth muscle cells. These results suggest that nicorandil is a potent dilator of ET-induced vasoconstriction.     

Biphasic Ca2+ dependence of inositol 1,4,5-trisphosphate-induced Ca release in smooth muscle cells of the guinea pig taenia caeci

Ca2+ dependence of the inositol 1,4,5-trisphosphate (IP3)-induced Ca release was studied in saponin-skinned smooth muscle fiber bundles of the guinea pig taenia caeci at 20-22 degrees C. Ca release from the skinned fiber bundles was monitored by microfluorometry of fura-2. Fiber bundles were first treated with 30 microM ryanodine for 120 s in the presence of 45 mM caffeine to lock open the Ca-induced Ca release channels which are present in approximately 40% of the Ca store of the smooth muscle cells of the taenia. The Ca store with the Ca-induced Ca release mechanism was functionally removed by this treatment, but the rest of the store, which was devoid of the ryanodine-sensitive Ca release mechanism, remained intact. The Ca2+ dependence of the IP3-induced Ca release mechanism was, therefore, studied independently of the Ca-induced Ca release. The rate of IP3-induced Ca release was enhanced by Ca2+ between 0 and 300 nM, but further increase in the Ca2+ concentration also exerted an inhibitory effect. Thus, the rate of IP3-induced Ca release was about the same in the absence of Ca2+ and at 3 microM Ca2+, and was about six times faster at 300 nM Ca2+. Hydrolysis of IP3 within the skinned fiber bundles was not responsible for these effects, because essentially the same effects were observed with or without Mg2+, an absolute requirement of the IP3 phosphatase activity. Ca2+, therefore, is likely to affect the gating mechanism and/or affinity for the ligand of the IP3-induced Ca release mechanism. The biphasic effect of Ca2+ on the IP3-induced Ca release is expected to form a positive feedback loop in the IP3-induced Ca mobilization below 300 nM Ca2+, and a negative feedback loop above 300 nM Ca2+.     

Use of ryanodine for functional removal of the calcium store in smooth muscle cells of the guinea-pig

Calcium store of the skinned fibers of the guinea-pig portal vein, pulmonary artery and taenia caeci consisted of two classes: one with both Ca-induced Ca release (CICR) and inositol 1,4,5-trisphosphate (IP3)-induced Ca release (IICR) mechanisms (S alpha) and the other only with IICR mechanisms (S beta). Ryanodine, applied during the CICR was activated, locked the CICR channels open, but the drug had practically no effect on the IICR mechanism. Thus, after the ryanodine treatment the Ca store with the CICR (S alpha) lost its capacity to hold Ca. Changes in the agonist-evoked contraction of intact muscle due to the ryanodine treatment suggest that agonists release Ca from S alpha which produces the initial phase of contractures.     

Inactivation of calcium channels in single vascular and visceral smooth muscle cells of the guinea-pig.

Inactivation of currents carried through calcium channels by calcium (ICa), barium (IBa) and monovalent cations (In.s.) was studied in single smooth muscle cell (SMC) of the guinea-pig coronary artery and taenia caeci by the whole-cell patch-clamp method. The rate of ICa inactivation in the coronary artery SMC was correlated with ICa amplitude, and acceleration was observed with the increasing ICa peak amplitude. The availability curve of ICa in double-pulse experiments was found to be U-shaped, however, no complete restoration of ICa availability was observed. Inactivation of IBa was considerably slower than that of ICa. These findings may indicate that inactivation of calcium channels in the membrane of coronary artery SMC is, at least partially, a Ca-dependent process. However, some facts observed contradict the validity of this hypothesis for coronary artery SMC in contrast to taenia caeci: 1) elevation of external Ca2+ concentration did not affect the time course of ICa inactivation; 2) inactivation of In.s., i.e. without calcium entry into the cell, was faster than that of ICa. It was concluded that the characteristics of Ca channel inactivation were changed by the removal of divalent cations from extracellular solution. Differences and similarities in Ca channel inactivation between coronary artery and taenia caeci SMC are discussed.     

Selective utilization of L-isomer of lactate in the smooth muscle of the guinea pig taenia caeci

Utilization of D- and L-lactate in the isolated intestinal smooth muscle of the guinea pig taenia caeci was examined by measuring contractile tension, oxygen consumption, and adenosine triphosphate (ATP) and creatine phosphate (PCr) concentrations. In the absence of glucose in the medium, muscle contraction induced by a high concentration of K+ was inhibited and the rate of oxygen consumption and the concentrations of ATP and PCr were decreased. Addition of glucose, L-lactate, and D,L-lactate, but not D-lactate, led to recovery of muscle contraction, rate of oxygen consumption, and ATP and PCr concentrations when the tissue had been incubated in the high K+, glucose-free solution. These results suggest that the isolated guinea pig taenia caeci selectively utilizes the L-isomer of lactate as a substrate for energy metabolism.     

Relationship between length-tension relation and 20,000 dalton myosin light chain phosphorylation in guinea-pig taenia caeci

1. Relationship between length-tension relation and phosphorylation of 20,000 dalton myosin light chain (LC20) in guinea-pig taenia caeci was investigated. 2. At in situ length (Lb), a good linear correlation was obtained between isometric tension and LC20 phosphorylation in high-K+-stimulated muscle. 3. In 100 mM K+-stimulated muscle, the active tension decreased at muscle lengths other than Lb, but no significant decrease in degree of LC20 phosphorylation was observed. 4. These results suggest that in guinea-pig taenia caeci, the major portion of the decrease in active tension at muscle lengths other than Lb is not due to a decrease in degree of activation.     

Calcium release in smooth muscle

In smooth muscle, maintenance of the contractile response is due to Ca2+ influx through two types of Ca2+ channel, a voltage-dependent Ca2+ channel and a receptor-linked Ca2+ channel. However, a more transient contraction can be obtained by release of Ca2+ from a cellular store, possibly the sarcoplasmic reticulum. In spike generating smooth muscle (e.g., guinea-pig taenia caeci), spike discharges may trigger the release of cellular Ca2+ by activating a Ca2+-induced Ca2+ release mechanism. Caffeine directly activates this mechanism in the absence of a triggered Ca2+ influx. In contrast to this, maintained depolarization may not only release but also refill the Ca2+ store. Drug-receptor interactions also release Ca2+ from a cellular store. This release may be elicited with inositol trisphosphate produced by receptor-linked phosphoinositide turnover. In non-spike generating smooth muscle (e.g., rabbit thoracic aorta), maintained membrane depolarization does not release but, instead, fills the Ca2+ store. However, caffeine and receptor-agonists release the Ca2+ store - possibly by activating the Ca2+-induced Ca2+ release mechanism and phosphoinositide turnover, respectively. The Ca2+ store in smooth muscle is filled by Ca2+ entry through voltage dependent Ca2+ channels and also by resting Ca2+ influx in the absence of receptor-agonists. The Ca2+ entering the cells through these pathways may be accumulated by the Ca2+ store and may activate the contractile filaments.     

Electrical properties and transmembrane ion currents of single smooth-muscle cells

Current and voltage clamp investigations of freshly isolated smooth muscle cells from guinea-pig ileum and taenia coli were performed using single suction micropipette technique. Specific membrane capacity of smooth muscle cells was calculated and accounted for 1.6 microF/cm2, with specific resistance varying from 50 to 150 k omega X cm2. Transmembrane currents consisted of two inward components, inactivating and noninactivating ones, carried by Ca2+ ions, overlapping with early activated potassium outward current. Time constant of inward current activation was not only voltage-sensitive but also ion-dependent. When Ca2+ ions in Krebs solution were replaced by Ba2+, both the rate of activation and inactivation of inward current were significantly reduced. Estimation of intracellular Ca2+ concentration increase has indicated that inward calcium current transports enough Ca2+ for direct contraction activation.     

Comparison of interactions of R-(+)- and S-(-)-isomers of beta-adrenergic partial agonists, befunolol and carteolol, with high affinity site of beta-adrenoceptors in isolated rabbit ciliary body and guinea-pig taenia caeci.

The stereoselectivities of beta-adrenergic partial agonists for the high affinity binding site of beta-adrenoceptors in the rabbit ciliary body and the guinea-pig taenia caeci were studied. The pA2 values of the S-(-)-isomers of befunolol and carteolol against S-(-)-isoprenaline, which were calculated from the shift of each concentration - response curve in increasing cyclic AMP levels, were significantly larger than those of the R-(+)-isomers in the guinea-pig taenia caeci, while the pA2 values of the S-(-)-isomers were not significantly larger than those of the R-(+)-isomers in the rabbit ciliary body. The pK1 values determined from the binding experiments were in good agreement with the pA2 values from the increases in cyclic AMP levels. These results suggest that the high affinity binding site of beta-adrenoceptors in the guinea-pig taenia caeci may be able to discriminate stereoselectively between the R-(+)- and S-(-)-isomers, while in the rabbit ciliary body there is no stereo-selectivity between the two enantiomers.     

Cell contacts and smooth muscle bundle formation in tissue transplants into the anterior eye chamber

Summary Segments of the taenia coli from guinea-pig were transplanted into the anterior chamber of the eye. Depending on such factors as the total volume of the transplant and the presence or absence of ganglion cells degeneration was either very extensive (90% or more of the total number of muscle cells) or localized (alternating regions of degenerating and normal structure). During days 1–2 muscle cells lost their plasma membranes so that their cytoplasmic contents were dispersed into the intercellular spaces. Many cells produced numerous small processes which were pinched off and dispersed in a similar manner. Following a period of intense mitotic activity (3–8 days) numerous cells with the characteristics of embryonic smooth muscle cells were evident. Within 10–14 days these differentiating cells produced bulbous protrusions and assumed more irregular outlines than at 3–8 days. The protrusions formed close contacts (50–100Å intercellular space) and tight junctions between adjacent muscle cells. Aggregation of muscle cells into bundles was under way between 14–28 days. At approximately 4–6 weeks these developing muscle groups were invaded by nerve fiber bundles. The pattern of the innervation and the form and size of the muscle bundles simulated the normal. These findings are discussed in relation to the possible functions of the intercellular contacts and cellular protrusions which characterise various periods of regeneration.This work was supported by the Australian Research Grants Committee. The transplants were carried out by Dr. T. Malmfors assistant, Miss Ulla Enberg.     

Regulation of metabolism and contraction by cytoplasmic calcium in the intestinal smooth muscle

Reduced pyridine nucleotides (PNred) and oxidized flavoproteins (FPox) were measured fluorometrically in the intestinal smooth muscle strip of guinea pig taenia caeci simultaneously with contractile tension. Cytoplasmic free Ca2+ levels ([Ca2+]cyt) were also measured by a fura-2-Ca2+ fluorescence technique. PNred, FPox, and [Ca2+]cyt increased during spontaneous contraction or upon the addition of high K+ or carbachol and decreased upon the removal of these stimulants. [Ca2+]cyt increased before the increase in muscle tension. PNred increased almost simultaneously with or immediately after the onset of contraction, while FPox increased before the initiation of contraction. Both PNred and FPox decreased a few seconds after the initiation of relaxation. In the K+-depolarized, Ca2+-depleted muscle, graded elevation of external Ca2+ increased PNred, FPox, and muscle tension. The sensitivity to Ca2+ was in the order of FPox greater than PNred greater than muscle tension. Changes in PNred were inhibited when glycolysis was inhibited by substitution of external glucose with oxaloacetate, pyruvate, or beta-hydroxybutylate, but not when oxidative phosphorylation was inhibited by N2 bubbling or by NaCN. In contrast to this, changes in the FPox were inhibited by N2 bubbling or NaCN, but not by the inhibition of glycolysis. These results suggest that an elevation of intracellular Ca2+ activates carbohydrate metabolism and contractile elements independently, resulting in the reduction of cytoplasmic pyridine nucleotides, oxidation of mitochondrial flavoproteins, and development of tension in the intestinal smooth muscle.     

The dependence of airway smooth muscle on extracellular Ca2+ for contraction is influenced by the presence of cartilage

Isolated guinea-pig and rabbit airway smooth muscle preparations lacking cartilage are less able to contract, in response to methacholine, histamine and K+, in the absence of extracellular Ca2+ than cartilage-containing preparations removed from the same animal. Cartilage apparently provides utilizable Ca2+ for contraction of airway smooth muscle. The presence of cartilage, therefore, affects the apparent dependence of the isolated smooth muscle on extracellular Ca2+ for contraction.     

Nicorandil reduces the basal level of cytosolic free calcium in single guinea pig ventricular myocytes.

Using fluorescent Ca2+ indicator fura-2 and whole-cell patch-clamp techniques, we examined the effect of 2-nicotinamidoethyl nitrate (nicorandil) on the intracellular free Ca2+ concentration ([Ca2+]i) and electrical properties in single guinea pig ventricular myocytes. Nicorandil (10 nM approximately 1 mM) reduced the resting level [Ca2+]i monitored as fura-2 fluorescence ratio in a concentration-dependent manner. Dibutyryl guanosine 3':5'-cyclic monophosphate (cyclic GMP), a membrane permeable cyclic GMP analogue, mimicked the nicorandil action. Neither application of caffeine (10 mM) nor deprivation of extracellular Na+ ions could prevent the nicorandil action on [Ca2+]i. In contrast, the nicorandil effect was virtually blocked by sodium orthovanadate (40 microM), a Ca2+ pumping ATPase inhibitor. During electrophysiological experiments, nicorandil shortened action potential durations (205 +/- 80 ms to 153 +/- 76 ms) by increasing a glibenclamide-sensitive outward K+ conductance. However, the drug produced little hyperpolarization (approximately 2 mV) because the resting potential of ventricular myocytes was close to the K+ equilibrium potential. The involvement of voltage-dependent Ca-channel current and Na-Ca exchanger was considered to be minimal under physiological conditions. It is thus concluded that nicorandil decreases basal [Ca2+]i via cyclic GMP-mediated activation of the plasma membrane Ca2+ pump in guinea pig ventricular myocytes.     

Three-dimensional demonstration of the interstitial cells of Cajal associated with the submucosal plexus in guinea-pig caecum

The guinea-pig caecum was studied by using immunohistochemistry for Kit receptors and nerves to clarify whether interstitial cells of Cajal (ICC) were localized in association with the submucosal plexus (ICC-SP). A large area of the guinea-pig caecum was nearly devoid of longitudinal muscles, because they were concentrated into three bundles of the taenia caeci (coli) and this allowed clear observation of the myenteric and submucosal plexus as separate networks in whole-mount stretch preparations. The myenteric plexus was observed as a loose polygonal network consisting in elongated ganglia and long connecting nerve strands, whereas the submucosal plexus was identified as smaller ovoid ganglia connected to much thinner nerve strands in different tissue layers. Three-dimensional reconstruction of confocal images revealed multipolar-shaped ICC-SP located around the submucosal ganglion in a basket formation. Bipolar ICC-SP were also observed along the connecting nerve strands of the submucosal plexus. The functional involvement of ICC-SP in mucosal activity is discussed in relation to fluid transportation. This three-dimensional study of ICC-SP thus provides a candidate for the most suitable material available for functional experiments examining the physiological significance of ICC-SP.     

Inhibitory effect of mitragynine, an analgesic alkaloid from Thai herbal medicine, on neurogenic contraction of the vas deferens

The effect of an indole-alkaloid mitragynine isolated from the Thai medicinal herb kratom (Mitragyna speciosa) on neurogenic contraction of smooth muscle was studied in guinea-pig vas deferens. Mitragynine inhibited the contraction of the vas deferens produced by electrical transmural stimulation. On the other hand, mitragynine failed to affect the responses to norepinephrine and ATP. Mitragynine did not reduce KCl-induced contraction in the presence of tetrodotoxin, prazosin and alpha,beta-methylene ATP. Mitragynine inhibited nicotine- or tyramine-induced contraction. By using the patch-clamp technique, mitragynine was found to block T- and L-type Ca2+ channel currents in N1E-115 neuroblastoma cells. In the Ca2+ measurement by a fluorescent dye method, mitragynine reduced KCl-induced Ca2+ influx in neuroblastoma cells. The present results suggest that mitragynine inhibits the vas deferens contraction elicited by nerve stimulation, probably through its blockade of neuronal Ca2+ channels.     

Mechanism of spasmolytic activity of a fraction of Sarcostemma brevistigma Wight

The effect of chloroform soluble fraction (F-A) of twigs of Sarcostemma brevistigma on contractions induced by KCl, histamine, and acetylcholine in the isolated guinea pig ileum and taenia coli smooth muscles has been evaluated. F-A (19.5 microg/ml) significantly inhibited the contraction induced by 40 mM KCl to the extent of 87.6% in the isolated guinea pig ileum. In the isolated guinea pig ileum, F-A (64.3 and 59.2 microg/ml) significantly inhibited the contractions induced by acetylcholine and histamine to the extent of 85 and 83% respectively. In the isolated guinea pig taenia coli, F-A (65.2 microg/ml) significantly inhibited the contraction induced by 40 mM KCl to the extent of 96.0%. The inhibitory effect of F-A (40 microg/ml) on the isolated guinea pig taenia coli was reduced by Bay K 8644 (10(-6) M) to the extent of 61.6 from 73.6%. These results suggest that the F-A may exhibit smooth muscle relaxant activity by blocking the Ca2+ channels.     

Aminoacyl-tRNA synthetases: inter-site interaction as a possible proofreading mechanism

Smooth muscle cell energetics of taenia caeci during relaxation, activity and maximal contraction were investigated using ³¹P-NMR. In relaxed muscle obtained in calcium-free medium, [ATP], [phosphocreatine] and [sugar phosphate] were 4.4 mM, 7.7 mM and 2.8 mM, respectively. There was only a small difference in the energetics of spontaneously active and maximally contracted muscles, but under both conditions substantial changes occurred as compared with relaxed muscles. The internal pH in relaxed muscle was found to be 7.05, which acidified to 6.5 during contraction. The level of sugar phosphates was found to be not a limiting factor in energetics.     

Transient inhibition of the muscarinic actions of carbachol during reactivation of the electrogenic sodium pump in guinea pig taenia caeci smooth muscle

In guinea pig taenia caeci smooth muscle the muscarinic receptor stimulant carbachol evoked depolarization and contraction, which was followed by hyperpolarization and relaxation on its removal. Both the hyperpolarization and relaxation were inhibited by removal of K+ from the external medium. During Na+-pump blockade (K+-free solution) the depolarizing and contracting actions of carbachol decreased. When the Na+ pump was switched on again by readmission of 5.9 mmol/L K+ to K+-depleted and Na+-enriched preparations, electrogenic hyperpolarization and relaxation developed. During this period carbachol failed to produce depolarization and contraction.