Effects of digoxin on islated human mesenteric vessels.

Digoxin had contractant effects on isolated, human mesenteric arteries and veins. Veins were more sensitive to this action of the glycoside than arteries. The contractions were not affected by phentolamine or by washing with a digoxin-free solution. However, they were abolished by the calcium antagonist nifedipine, and by washing with a calcium-free medium. In the presence of digoxin, the maximum response to noradrenaline (1.8 x 10(-5) M) increased markedly in both arteries and veins, and the concentration-response curve for the amine was displaced to the left. Immersion of vein preparations in calcium-free solution for 30 min. abolished the digoxin contracture; an increase in extracellular calcium restored the response. Changes in extracellular potassium concentration caused changes in tension in tension of the mesenteric veins similar to those previously demonstrated in peripheral veins--both in the presence and in the absence of digoxin. It is concluded that digoxin contracts mesenteric vessels by a direct action on the muscle cells, and potentiates the contractant effects of noradrenaline. These effects are dependent on the availability of extracellular calcium. Mesenteric vascular reactions caused by changes in extracellular potassium are influenced by digoxin.     

Enhanced contractile responses of arteries from streptozotocin diabetic rats to sodium fluoride.

1. Previous studies from this laboratory have demonstrated that alpha 1-adrenoceptor-mediated increases in tension and phosphoinositide metabolism are enhanced in the aorta and mesenteric arteries from diabetic rats. The purpose of the present investigation was to determine whether contractile responses to sodium fluoride (NaF), which directly stimulates GTP-binding proteins (G-proteins), are also enhanced in diabetic arteries. 2. NaF (1-20 mM) in the presence of 10 microM aluminium chloride produced slowly developing, concentration-dependent contractions in mesenteric arteries from three month streptozotocin-diabetic (60 mg kg-1, i.v.) male Wistar rats and age-matched control rats. The maximum contractile response but not the sensitivity to NaF was significantly greater in mesenteric arteries from diabetic than from control rats, as was the response to noradrenaline (NA). Maximum contractile responses of aorta and caudal artery from diabetic rats to NaF were also significantly enhanced. 3. Removal of the endothelium and denervation with 6-hydroxydopamine did not significantly alter the maximum contractile response of mesenteric arteries from either control or diabetic rats to NaF. Similarly, NaF had no effect on cyclic AMP levels in aorta, and no difference in cyclic AMP levels, either basally or in the presence of NaF, was detected between control and diabetic rat aorta. 4. Contractile responses of mesenteric arteries from both control and diabetic rats to NaF were diminished in calcium-free Krebs solution, but the NaF response remained significantly elevated in mesenteric arteries from diabetic rats compared to control. 5. Ryanodine (30 microM) which depletes intracellular calcium stores, nifedipine (3 microM) which blocks dihydropyridine-sensitive calcium channels and calphostin C (0.5 microM) which selectively inhibits protein kinase C, all significantly inhibited maximum contractile responses of mesenteric arteries from control and diabetic rats to NaF. There were no significant differences between control and diabetic arteries in the relative magnitude of the inhibition produce by the three antagonist. 6. These data suggest that there may be increased activation of the same signalling processes that mediate NA-stimulated vasoconstriction, perhaps contraction-associated G-proteins or the effectors coupled to these G-proteins, in response to NaF in mesenteric arteries from diabetic rats. This may also be responsible for the enhanced contractile responses of these arteries to alpha 1-adrenoceptor stimulation.     

The contribution of calcium and potassium to the alpha-action of adrenaline on smooth muscle cells of the portal vein, pulmonary artery and taenia caeci of the guinea-pig

The role of calcium and potassium in the alpha-action of adrenaline in pulmonary artery and portal vein was compared with that in taenia caeci by measuring changes in membrane potential, muscle contraction and ion fluxes in quiescent preparations from guinea-pigs (23 degrees C). The depolarization evoked by adrenaline (5 x 10(-8)-3 x 10(-5) M) was sustained in portal vein; in pulmonary artery it declined to a constant level after reaching an initial maximum. In calcium-free medium (20 min) containing EGTA (0.4 mM) and high magnesium (6.2 mM) adrenaline did not affect the membrane potential or the contractile state of the portal vein. Under these conditions the sustained phase of the response was abolished in the pulmonary artery; the remaining transient depolarization and contraction could be evoked only once. Adrenaline (3 x 10(-5) M) caused an increased 45Ca loss and 86Rb loss from the pulmonary artery and taenia caeci in calcium-free solution; a second addition of adrenaline to the calcium-free solution did not enhance the 45Ca loss from these tissues. The portal vein responded with an enhanced 86Rb loss on addition of the alpha-agonist. The bee toxin apamin (3 x 10(7) M) did not modify the depolarization, the contraction or the 45Ca and 86Rb fluxes evoked by adrenaline in the blood vessels. Enhancement of the 86Rb loss from taenia in the presence of adrenaline was prevented by apamin, but the excess loss of 45Ca was not abolished. It is concluded that adrenaline enhances cytoplasmic calcium by promoting calcium entry from the extracellular space in portal vein. In pulmonary artery and taenia caeci this is accompanied by mobilization of calcium from a cellular structure. Calcium entry facilitates triggering of the contractile proteins in vascular smooth muscle and is associated with membrane depolarization; in taenia caeci the mobilization of calcium caused by alpha-receptor activation is associated with the opening of potassium channels producing hyperpolarization and accordingly relaxation of the smooth muscle cells.     

Effects of a phorbol ester and staurosporine on electro- and pharmacomechanical coupling in a resistance artery.

We examined the role of protein kinase-C in contractile responses of small arteries of the rat by stimulating and inhibiting protein kinase-C with phorbol myristate acetate and staurosporine, respectively. The experiments were performed in isolated mesenteric resistance arteries that had been sympathectomized and mounted for recording of isometric force development. Phorbol myristate acetate (i) at concentrations lower than 3 nM increased sensitivity for the contractile effect of potassium, but not for the effect of noradrenaline or BAY-K8644, (ii) at concentrations higher than 30 nM increased the sensitivity of depolarized vessels to extracellular calcium and (iii) at concentrations higher than 30 nM induced a contractile effect that depended on the presence of extracellular calcium and that was reduced by the calcium antagonist felodipine. Neither the phorbol ester nor staurosporine affected contractile responses to caffeine in calcium-free solution. Staurosporine (10 nM) reduced the response of resistance arteries to potassium but not to noradrenaline. These results are in agreement with direct observations by others that protein kinase-C plays a role in the activation of voltage-operated calcium channels. Protein kinase-C could participate in this way in electro-mechanical coupling in resistance arterial smooth muscle and, when strongly activated, sensitize the contractile apparatus to calcium.     

The influence of alpha, beta-methylene ATP on alpha 1-receptor-operated channels in guinea-pig taenia caeci

The influence of the ATP analog alpha, beta-methylene ATP on the action of adrenaline on alpha 1-receptors of smooth muscle cells of guinea-pig taenia caeci was studied by measuring potential changes. The preparation was superfused (1 ml/min) with Krebs solution or calcium-free solution containing atropine (10(-6) M) and propranolol (10(-6) M) at 22 degrees C, using the sucrose-gap method. The ATP analog (10(-5) to 4 X 10(-4) M) and adrenaline (10(-5) M) both caused a transient hyperpolarization in the absence of external calcium (20 min). The response (area under the 'curve') evoked under calcium-free conditions (20 min) increased with the concentration of the ATP analog. The response was diminished when preceded by the adrenaline response (10(-5) M) or when evoked after repeated addition of the analog to the superfusate (35 min). The adrenaline response was also diminished when preceded by the ATP analog. The responses to the ATP analog or adrenaline in the presence of apamin (3 X 10(-7) M) in the absence of external calcium were characterized by depolarization of the muscle cells. Repeated addition of the ATP analog or adrenaline to the preparation under these conditions did not cause any effect. The results suggest strongly that adrenaline and alpha, beta-methylene ATP both activate the same calcium-dependent process, producing calcium mobilization and the opening of apamin-sensitive potassium channels. Besides this action the ATP analog also activates apamin-sensitive potassium channels and this activation is independent of the availability of calcium in the adrenaline-sensitive pool.     

Inhibitory action of aliphatic alcohols on smooth muscle contraction.

The addition of 0.05-0.20 mM CaCl2 to the isolated guinea pig ileum immersed in a depolarizing (excess potassium), and calcium-free Tyrode solution produces a dose-related contraction, which is reversibly blocked by aliphatic alcohols of low molecular weight. The inhibitory potency of the alcohols increases with the length of their carbon chain, and may be due to an interference with the movement of calcium across the smooth muscle cell membrane.     

Effects of Digoxin on Isolated Human Mesenteric Vessels

Abstract Digoxin had contractant effects on isolated, human mesenteric arteries and veins. Veins were more sensitive to this action of the glycoside than arteries. The contractions were not affected by phentolamine or by washing with a digoxin-free solution. However, they were abolished by the calcium antagonist nifedipine, and by washing with a calcium-free medium. In the presence of digoxin, the maximum response to noradrenaline (1.8 × 10^-5 M) increased markedly in both arteries and veins, and the concentration-response curve for the amine was displaced to the left. Immersion of vein preparations in calcium-free solution for 30 min. abolished the digoxin contracture; an increase in extracellular calcium restored the response. Changes in extracellular potassium concentration caused changes in tension of the mesenteric veins similar to those previously demonstrated in peripheral veins - both in the presence and in the absence of digoxin. It is concluded that digoxin contracts mesenteric vessels by a direct action on the muscle cells, and potentiates the contractant effects of noradrenaline. These effects are dependent on the availability of extracellular calcium. Mesenteric vascular reactions caused by changes in extracellular potassium are influenced by digoxin.     

PY 108-068, a new, potent, and selective inhibitor of calcium-induced contraction of rabbit aortic rings

PY 108-068 (PY) is a new benzoxadiazolyle dihydropyridine derivative. It potently antagonizes calcium-induced contractions of rabbit aorta in depolarizing solution (PD'2:8.8). This antagonism is selective, since no relevant antagonistic effects against noradrenaline (NA)-, serotonin (5-HT)-, and angiotensin II (AII)-induced contractions are found at the highest concentration of PY (10(-5) M). Verapamil (V), examined for comparison, was less selective with respect to its antagonism: pA2 value against calcium-induced contractions in depolarizing solution: 7.6, pA2 against serotonin-induced contractions: 6.9. In calcium-free Krebs--Henseleit solution tachyphylaxis occurred after three to four administrations of NA, 5-HT, or AII. When calcium was added in the presence of one of these agonists, the slow phase of concentration, which depends on extracellular calcium, developed. This slow phase of contraction was not inhibited to a relevant extent by a 10(-5) M concentration of PY. Verapamil inhibited the tonic contraction induced by serotonin (pD'2: 5.5) but not to a relevant extent the contractions induced by the two other agonists. PY therefore, inhibits calcium-induced contractions of rabbit aorta in depolarizing solution very selectively, and shows hardly any effects on receptor-operated channels.     

Calcium dependence of contractile activation of isolated sheep urethra. II: Responses to exogenous noradrenaline

Isolated smooth muscle of sheep urethra responded to exogenous noradrenaline (NA) with a concentration-dependent contraction. After exposing the preparations for 30 min. to calcium-free medium, NA in a submaximal concentration was still able to produce a contractile response amounting to 36% of control value in calcium-containing solution. Readmission of calcium (administered cumulatively) restored the response in a concentration-related fashion to 85% (at 5 mM calcium) of control level. Nifedipine and verapamil failed to inhibit these graded calcium contractions in the presence of NA. Verapamil and diltiazem also failed to significantly prevent contraction induced by NA in a submaximum concentration, but nifedipine showed a concentration-dependent inhibitory effect, with a potency 1000 times lower than that observed on K+ (124 mM) induced contractions. In calcium-free medium, repeated applications of NA at 30 min. intervals, induced a progressive reduction in contractile amplitude. Nifedipine or verapamil did not affect the time course for recovery of NA-induced contraction when the preparations were returned to calcium containing medium, but the recovery was blocked almost completely by lanthanum. Furthermore, lanthanum abolished the remaining NA contraction in calcium-free medium. The results suggest that NA-induced contraction in isolated sheep urethra is dependent on both influx of extracellular calcium and on release of intracellular calcium. Calcium influx for contractile activation and refilling of intracellular stores seem to occur through membrane channels that can only partly be blocked with calcium antagonists.     

Ammonium ion increases the tone of rat portal vein.

1. The effect of ammonium ion on vascular tone was investigated using the portal vein isolated from rat. 2. Ammonium chloride at 10-90 mM induced a contractile response. 3. Spontaneous twitch contraction of portal strips was augmented by ammonium chloride at 10-60 mM. 4. Ammonium chloride-induced contraction was abolished in calcium-free solution or in the presence of 1 microM nifedipine. 5. Methylamine (60 mM) also induced a contractile response and augmented the spontaneous twitch contraction in rat portal vein. 6. After withdrawal of ammonium chloride or methylamine from the organ bath solution, the spontaneous twitch contraction was strongly inhibited. 7. These results suggest that ammonium compounds increase vascular tone by causing influx of extracellular calcium through the voltage-dependent calcium channel and intracellular alkalinization is involved in this process.     

Actions of prostaglandin F2 alpha and noradrenaline on calcium exchange and contraction in rat mesenteric arteries and their sensitivity to calcium entry blockers.

1 The actions of prostaglandin F2 alpha (PGF2 alpha) and noradrenaline on contraction and 45Ca exchange have been studied in rat mesenteric arteries. 2 PGF2 alpha and noradrenaline contracted rat isolated mesenteric artery preparations to about the same extent. The PGF2 alpha-stimulated contractions, unlike those produced by noradrenaline, were completely inhibited in calcium-free physiological solution. 3 The calcium entry blocking drugs, cinnarizine and flunarizine, had little effect on the resting exchange of calcium in the arterial smooth muscle, but inhibited PGF2 alpha-stimulated contractions and 45Ca uptake to a similar extent. 4 Flunarizine was about 7 fold more potent as an inhibitor of noradrenaline- than of PGF2 alpha-mediated contraction and 45Ca uptake and this ratio was about 50 for cinnarizine. 5 EGTA (1.25 mM) produced a relaxation of noradrenaline and PGF2 alpha-induced maximal contractions. Measured over the first 2 min of EGTA contact, the rate of relaxation was much faster in noradrenaline than in PGF2 alpha-stimulated preparations. 6 Turnover of cellular calcium (influx plus efflux) during the first 2 min of noradrenaline contact was much greater than that produced by PGF2 alpha, largely due to a greater effect of noradrenaline on calcium efflux. 7 The results suggest that PGF2 alpha-but not noradrenaline-induced contractions are entirely dependent on the influx of extracellular calcium and that the agonists may stimulate calcium gating mechanisms differently.     

Differing calcium sensitivities of human cerebral and digital arteries, human metatarsal veins, and rat aorta

1. The effects of the voltage dependent calcium channel blocking agent nifedipine, and of a calcium free bathing medium, on the responses of human blood vessels obtained postmortem to various agonists have been compared with those of the rat aorta. The human vessels studied were digital arteries, basilar arteries and metatarsal veins. 2. Responses to potassium chloride (5-80 mM), noradrenaline (10(-9)-10(-4) M), 5-hydroxytryptamine (10(-8)-10(-4) M) and U46619 (10(-11)-10(-6) M), in the presence and absence of nifedipine (1, 10, and 100 nM) or in a calcium-free bathing medium, were assessed using an area-under-curve analysis. 3. In general, the order of sensitivity of the vessels to inhibition of agonist induced contractures by nifedipine was basilar arteries greater than metatarsal veins = digital arteries = rat aorta. 4. For all the vessels, the order of sensitivity for antagonism of responses to the agonists by nifedipine was potassium chloride greater than 5-hydroxytryptamine = noradrenaline greater than U46619. 5. A calcium free bath inhibited responses of digital arteries to potassium chloride more than noradrenaline, 5-hydroxytryptamine or U46619, and responses of rat aorta to a greater extent than responses of the digital arteries. 6. In the rat aorta, a calcium-free bath inhibited responses to all agonists (except KCl) to a greater degree than did nifedipine. 7. We conclude that inhibition of extracellular calcium entry through voltage dependent calcium channels affects contractile responses of different blood vessels to different extents, and, within the same blood vessel, responses to different contractile agonists to different extents.     

Calcium Dependence of Contractile Activation of Isolated Sheep Urethra II: Responses to Exogenous Noradrenaline

Isolated smooth muscle of sheep urethra responded to exogenous noradrenaline (NA) with a concentrationdependent contraction. After exposing the preparations for 30 min. to calcium-free medium, NA in a submaximal concentration was still able to produce a contractile response amounting to 36% of control value in calcium-containing solution. Readmission of calcium (administered cumulatively) restored the response in a concentration-related fashion to 85% (at 5 mM calcium) of control level. Nifedipine and verapamil failed to inhibit these graded calcium contractions in the presence of NA. Verapamil and diltiazem also failed to significantly prevent contraction induced by NA in a submaximum concentration, but nifedipine showed a concentration-dependent inhibitory effect, with a potency 1000 times lower than that observed on K⁺ (124 mM) induced contractions. In calcium-free medium, repeated applications of NA at 30 min. intervals, induced a progressive reduction in contractile amplitude. Nifedipine or verapamil did not affect the time course for recovery of NA-induced contraction when the preparations were returned to calcium containing medium, but the recovery was blocked almost completely by lanthanum. Furthermore, lanthanum abolished the remaining NA contraction in calcium-free medium. The results suggest that NA-induced contraction in isolated sheep urethra is dependent on both influx of extracellular calcium and on release of intracellular calcium. Calcium influx for contractile activation and refilling of intracellular stores seem to occur through membrane channels that can only partly be blocked with calcium antagonists.     

Voltage and receptor mediated contractile activity of colonic smooth muscle in calcium-free solution

Normal mechanical activity of cat colonic muscle segments was abolished during incubation in calcium-free solution. In calcium-free solution, contractions could be induced by direct electrical stimulation or by depolarization with high potassium. In high potassium calcium-free solution, carbachol also induced an additional contractile response due to muscarinic receptor occupation. It is concluded that in colonic smooth muscle, depolarization mediated, as well as receptor mediated, release of intracellular calcium occurs.     

Peptides do not induce contractions in gastrointestinal smooth muscle in calcium-free solution.

1. Smooth muscle from six sites in the cat gastrointestinal tract was evaluated with respect to its ability to generate contractions in calcium-free solutions. 2. Membrane depolarization and carbachol, but not cholecystokinin or neurotensin, increased tension in smooth muscle segments of esophagus, corpus, duodenum, ileum, proximal colon and distal colon in calcium-free solution. 3. Substance-P produced a contractile response in the absence of calcium but only in the corpus and distal colon. 4. These findings indicate that peptide mediated release of intracellular calcium plays a minimal role in activation of cat gastrointestinal smooth muscle.     

An evaluation of vardenafil as a calcium channel blocker in pulmonary artery in rats

Objective:

Vardenafil was reported to relax rat pulmonary artery through endothelium-dependent mechanisms. The aim of this in vitro study was to investigate other related mechanisms for this effect.

Materials and Methods:

Endothelium-intact and denuded artery rings were suspended in order to record isometric tension. In the rings with or without endothelium, the concentration-response curves for vardenafil were generated. In the rings without endothelium the contractile response induced by phenylephrine (Phe) or KCl was assessed in the presence or absence of vardenafil. In the last set of experiments, pulmonary artery rings were exposed to calcium-free isotonic depolarizing solution and the contractile response induced by the addition of calcium was evaluated in the presence or absence of vardenafil, nifedipine, verapamil or 1H-[1,2,4] oxadiazolo[4,3-a] quinoxalin-1-one (ODQ).

Results:

Vardenafil attenuated pulmonary artery contraction induced by phenylephrine in the presence and absence of endothelium. In addition, vardenafil attenuated both Phe or KCl-induced contraction but, it''s effect on the KCl dose-response curve was more significant. Vardenafil also inhibited the contractile response induced by calcium in a dose-dependent manner. Addition of nifedipine or verapamil did not significantly alter this effect while ODQ incubation significantly inhibited vardenafil-induced relaxation.

Conclusion:

From these findings, it was proposed that vardenafil relaxed rat pulmonary artery through inhibiting calcium influx.KEY WORDS: Calcium, phosphodiesterase type 5 inhibitors, pulmonary artery, vardenafil     

Effect of calcium and calmodulin antagonists on contractile responses of the human uterine artery.

1. The dependence on extracellular calcium of contractile responses of intramyometrial arteries (0.5-2 mm diameter), as well as the effects of various types of calcium antagonists on these responses, were studied. Contractions were induced by K-depolarization (K) and noradrenaline (NA). 2. Whereas the K response was completely abolished in a calcium-free medium containing 2 mM LaCl3, the NA response was substantially maintained. 3. Nimodipine strongly inhibited the K response but had a relatively weak effect on the NA response; the IC50 values for the K and NA responses being 2 nM and 6 microM, respectively. Corresponding values for verapamil were about 0.7 and 10 microM. 4. Calmodulin antagonists, particularly trifluoperazine and flunarizine, caused a greater inhibition of the NA than of the K response. 5. These results indicate that besides the extracellular calcium which appears to be the major source of activator calcium, there is an intracellular pool of calcium which can be utilized to activate, albeit to a limited extent, drug-induced contractile responses.     

The mechanism of action of alpha 2-adrenoceptors in human isolated subcutaneous resistance arteries.

1. The effect of noradrenaline and the selective alpha 2-adrenoceptor agonist, azepexole, on tone and intracellular Ca2+ ([Ca2+]i) was examined in human isolated subcutaneous resistance arteries. Isolated arteries were mounted on an isometric myograph and loaded with the Ca2+ indicator, fura-2, for simultaneous measurement of force and [Ca2+]i. 2. High potassium solution (KPSS), noradrenaline and azepexole increased [Ca2+]i and contracted subcutaneous arteries in physiological saline. When extracellular Ca2+ was removed and the calcium chelator, BAPTA, added to the physiological saline (PSSo), responses to noradrenaline were transient and reduced, and responses to azepexole were markedly inhibited. 3. Ryanodine, an agent which interferes with Ca2+ release from intracellular stores, had little effect on contractile responses to KPSS, noradrenaline or azepexole in physiological saline. The response to caffeine in physiological saline was inhibited by ryanodine. In PSSo, ryanodine partially inhibited contractile responses to noradrenaline and azepexole, and completely abolished the response to caffeine. 4. Noradrenaline and azepexole both significantly increased maximum force achieved by cumulative addition of Ca2+ to a Ca(2+)-free depolarizing solution and shifted the calculated relationship between [Ca2+]i and force to the left, suggesting these agents increase the sensitivity of the contractile apparatus to [Ca2+]i. 5. (-)-202 791, a dihydropyridine antagonist of voltage-operated calcium channels partially inhibited both the contractile response and the rise in [Ca2+]i induced by azepexole. Pre-treatment of arteries with pertussis toxin inhibited responses to azepexole, but had no significant effect on tone induced by KPSS or noradrenaline.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of L-methionine on contractile response, calcium influx and calcium channel blocking agents in the rat aorta

L-Methionine incubated with aorta strips and S-adenosyl-L-methionine incubated with aorta membranes methylate membrane phospholipids. L-Methionine enhances the contractile response of helical strips of rat aorta to KCl. L-Methionine also enhances the slow component of the contractile response of rat aorta to norepinephrine associated with influx of exogenous calcium. L-Homocysteinethiolactone inhibits methylation of membrane phospholipids and depresses the contractile response to KCl and to norepinephrine. L-Methionine enhances and L-homocysteinethiolactone depresses KCl-stimulated influx of calcium into rat aorta strips. L-Methionine has no effect on calcium efflux. Tested against calcium channel blocking agents, L-methionine reduces the inhibition caused by diltiazem and chlorpromazine but not that caused by TMB 8 or verapamil. It is postulated that methylated intermediates of phospholipid methylation enhance the function of membrane calcium channels.     

Stimulation of adenosine 3′,5′-monophosphate formation in guinea-pig cerebral cortical slices in a calcium free medium

Summary In guinea-pig cerebral cortical slices cyclic AMP concentrations increase during incubation with histamine+noradrenaline. After 10 min of incubation the levels of cyclic AMP start to decline. When calcium ions are omitted from the incubation medium, cyclic AMP levels do increase to a greater extent under the same conditions and do not drop during 30 min incubation. In the presence of calcium ions cyclic AMP synthesis can not be elicited by noradrenaline alone. In calcium-free Krebs-Ringer solution a pronounced effect of noradrenaline on cyclic AMP levels is observed. This effect of noradrenaline is shown to be mediated by a classical -type receptor. 5-Hydroxytryptamine, prostaglandin E ₁ and dopamine do not significantly enhance cyclic AMP formation in guinea-pig brain slices in either the presence in, or the absence of calcium ions from the incubation medium. Under depolarizing conditions of incubation the stimulatory effect of ouabain or 125 mM K⁺ is blocked in a calcium-free medium, while with the depolarizing agent veratridine no significant reduction of cyclic AMP formed during incubation in a calcium-free medium is obtained.