Calcium requirement of uterine contraction induced by PGE1: Importance of intracellular calcium stores

The contraction of the rat uterus in response to PGE₁ in high K⁺ medium and in Ca-free solution which contained EDTA has been investigated in order to examine whether excitation-contraction coupling involves the release of Ca from an intracellular store.In uterus maximally contracted by K⁺, cumulative concentrations of PGE₁ (1.25 – 20 ng/ml) caused maintained concentration-dependent contraction. PGE₁ induced sustained contraction of rat uterus in Ca-free medium after incubation with 3mM EDTA for 50 min. In these conditions the involvement of extracellular Ca is highly unlikely. The PGE₁-induced contraction could be repeated without exposure to external Ca ions and with only slight reduction in magnitude. The PGE₁ concentrations required to elicit uterine contraction in Ca-free solution were about 1000 times higher than the effective doses in KCl-depolarized uterus.In conclusion, the present investigation shows that Ca influx is not essential for PGE₁-induced contraction of rat uterus, although extracellular Ca enhances it presumably by increasing the free Ca levels in the cytosol.     

A comparison of uterine contraction induced by PGE1 and oxytocin in Ca-free solution

The contraction of the rat uterus incubated in Ca-free EDTA-containing solution in response to PGE1, oxytocin and vanadate has been investigated in order to examine the mechanism of the release of Ca from intracellular stores. The results obtained show that PGE1 evoked a sustained contraction the magnitude of which diminishes slightly after successive additions of PGE1 but not after long exposure to Ca-free medium. Oxytocin induced two different contractions: one of them was transient and observed only after incubating for 5 min in Ca-free solution; the other remained constant during prolonged incubation in Ca-free medium. Vanadate, an inhibitor of Ca-ATPase, induced sustained contraction after prolonged exposure to Ca-free medium, and isoprenaline, which stimulates Ca re-uptake by intracellular organelles, counteracted the sustained contractile response induced by the three agonists.     

Calcium requirement of uterine contraction induced by PGE1: importance of intracellular calcium stores

The contraction of the rat uterus in response to PGE1 in high K+ medium and in Ca-free solution which contained EDTA has been investigated in order to examine whether excitation-contraction coupling involves the release of Ca from an intracellular store. In uterus maximally contracted by K+, cumulative concentrations of PGE1 (1.25 - 20 ng/ml) caused maintained concentration-dependent contraction. PGE1 induced sustained contraction of rat uterus in Ca-free medium after incubation with 3mM EDTA for 50 min. In these conditions the involvement of extracellular Ca is highly unlikely. The PGE1-induced contraction could be repeated without exposure to external Ca ions and with only slight reduction in magnitude. The PGE1 concentrations required to elicit uterine contraction in Ca-free solution were about 1000 times higher than the effective doses in KCl-depolarized uterus. In conclusion, the present investigation shows that Ca influx is not essential for PGE1-induced contraction of rat uterus, although extracellular Ca enhances it presumably by increasing the free Ca levels in the cytosol.     

Inhibitory action of prostaglandin E1 on smooth muscle contraction and calcium responses

The relation between the inhibitory action of prostaglandin E₁ (PGE₁) and external Ca concentration was investigated using the guinea-pig isolated ureter and the perfused central artery of the rabbit isolated ear. PGE₁ 20 ng/ml reduced the ureteral contraction evoked by a single electrical stimulation. This inhibitory action of PGE₁ was enhanced with a decreased external Ca concentration. PGE₁ 100 ng/ml also reduced Ca-induced contracture of the ureter depolarized in Ca-free K(80 mM)-Krebs' solution. Furthermore, PGE₁ 50 ng/ml inhibited the responses of peripheral vascular resistance to noradrenaline, and this effect increased with a reduced external Ca concentration.     

Ca2+-independent contraction of uterine smooth muscle

Rat uterine smooth muscle shows sustained contraction to oxytocin in Ca2+-free medium with EGTA, that is called "Ca-free contraction"(1). Participation of the rise in cytosolic free Ca2+ in this Ca-free contraction was tested. In Ca-free contraction, the cytosolic free Ca2+ level was not changed at all as measured with fura-2. Further, the chelation of cytosolic free Ca2+ with quin-2 did not at all affect Ca-free contraction. These results strongly suggest that Ca-free contraction is not triggered by Ca2+.     

Possible role of Na+ ions in intracellular Ca2+ release in frog auricular trabeculae

Membrane potential-current and mechanical tension of frog atrial muscle were studied in a Ca and Mg-free solution containing 1 mmol/l EGTA (Ca-free solution). Exposure to Ca-free solution resulted in a shortening of action potential duration within 1.5 min and a subsequent lengthening which were paralleled by changes in magnitude and duration of the contraction. Similarly, the slow inward current quickly disappeared and progressively reappeared with a quite slower inactivation time-course. Its reversal potential varied with [Na]0 as for a pure Na current. By 12 min in Ca-free solution, the tension-voltage relation could be interpreted as the sum of two components correlated with the slow inward current and the membrane potential respectively. Contractures in response to sustained large depolarizations had similar time courses in Ca-free solution and Ringer's containing Na-Ca exchange blockers (Mn2+ 15 mmol/l or La3+ 3 mmol/l). Intracellular Na loading by voltage-clamp depolarizations (40 mV from the resting potential for 100 ms, at 0.2 Hz) in the presence of Veratrine (7.5 X 10(-6) g/ml) caused a large progressive increase in tonic tension. An intracellular Ca2+ release is invoked, partly related to Na+ entry and partly to membrane potential changes. The potential dependent part could be influenced by intracellular Na+.     

Physiological and cytochemical studies on activator calcium in contraction by smooth muscle of a sea cucumber,Isostichopus badionotus

Summary The physiological properties of mechanical responses and the intracellular localization and translocation of calcium as a pyroantimonate precipitate were studied in the longitudinal retractor muscle (LRM) of a Bermuda sea cucumber. Acetylcholine (ACh)-induced contraction was reduced by lowering the external Ca concentration, and suppressed completely by prolonged soaking in Ca-free solution. The magnitude of ACh-induced contraction was decreased by Mn and La ions. Furthermore, procaine reduced the ACh-induced contraction. The complete removal of Ca and Mg ions from the external medium induced a socalled Ca · Mg-removal contraction. Electron microscopically, numerous subsarcolemmal vesicles were observed in the LRM fibers. In the resting fibers, pyroantimonate precipitates were localized in the subsarcolemmal vesicles and along the inner surface of plasma membrane. While, in the fiber fixed during mechanical activity, the pyroantimonate precipitates were decreased remarkably in the subsarcolemmal vesicles and at the plasma membrane, and diffusely distributed in the myoplasm. Electronprobe X-ray microanalysis showed that the precipitate contains Ca in a significant amount. These results indicate that the contraction of the LRM fibers is caused not only by Ca-influx but also by Ca-release from the intracellular storage sites, such as the subsarcolemmal vesicles and the inner surface of plasma membrane.     

PGE2 attenuates PGF2α-induced increases in free intracellular calcium in ovine large luteal cells

When ovine large luteal cells are placed in culture and exposed to PGF_2α, there is a rapid and sustained increase in the concentration of free intracellular calcium which is believed to play a major role in the luteolytic and cytotoxic effects of PGF_2α. Since administration of exogenous PGE₂ can prevent spontaneous and PGF_2α-induced luteolysis in vivo, and the cytotoxic effects of PGF_2α on large luteal cells in vitro, the objective of this study was to determine if one mechanism by which PGE₂ acts is to attenuate increases in free intracellular calcium induced by PGF_2α. At concentrations of 10 nM or greater, PGF_2α caused a significant and sustained increase in free intracellular calcium in large luteal cells. Similarly, PGE₂ also induced increases in free intracellular calcium but required doses 20-fold greater than PGF_2α. When PGE₂ (1, 10 or 100 nM) was incubated with PGF_2α (100 nM) increases in free intracellular calcium induced by PGF_2α were attenuated (P<0.05) when measured 5 min, but not at 30 min, after initiation of treatment. The observed decrease in the concentration of free intracellular calcium at 5 min in response to PGF_2α was the result of fewer cells responding to PGF_2α. In addition, the concentrations of free intracellular calcium attained in the cells that did respond was reduced 25% compared to cells treated with PGF_2α alone. Thus, part of the luteal protective actions of PGE₂ appears to involve an inhibition of the early (5 min) increase in free intracellular calcium induced by PGF_2α.     

The effect of ouabain on the guinea pig ileum longitudinal smooth muscle: 2. Intracellular levels of Ca, Na, K, and Mg during the ouabain response and the dependence of the response on extracellular Ca.

Isotonic Tris-HCl containing 10 mM LaCl3 at 4 degrees C effectively removed extracellular ions in 30 min while preventing loss of intracellular ions. Intracellular Ca and Na increased during the contraction in the presence of 10 mM ouabain and then decreased during relaxation. Intracellular Na increased again during the latter part of the relaxation phase when K loss became apparent. Mg levels remained essentially constant. Ouabain responses were rapidly lost in Ca-free medium indicating that they were dependent on extracellular Ca. A 5.5-fold increase in the normal levels of extracellular K did not reduce the contraction to a submaximal dose of ouabain. A full phasic response to high K (60 mM) was observed after a 10-min exposure of the tissue to ouabain, at which time the ouabain response had returned to basal tension. The contraction to ouabain appears to be dissociated from inhibition of the Na,K-ATPase at the K site. The changes in intracellular ions indicated that ouabain contracted the muscle by increasing the plasma membrane permeability to Ca and Na and later decreased the K and Na concentration gradients, probably by inhibition of the Na,K-ATPase.     

Effect of prostaglandin E2on the pressor response to peri-arterial stimulation and norepinephrine of the isolated perfused rabbit kidney

The interaction of prostaglandin E₂ (PGE₂) and aspirin with the responses to peri-arterial stimulation (PS) and norepinephrine (NE) was studied in the isolated kidney of rabbit perfused through the renal artery at constant flow with Krebs' solution. NE and PS increased vascular perfusion pressure of kidney and caused a contraction on the isolated rabbit aortic strip superfused with the effluent from kidney. Addition of PGE₂ to the perfusion medium decreased the PS-induced rise in perfusion pressure without changing the effect of exogenous NE. In contrast, addition of aspirin to the perfusion medium induced a potentiation of the response to PS but not to NE. These results suggest that PGE₂ modulates the effect of PS probably by inhibiting the release of NE from sympathetic nerve endings.     

Cyclic AMP and platelet prostaglandin synthesis

The present study has investigated the influence of agents which elevate intracellular levels of endogenous platelet adenosine 3′5′-cyclic monophosphate (cyclic AMP), and the effect of the exogenous cyclic AMP analog, dibutyryl cyclic AMP, on the conversion of ¹⁴C-arachidonic acid by washed platelets. Prostaglandin E₁ (PGE₁), PGE₁ with theophylline, or dibutyryl cyclic AMP incubated with washed platelets prevented arachidonic acid induced platelet aggregation, but had no effect on the conversion of arachidonic acid to 12L-hydroxy-5,8,10, 14-eicosatetraenoic acid (HETE), 12L-hydroxy-5,8,10 heptadecatrienoic acid (HHT), or thromboxane B₂. Ultrastructural studies of the platelet response revealed that agents acting directly or indirectly to increase the level of cyclic AMP inhibited the action of arachidonic acid on washed platelets and prevented internal platelet contraction as well as aggregation. The influence of PGE₁ with theophylline, and dibutyryl cyclic AMP on the thrombin induced release of ¹⁴C-arachidonic acid from platelet membrane phospholipids was also investigated. These agents were found to be potent inhibitors of the thrombin stimulated release of arachidonic acid from platelet phospholipids, due most likely to an inhibition of platelet phospholipase A activity. The results show that dibutyryl cyclic AMP and agents which elevate intracellular cyclic AMP levels act to inhibit platelet activation at two steps 1) internal contraction and 2) release of arachidonic acid from platelet phospholipids.     

Sodium and calcium interactions in vascular smooth muscle cells of the rabbit ear artery

The effects of Na-free and of K-free solutions on the membrane potential, on tension development, and on 45Ca exchange have been investigated in rabbit ear artery. The contraction induced by Na-free solutions and the tension which develops in K-free solutions after a delay of about 1 h are both submaximal. Exposure for 4 h to K-free solutions does not affect the membrane potential, whereas Na-free solutions depolarize the cells by 10-20 mV, depending on the Na-substitute. Neither the amplitude nor the rate constant of the slowly exchanging 45Ca-fraction is affected by these experimental procedures. Substituting external Na by choline or TMA induces a transient increase of the 45Ca-efflux rate which does not occur in a Ca-free efflux medium, and which can be blocked with La. K readmission to Na-enriched tissues hyperpolarizes the cells up to -100 mV and induces a relaxation, without exerting any effect on the 45Ca efflux rate. The release of Ca from intracellular stores, induced by histamine and FCCP, and its subsequent extrusion through the plasma membrane produce a transient stimulation of the 45Ca efflux, which is not affected by the reduction of the Na gradient. The transient contraction induced by histamine in Ca-free solutions is affected in a different way by different Na substitutes. The results do not fit the Na-Ca exchange hypothesis but are consistent with an effect of the Na gradient on the passive Ca influx.     

Electro- and pharmacomechanical coupling in the smooth muscle cells of the rabbit ear artery

A contraction of the rabbit ear artery can be induced by depolarizing the cells with a K-rich solution if Ca is present. 10(-9)-10(-6) M noradrenaline and 10(-8)-10(-7) M histamine cause a contraction of this tissue without modifying the membrane potential. If the histamine concentration exceeds 10(-7) M some depolarization of the membrane also occurs. Both noradrenaline and histamine also induce a contraction in Ca-free medium, even if La is present. None of these stimuli produces action potentials or fluctuations of the membrane potential. Besides these tonic contractions, the ear artery can also produce phasic contractions when 10 mM TEA is added to the medium. Such contractions are caused by the appearance of action potentials which are Ca dependent and which are similar to those appearing in visceral smooth muscle. A study of 45Ca fluxes has revealed that K depolarization and noradrenaline cause only a small increase in 45Ca uptake by the cells, while noradrenaline also releases cellular Ca, even in Ca-free medium. A comparison of tension development and 45Ca release induced by noradrenaline in Ca-free medium suggests that Ca extrusion could be very efficient in the rabbit ear artery and that it could play a direct role in its relaxation.     

Prostaglandin E2 increases the calcium concentration in rat brown adipocytes and their consumption of oxygen

Effects of prostaglandin E₂ (PGE₁) were examined on the oxygen consumption and intracellular calcium concentration of rat brown adipose tissue (BAT). PGE₂ 0.1 nM-1 μM increased oxygen consumption of the tissue blocks of BAT, with a maximum 2–13 min after PGE2 administration. PGE₂ was most effective at 1 and 10 nM, and the oxygen consumption was elevated for over 40 min. Pretreatment of BAT with indomethacin, a prostaglandin synthesis inhibitor, did not affect the increase in oxygen consumption induced by noradrenaline. PGE₂ at 1–10 nM gradually increased the intracellular calcium concentration of freshly dispersed single brown adipocytes by 3–4 times in 30 min. PGE₂ also increased the intracellular calcium concentration of brown adipocytes in calcium-free medium. These results raise the possibility that PGE₂ and noradrenaline affect heat genesis and metabolism of BAT independently.     

Prolonged prostaglandin E1 stimulation of cyclic AMP production in transformed and normal WI-38 fibroblasts

Summary Long-term (48-hr) incubations of either the fibroblast strain WI-48 or its SV40-transformed counterpart, WI-38-VA13-2RA, in growth medium containing 1 μm prostaglandin E₁ (PGE₁) resulted in a sustained production and release of cyclic AMP from the cells into the medium. Despite the steady production, intracellular levels of the nucleotide decreased, reaching steady-state values within 4 hr of the initial exposure to PGE₁. These values were maintained for the remainder of the 48-hr experimental period. The steadystate levels of intracellular cyclic AMP were higher than those observed in unstimulated cells, and cyclic AMP-dependent protein phosphokinase was in a highly activated state as compared to controls. Under these conditions little change in the growth or morphology of either the normal or transformed cells was observed. In contrast, inhibition of growth, apparent cell death, and unusual morphological changes were observed in both normal and transformed cells when high concentrations of either PGE₁ (10 μm) or the phosphodiesterase inhibitor 1-methyl, 3-isobutylxanthine (0.5mm to 2mm) were used, which was indicative of toxic effects of the drugs. It was concluded that cyclic AMP-mediated activation of protein phosphokinase does not completely inhibit growth in WI-38 cells or restore normal growth and morphology to the SV40-transformed cells. This work was supported by Grants AM 13904 and CA 21612 from the National Institutes of Health, Department of Health, Education and Welfare.     

Effects of dibutyryl cyclic AMP and prostaglandin E1 on cultured human glioma cells

Dibutyryl cyclic AMP (db-cAMP) and prostaglandin E₁ (PGE₁) induced morphological alterations in cultured human glioma cells (138 MG). Cells in serum-free medium, treated with db-cAMP (1 mM) or PGE₁ (10μg/ml), within 1–3 h showed multiple thin processes resembling those of normal glial cells. These processes increased in size during a 24 h incubation. In serum-containing medium the appearance of cells with multiple processes was delayed. The induced morphological alterations were reversible upon exchange with fresh serum-containing but not with serum-deprived medium. Actinomycin D (5 μg/ml) did not prevent the changes induced by PGE₁ or db-cAMP. Inhibition of protein synthesis with cycloheximide (10 μg/ml) did not arrest the initial (1–3 h) changes in morphology but blocked further growth of the processes on prolonged incubation. Vinblastine sulphate (0.1 μg/ml) completely inhibited the alterations induced by PGE₁ or db-cAMP.     

Effect of prostaglandins on uterine contractions in the estrous ewe.

Administration of exogenous prostaglandins at the time of mating may improve fertility via their effects on uterine contractility. The present study was undertaken to compare the effects of three prostaglandins that affect either the male or female reproductive uterine contractility. Contractions in the uterine body of anesthetized ewes during estrus were studied before, during and after a 5 min interval of systemic infusion of prostaglandin F_2α-THAM salt (PGF_2α; 5 mg), prostaglandin E₁ (PGE₁; 5 mg), prostaglandin E₂ (PGE₂; 5 mg) or vehicle. Pressure changes were detected by the use of an open-ended intrauterine catheter and a transducer. Each of the three prostaglandins initially caused a single prolonged contraction that lasted about 10 minutes and had a maximum pressure of 50 mm Hg. Prior to the prolonged contraction, PGE₁ and E₂ caused a relaxation for about 1 minute. In addition, PGE₁ and E₂ caused more secondary contractions (15–20) during the prolonged contraction than did PGF_2α (7–9). The effects of prostaglandin (PG) treatment lasted for 20–30 minutes. The authors conclude that with the dose used the three prostaglandins studied do not have greatly different effects on uterine contractility in estrous ewes.     

Contractile responses of the human umbilical artery to KCl and serotonin in Ca-free medium and the effects of levcromakalim

It is known that K(ATP) channel openers inhibit the release and refilling of Ca(2+) from intracellular stores. The present study was designed to test the effects of levcromakalim in human umbilical artery (HUA) rings stimulated by serotonin (5-HT) and KCl in Ca-free medium. Umbilical cords were obtained at vaginal or cesarean deliveries from healthy, term pregnancies. After the isolation, HUA rings were placed in organ baths in solution with indomethacin (10(-5) M) and N(G)-nitro-L-arginine methyl ester (L-NAME) (10(-3) M) at 37 degrees C and aerated with 95% O(2) and 5% CO(2) for the measurement of isometric force. In Ca-free solution with Ethylene glycol-bis (ss-aminoethyl ether)-N,N,N',N'-tetraacetic acid (EGTA) (2 mM) the contractions produced by 5-HT (10(-6) M) and KCl (40 mM) decreased significantly. Afterwards, HUA rings were treated with 5-HT and KCl in repeated manner in Ca-free medium. In contrast to KCl, 5-HT induced contractions reduced in each application, progressively. Levcromakalim (10(-4) M) abolished the contractions elicited by 5-HT. On the other hand, levcromakalim had a little but significant inhibitory effect on KCl induced contraction in Ca-free medium. These results suggest that Ca(2+) is not the only transduction pathway in KCl produced contractions of HUA smooth muscle cells.     

Effects of caffeine on crayfish muscle fibers. II. Refractoriness and factors influencing recovery (repriming) of contractile responses

When caffeine evokes a contraction, and only then, crayfish muscle fibers become refractory to a second challenge with caffeine for up to 20 min in the standard saline (5 mM K_o). However, the fibers still respond with contraction to an increase in K_o, though with diminished tension. Addition of Mn slows recovery, but the latter is greatly accelerated during exposure of the fiber to high K_o, or after a brief challenge with high K_o. Neither the depolarization induced by the K, nor the repolarization after its removal accounts for the acceleration, which occurs only if the challenge with K had itself activated the contractile system; acceleration is blocked when contractile responses to K are blocked by reducing the Ca in the bath or by adding Mn. Recovery is accelerated by redistribution of intracellular Cl and by trains of intracellularly applied depolarizing pulses, but not by hyperpolarization. The findings indicate that two sources of Ca can be mobilized to activate the contractile system. Caffeine mobilizes principally the Ca store of the SR. Depolarizations that are induced by high K_o, by transient efflux of Cl, or by intracellularly applied currents mobilize another source of Ca which is strongly dependent upon the entry of Ca from the bathing medium. The sequestering mechanism of the SR apparently can utilize this second source of Ca to replenish its own store so as to accelerate recovery of responsiveness to a new challenge with caffeine.     

Evidence for lipoxygenase pathway involvement in allergic tracheal contraction

Challenge of actively sensitized guinea-pig trachea in vitro led to a contraction which was enhanced by the cyclo-oxygenase inhibitors, indomethacin and sodium meclofenamate. Cyclo-oxygenase inhibitors eliminated the release of PGE-like material induced by arachidonic acid (AA), histamine, and antigen challenge. AA (10 μg./ml.) and PGE₂ (100 ng./ml.) usually relaxed the trachea, whereas in the presence of cyclo-oxygenase inhibitors a contraction occurred. Phenidone and ETYA, which also blocked the lipoxygenase pathway of AA metabolism inhibited the enhancement of allergic tracheal contraction induced by cyclo-oxygenase inhibitors, decreased the time that the trachea remained contracted, and also eliminated the contraction induced by AA and PGE₂. Thus, cyclo-oxygenase inhibitors may enhance allergic tracheal contraction by diverting AA metabolism into the lipoxygenase pathway and a product of the latter pathway, possibly SRS-A, may be responsible for the enhancement and for the prolonged phase of allergic tracheal contraction. An analogous mechanism may account for aspirin-induced asthma in man.