K+ channel openers,cromakalim and Ki4032, inhibit agonist-induced Ca2+ release in canine coronary artery

Summary The effects of K⁺ channel openers, cromakalim and an acetoxyl derivative of KRN 2391 (Ki 4032), were studied on force of contraction, increases in intracellular calcium concentration ([Ca²⁺]_i) measured by fura-2 and inositol 1,4,5-trisphosphate (IP₃) production induced by the thromboxane A₂ analogue, U46619, in canine coronary arteries. Upon single dose applications of U46619 at 300 nmol/l, phasic and tonic increases in [Ca²⁺]_i and force were seen, which were almost abolished by cromakalim (10 mol/l) and Ki4032 (100 mol/l).In the absence of extracellular Ca²⁺, U46619 induced a transient increase in [Ca²⁺]_i with a contraction. Cromakalim (0.01–10 mol/l) and Ki4032 (0.1–100 mol/l) concentration-dependently inhibited the increases in [Ca²⁺]_i and contraction. The inhibitory effects of cromakalim and Ki4032 were blocked by the K⁺ channel blocker tetrabutylammonium (TBA) and counteracted by 20 mmol/l KCl-induced depolarization. Cromakalim and Ki4032 did not affect caffeine-induced Ca²⁺ release. Cromakalim reduced U46619-induced IP₃ production significantly and TBA blocked this inhibitory effect. These results suggest that the hyperpolarization of the plasma membrane by K⁺ channel openers inhibits the production of IP₃ and Ca ²⁺ release from intracellular stores related to stimulation of the thromboxane A₂ receptor.Correspondence to T. Yanagisawa at the above address     

Vasorelaxing effect in rat thoracic aorta caused by fraxinellone and dictamine isolated from the Chinese herb Dictamnus dasycarpus Turcz: comparison with cromakalim and Ca2+ channel blockers

Summary The components of Dictamnus dasycarpus Turcz were tested for their vasorelaxing effect on the rat aorta, and fraxinellone and dictamine were shown to be effective vasorelaxants. In high K⁺ (60 mmol/l) medium, Ca²⁺ (0.03 to 3 mmol/l)-induced vasoconstriction was inhibited concentration-dependently by both agents. The IC₅₀ for fraxinellone and dictamine were calculated to be about 25 mol/l and 15 mol/l (for Ca²⁺) concentration of (1 mmol/l), respectively. Cromakalim (0.2–10) mol/l relaxed aortic rings precontracted with 15 but not 60 mmol/l of K⁺. Fraxinellone and verapamil were more potent and effective in producing relaxation in 60 mmol/l than in 15 mmol/l K⁺-induced contraction. However, dictamine was more potent in producing relaxation in 5 mmol/l K⁺-induced contraction. Nifedipine (1 mol/l), dictamine (100 mol/l) and fraxinellone (100 mol/l) relaxed the aortic contraction caused by KCl or Bay K 8644. The tonic contraction elicited by nor adrenaline (NA, 3 mol/l) was also relaxed by dictamine (500 mol/l), but not by fraxinellone (500 mol/l) in the nifedipine (1 mol/l)-treated aorta. This relaxing effect of dictamine persisted in endothelium-denuded aorta. Glibenclamide (10 mol/l) shifted the concentration-relaxation curve of cromakalim, but not that of dictamine, to the right in rat aortic rings precontracted with NA. Dictamine (500 mol/l) did not affect tonic contraction of NA which are reduced by H-7 (1 mol/l) in Ca²⁺ depleted medium. In conclusion, fraxinellone is a selective blocker of voltage-dependent Ca²⁺ channel, while dictamine relaxed the rat aorta by suppressing the Ca²⁺ influx through both voltage-dependent and receptor-operated Ca²⁺ channels.This work was supported by a research grant from the Nationat Science Council of the Republic of China (NSC80-0420-B002-18) Send offprint requests to C. M. Teng, Pharmacological Institute, College of Medicine, National Taiwan University, No. 1, Jen-Ai Road, Sect. 1, Taipei, 10018, Taiwan     

Effects of a myosin light chain kinase inhibitor, wortmannin, on cytoplasmic Ca2+ levels, myosin light chain phosphorylation and force in vascular smooth muscle

Biochemical studies have shown that wortmannin is an inhibitor of myosin light chain (MLC) kinase (Nakanishi et al. (1992) J. Biol. Chem. 267: 2157–2163). To investigate the role of MLC kinase in smooth muscle contractions, we examined the effects of wortmannin on isolated smooth muscles of the rat aorta. Wortmannin (1 M) decreased MLC phosphorylation and the amplitude of contractions induced by high K⁺ (72.7 mM) to a level seen at rest. This occurred without a change in cytosolic Ca²⁺ levels ([Ca²⁺]_i). In contrast, wortmannin only partially inhibited the sustained contractions induced by phenylephrine (1 M) and prostaglandin F₂ (PGF₂, 10 M) without a change in the [Ca²⁺]_i. On the other hand, wortmannin (1 or 10 M) reduced the increase in MLC phosphorylation induced by phenylephrine and PGF₂ to a level seen at rest. In the absence of external Ca²⁺, caffeine (20 mM) induced a transient increase in [Ca²⁺]_i and force with an increase in MLC phosphorylation. Wortmanmn completely inhibited the increase in MLC phosphorylation and contraction induced by caffeine without affecting the increase in [Ca²⁺]_i. In the absence of external Ca²⁺, phenylephrine induced a small transient increase in [Ca²⁺]_i, MLC phosphorylation and generation of force. This was followed by a small sustained contraction without an increase in [Ca²⁺]_i and MLC phosphorylation. Wortmannin (1 M) inhibited the transient phase of the contraction and the increase in MLC phosphorylation without affecting the transient increase in [Ca²⁺]_i nor the sustained contraction. Wortmannin inhibited the Ca²⁺-induced contraction in permeabilized rat mesenteric artery, although it did not inhibit the Ca²⁺-independent, ATP-induced contraction in the thiophosphorylated muscle. These results suggest that wortmannin inhibits MLC phosphorylation due to an increase in the entry of Ca²⁺ or through the release of Ca²⁺ from the sarcoplasmic reticulum. The results also suggest that the activation of receptors by norepinephrine and PGF₂. induces a contraction via a MLC phosphorylation-independent pathway or through a pathway which is dependent on the resting level of MLC phosphorylation. We conclude that wortmannin is a useful tool in studies of the physiological role of MLC kinase.     

Phorbol 12,13-dibutyrate,an activator of protein kinase C,stimulates both contraction and Ca2+ fluxes in dog saphenous vein

Summary The vascular effects of phorbol 12,13-dibutyrate (PDBu) were studied in the dog saphenous vein. PDBu (1 M) caused contraction (0.58 ± 0.22 g/mg wet wt.) and Ca uptake (74.2 ± 41.2 mol/kg wet wt.) which were unaffected by 10 M phentolamine (N = 6). The PDBu-induced contraction was greatly (60–80%) inhibited in Ca²⁺-free solution. 15 Ca efflux measurements performed in Ca²⁺-free solution showed that PDBu did not cause Ca release from intracellular storage sites. The contractile response to PDBu (1 nM-1 M) was significantly correlated with the magnitude of Ca uptake; contraction and the rise in tissue Ca²⁺ also had a similar time course. Correlation between the two measures persisted when the responses to PDBu were augmented by co-administration with 20 mM KCl. However, no synergism occurred between the two agonists. Both the contraction and Ca uptake responses to PDBu were reduced by nifedipine and verapamil, each at 1 M. In the Triton X-100 skinned saphenous vein, where the voltage-dependent Ca channel is not functional, 10 M PDBu did not cause contractions in the presence of 0.1 M Ca²⁺. Thus, contraction of the intact saphenous vein by PDBu characteristically exhibits great Ca dependence and PDBu seems to activate the voltage-dependent Ca channel, presumably through stimulation of protein kinase C; the ensuing Ca entry is primarily responsible for contraction. However, the mechanism responsible for the PDBu-induced contractions that are resistant to Ca²⁺-free PSS or Ca entry blockers remains to be defined. It appears that the dog saphenous vein differs from dog femoral artery, rabbit aorta and pig carotid artery where PDBu contractions do not display dependence on external Ca²⁺. Send offprint requests to P. J. S. Chin at the above address     

The mechanism of honokiol-induced and magnolol-induced inhibition on muscle contraction and Ca2+ mobilization in rat uterus

The effects of honokiol and magnolol extracted from the Magnolia officinalis on muscular contractile responses and intracellular Ca²⁺ mobilization were investigated in the non-pregnant rat uterus. Honokiol and magnolol (1–100 mol/l) were observed to inhibit spontaneous and uterotonic agonists (carbachol, PGF₂, and oxytocin)-, high K⁺-, and Ca²⁺ channel activator (Bay K 8644)-induced uterine contractions in a concentration-dependent manner. The inhibition rate of honokiol on spontaneous contractions appeared to be slower than that of magnolol-induced response. The time periods that were required for honokiol and magnolol, at 100 mol/l, to abolish 50% spontaneous contractions were approximately 6 min. Furthermore, honokiol and magnolol at 10 mol/l also blocked the Ca²⁺-dependent oscillatory contractions. Consistently, the increases in intracellular Ca²⁺ concentrations ([Ca²⁺]_i) induced by PGF₂ and high K⁺ were suppressed by both honokiol and magnolol at 10 mol/l. After washout of these treatments, the rise in [Ca²⁺]_i induced by PGF₂ and high K⁺ was still partially abolished. In conclusion, the inhibitory effects of honokiol and magnolol on uterine contraction may be mediated by blockade of external Ca²⁺ influx, leading to a decrease in [Ca²⁺]_i. Honokiol and magnolol may be considered as putative Ca²⁺ channel blockers and be of potential value in the treatment of gynecological dysfunctions associated with uterine muscular spasm and dysmenorrhea.     

Inhibition by carbamazepine of various ion channels-mediated catecholamine secretion in cultured bovine adrenal medullary cells

The effects of carbamazepine (CBZ) on ²²Na⁺ influx, ⁴⁵Ca²⁺ influx, catecholamine secretion and cyclic GMP production were examined in cultured bovine adrenal medullary cells. 1 CBZ (40–120 mol/l) inhibited ²²Na⁺ influx evoked by carbachol in a concentration-dependent manner. CBZ inhibited carbachol-evoked ⁴⁵Ca²⁺ influx and catecholamine secretion at concentrations similar to those which suppressed ²²Na⁺ influx. 2 CBZ (4–120 mol/l) inhibited veratridine-induced ²²Na⁺ influx, ⁴⁵Ca²⁺ influx and catecholamine secretion. 3 CBZ (12 or 40–120 mol/l) suppressed 56 mmol/1 K⁺-evoked ⁴⁵Ca²⁺ influx and catecholamine secretion, respectively. 4 Combination of CBZ with nitrendipine or -agatoxin-IVA produced further inhibition of 56 mmol/l K⁺ - evoked ⁴⁵Ca²⁺ influx and catecholamine secretion, compared to the effect of CBZ alone, whereas CBZ plus -conotoxin-GVIA did not produce any further inhibition. 5 CBZ (40 mol/1) attenuated the production of cyclic GMP caused by muscarine. These results suggest that CBZ at therapeutic concentrations (16–48 mol/l: 4–12 g/ml) inhibits catecholamine secretion by interfering with nicotinic acetylcholine receptor-associated ion channels, voltage-dependent Na⁺ channels and N-type voltage-dependent Ca²⁺ channels, and may have an antimuscarinic effect in adrenal medullary cells.     

Effects of Ca2+ channel antagonists and ryanodine on H1-receptor mediated electromechanical response to histamine in guinea-pig left atria

Summary Effects of organic Ca²⁺ channel antagonists, Ni²⁺ and ryanodine on the electrophysiological and positive inotropic responses to histamine were examined in isolated guinea-pig left atria. Histamine increased force of contraction, prolonged action potential duration (APD) and hyperpolarized the membrane in a concentration-dependent manner. Histamine at a concentration of 1 mol/l produced a dual-component positive inotropic response composed of an initial increasing phase (initial component) and a second an late developing, greater positive inotropic phase (second component), whereas causing monophasic changes in APD and resting potential. The electrophysiological and dual-component positive inotropic effects induced by histamine were antagonized by chlorpheniramine (1 mol/l) but not by cimetidine (10 mol/l), indicating that both effects are exclusively mediated by H₁-receptors. The positive inotropic response to 1 mol/l histamine was changed by the pretreatment with nifedipine (1 mol/l) and nisoldipine (1 mol/l). In the presence of these dihydropyridines, the second component was almost completely abolished, while the initial component was hardly affected. On the other hand, verapamil (3 mol/l) and diltiazem (10 mol/l) failed to modify the multiphasic inotropic response to histamine. None of the Ca²⁺ channel antagonists affected the histamine-induced APD prolongation. In the presence of Ni²⁺ at a concentration of 0.3 mmol/l, at which it produced no negative inotropic action, the second component of the positive inotropic effect of histamine was specifically suppressed whereas the histamine-induced APD prolongation was unaffected. Preferential attenuation of the second component was also observed in the presence of 30 nmol/l ryanodine. However, the electrophysiological alterations caused by histamine remained unchanged. These results suggest that in guinea-pig left atria the H₁-receptor-mediated prolongation of APD seems unlikely to be due to enhancement of the slow inward Ca²⁺ current. Conversely, the increased Ca²⁺ influx as a result of the APD prolongation may contribute to the second component of the positive inotropic effect of histamine. Dihydropyridine Ca²⁺ channel antagonists, Ni²⁺ and ryanodine are all capable of inhibiting the second component, but do so possibly via different mechanisms, implying the complicated mechanisms underlying the H₁-receptor-mediated positive inotropic effect.Send offprint requests to Y. Hattori     

Possible involvement of both N- and L-type voltage-dependent Ca channels in adrenergic neurotransmission of canine saphenous veins in low Ca2+ plus tetraethylammonium medium

Summary The involvement of N- and L-type voltage-dependent Ca channels (VDCCs) in adrenergic neurotransmission under the superfusion with 0.25 mM Ca²⁺ + 20 mM tetraethylammonium (low Ca²⁺ + TEA) medium has been studied by examining the effects of -conotoxin GVIA (-CTX) and dihydropyridine antagonists and agonist on transmural nerve stimulation (TNS)-evoked ³H overflow from canine saphenous veins preloaded with [³H]-noradrenaline. Nisoldipine (10 and 30 M) and nifedipine (30 M) reduced significantly the TNS-evoked ³H overflow in low Ca²⁺ + TEA medium, while the two dihydropyridine antagonists failed to suppress it in normal Krebs medium. Bay K 8644 (30 and 100 nM) produced a significant and concentration-dependent enhancement of the TNS-evoked ³H overflow in low Ca²⁺ + TEA medium. The enhancing effects of Bay K 8644 were antagonized by both 3 M nisoldipine and 10 tM nifedipine. -CTX inhibited markedly the TNS-evoked ³H overflow in both normal Krebs and low Ca²⁺ + TEA media, the inhibition by -CTX being ten times more potent in low Ca²⁺ + TEA medium. Nisoldipine (30 M), when combined with 1 nM -CTX, produced a further significant inhibition of the TNS-evoked ³H overflow in low Ca²⁺ + TEA medium. However, no additional inhibition by 30 M nisoldipine was observed when -CTX concentration was raised to 2 nM. In the veins superfused with normal Krebs medium, nisoldipine (30 M) did not affect the inhibitory effect of 10 nM -CTX on the evoked ³H overflow. The low Ca²⁺ + TEA medium increased the spontaneous ³H overflow, which was not influenced by -CTX and dihydropyridines. These results suggest that in low Ca²⁺ + TEA medium but not normal Krebs one, Ca²⁺ entry via both N- and L-type VDCCs may be involved in adrenergic neurotransmission in the canine saphenous veins. Correspondence to Y. Takata at the above address     

Two phases of the prostaglandin F2α-induced contraction in guinea-pig taenia coli involve different Ca2+ channels

Summary Properties of the contraction produced by PGF₂ in the guinea-pig taenia coli were compared to those produced by ACh. Prostaglandin (PG) F₂ (3 × 10^–7 M) and acetylcholine (ACh, 10^–5 M) induced an initial transient contraction (phasic contraction) and a subsequent late contraction (tonic contraction). Both phasic and tonic contractions produced by PGF₂ or ACh were abolished in Ca²⁺-free Krebs solution containing 0.5 mM EGTA. The tonic contractions caused by PGF₂ and ACh were markedly suppressed by -[3-[[2-(3,4-dimethoxy-phenyl)-ethyl]methylamino]-propyl]-3,4,5-trimethoxy--(1-methylethyl) benzeneacetonitrile hydrochloride (D600, > 10^–7 M) as well as nifedipine (5 × 10^–9 M), a Ca²⁺-antagonist. However, the phasic contraction produced by PGF₂, but not by ACh, was greatly inhibited by Mn²⁺ (> 10^–4 M). Furthermore, the phasic contraction caused by PGF₂ was abolished in 18 mM K⁺ Krebs solution with D600 (2 × 10^–7 M), whereas that induced by ACh and the tonic contractions produced by PGF₂ as well as by ACh were unaffected in this high K⁺ solution without D600. Membrane potentials of the tissue in normal (K⁺, 5.9 mM) and 18 mM K⁺ Krebs solution containing D600 were about –55 mV and –43 mV, respectively. In a fluorescence study which used Fura-2 an intracellular free Ca²⁺ indicator in the presence of D600, PGF₂ and ACh increased fluorescence intensity in the tissue, which coupled with the magnitude of contractions. Both the enhanced fluorescence intensity and tension development evoked by PGF₂, but not by ACh, were markedly decreased in 18 mM K⁺ Krebs solution. It is, thus, suggested that the phasic and tonic contractions evoked by PGF₂, unlike those by ACh, may be mediated via certain different Ca²⁺ channels from extracellular Ca²⁺-source.Send offprint requests to S. Usune at the above address     

Effects of ouabain on human bronchial muscle in vitro

The effects of ouabain, an inhibitor of the plasmalemmal Na⁺/K⁺-ATPase activity, were examined in human isolated bronchus. Ouabain produced concentration-dependent contraction with –logEC₅₀=7.16±0.11 and maximal effect of 67±4% of the response to acetylcholine (1 mM). Ouabain (10 M)-induced contraction was epithelium-independent and was not depressed by inhibitors of cyclooxygenase and lipoxygenase, antagonists of muscarinic, histamine H₁-receptors and -adrenoceptors, or neuronal Na⁺ channel blockade. The inhibition of ouabain contraction in tissues bathed in K⁺-free medium, and the inhibition by ouabain of the K⁺-induced relaxation confirm that the contractile action of ouabain is mediated by inhibition of Na⁺/K⁺-ATPase. Furthermore, depolarization (16.4±0.9 mV) was observed in human isolated bronchus by intracellular microelectrode recording. Ouabain (10 M)-induced contractions were abolished by a Ca²⁺-free solution but not by blockers of L-type Ca²⁺ channels. In human cultured bronchial smooth muscle cells, ouabain (10 M) produced a sustained increase in [Ca²⁺]_i (116±26 nM) abolished in Ca²⁺-free medium. Incubation with a Na⁺-free medium or amiloride (0.1 mM) markedly inhibited the spasmogenic effect of ouabain thus suggesting the role of Na⁺/Ca²⁺ exchange in ouabain contraction while selective inhibitors of Na⁺/H⁺-antiport, Na⁺/K⁺/Cl^–-antiport, or protein kinase C had no effect. Ouabain (10 M) failed to increase inositol phosphate accumulation in human bronchus. Ouabain (10 M) did not alter bronchial responsiveness to acetylcholine or histamine but inhibited the relaxant effects of isoprenaline, forskolin, levcromakalim, or sodium nitroprusside. These results indicate that ouabain acts directly to produce contraction of human airway smooth muscle that depends on extracellular Ca²⁺ entry unrelated to L-type channels and involving the Na⁺/Ca²⁺-antiporter.     

Heparin specifically inhibits the inositol 1,4,5-trisphosphate-induced Ca2+ release from skinned rat aortic smooth muscle cells in primary culture

Summary By measuring the ⁴⁵Ca²⁺ movement in saponin-skinned primary cultured rat aortic smooth muscle cells, we examined the specificity of the inhibitory effect of heparin on the IP₃-induced Ca²⁺ release. IP₃ (100 mol/l) markedly (98%) decreased the MgATP-dependent ⁴⁵Ca²⁺ content in the non-mitochondrial Ca²⁺ stores in the presence of 1 mol/l free Ca²⁺. Heparin (1–100 g/ml) dose-dependently inhibited this Ca²⁺ release by IP₃. In Ca²⁺-free solution, heparin (100 g/ml) inhibited the increases in ⁴⁵Ca²⁺ efflux rate evoked by 10 mol/l IP₃. De-N-sulfated heparin did not inhibit the IP₃-induced Ca²⁺ release. Hyaluronic acid, heparan sulfate, chondroitin sulfate A, chondroitin sulfate B, chondroitin sulfate C and 2,6-disulfated d-glucosamine had no inhibitory effects on the IP₃-induced Ca²⁺ release. High concentrations (over 1 mg/ml) of heparin inhibited the ⁴⁵Ca²⁺ influx and decreased the Ca²⁺ content in skinned cells. These results suggest that heparin (1–100 g/ml) specifically inhibits the IP₃-induced increase in Ca²⁺ permeability of Ca²⁺ stores and that three sulfate groups at different locations on the molecule of heparin, two at the d-glucosamine and one at the iduronic acid, may be important for this action, in skinned vascular smooth muscle cells, in culture. Send offprint requests to H. Kanaide at the above address     

Direct activation by okadaic acid of the contractile elements in the smooth muscle of guinea-pig taenia coli

Summary 1. Okadaic acid isolated from black sponge (Halichondria okadai), at the concentration of 10 mol/l, caused contraction in saponin-treated skinned smooth muscle of guinea-pig taenia coli in the absence of Ca²⁺. In the presence of low concentration (0.3 mol/l) of Ca²⁺ okadaic acid induced a greater contraction than in the absence of Ca²⁺ 2. Okadaic acid potentiated the contractions induced by Ca²⁺ and pCa²⁺-tension curve was shifted to the left as well as upward by 1 mol/l okadaic acid. 3. Native actomyosin preparation (myosin B) containing calmodulinmyosin light chain kinase system and phosphatase was obtained from taenia coli. Okadaic acid (10 mol/l) increased the actomyosin Mg²⁺-ATPase activity in the presence or absence of Ca²⁺. 4. Okadaic acid (1–100 mol/l) had no effect on calmodulin activity as monitored by Ca²⁺-calmodulin activated cyclic nucleotide phosphodiesterase activity and the (Ca²⁺ + Mg²⁺)-ATPase activity of erythrocyte membranes. 5. These results suggest that okadaic acid directly activates contractile elements of smooth muscle. Send offprint requests to H. Ozaki at the above address     

Cromakalim (BRL 34915) restores in vitro the membrane potential of depolarized human skeletal muscle fibres

Summary The purpose of the present study was to analyze the effects of cromakalim (BRL 34915), a potent drug from a new class of drugs characterized as K⁺ channel openers, on the electrical activity of human skeletal muscle. Therefore, intracellular recordings were used to measure the effects of cromakalim on the membrane potential and input conductance of fibres from human skeletal muscle biopsies. Cromakalim in a concentration above 1 mol/l induced an increase in membrane K⁺ conductance. This effect resulted in a membrane hyperpolarization. The magnitude of this polarization depended on the difference between resting and K⁺ equilibrium potential. The effect had a rapid onset and was quickly reversible after washing. Fibres from two patients with hyperkalaemic periodic paralysis showed an excessive membrane depolarization during and also after exposure to an slightly elevated extracellular K⁺ concentration. In the latter situation, cromakalim repolarized the fibres to the normal resting potential. Tolbutamide (1 mmol/l) and Ba²⁺ (3 mmol/l) strongly antagonized the effect of cromakalim. The data show that cromakalim hyperpolarizes depolarized human skeletal muscle fibres maintained in vitro. The underlying mechanism is probably an activation of otherwise silent, ATP-regulated K⁺ channels. Such an effect may be of therapeutic benefit in a situation in which a membrane depolarization causes muscle paralysis. Send offprint requests to A. Spuler at the above address     

8-(N,N-diethylamino)octyl 3,4,5-trimethoxybenzoate (TMB-8) acts as a muscarinic receptor antagonist in the epithelial cell line HT29

8-(N, N-diethyl amino) octyl-3,4,5-trimethoxybenzoate (TMB-8) is a widely used pharmacological tool to investigate the involvement of intracellular Ca²⁺ stores in cellular responses. In this study we investigate the effect of TMB-8 as a putative inhibitor of Ca²⁺ signalling in single fura-2 loaded HT₂₉ coIonic epithelial cells stimulated by ATP, carbachol (CCH) and neurotensin (NT). TMB-8 effectively inhibited the CCH-induced (100 mol/l intracellular Ca²⁺ ([Ca²⁺]_i) transient with an IC₅₀ of 20 mol/l. However, [Ca²⁺]_i transients induced by other phospholipase C coupled agonists ATP (10 mol/l, n = 4) and NT (10 nmol/l, n = 4) remained unaffected by TMB-8 (50 mol/l). The agonist-induced [Ca²⁺]_i transients remained equally unaffected by 100 mol/l TMB-8 when the stimulatory concentration was reduced to 0.5 mol/I for ATP (n = 4) or 1 nmol/l for NT (n = 4). The competitive nature of the TMB-8-induced inhibition of the CCH-induced [Ca²⁺]_i transient was demonstrated by examining the agonist at various concentrations in absence and presence of the antagonist. High TMB-8 concentrations (100 mol/l) alone induced a small [Ca²⁺]_i increase ([Ca²⁺]_i: 40 ± 5 nmol/l, n = 7). We assume that this increase is a consequence of a TMB-8 induced intracellular alkalinization ( pH: 0.1 ± 0.02, n = 7) occurring simultaneously with the increase in [Ca ⁺]_i. From these results we draw the following conclusions: (1) In sharp contrast to a large number of other studies, but in agreement with studies in other types of cells, these results substantially challenge the value of the tool TMB-8 as an intracellular Ca²⁺ antagonist; (2) TMB-8 acts a muscarinic receptor antagonist at the M₃ receptor; (3) TMB-8 does not influence the release of Ca²⁺ from intracellular stores when IP₃ signal transduction is activated by ATP or NT; (4) TMB-8 as a weak organic base alkalinizes the cytosol at high concentrations; and (5) TMB-8 induces small [Ca²⁺]_i transients at higher concentrations.     

Effects of SEA0400 and KB-R7943 on Na+/Ca2+ exchange current and L-type Ca2+ current in canine ventricular cardiomyocytes

SEA0400 and KB-R7943 are compounds synthesised to block transsarcolemmal Na⁺/Ca²⁺ exchange current (I_Na/Ca); however, they Have also been shown to inhibit L-type Ca²⁺ current (I_Ca). The potential value of these compounds depends critically on their relative selectivity for I_Na/Ca over I_Ca. In the present work, therefore, the concentration-dependent effects of SEA0400 and KB-R7943 on I_Na/Ca and I_Ca were studied and compared in canine ventricular cardiomyocytes using the whole-cell configuration of the patch clamp technique. SEA0400 and KB-R7943 decreased I_Na/Ca in a concentration-dependent manner, having EC₅₀ values of 111±43 nM and 3.35±0.82 M, when suppressing inward currents, while the respective EC₅₀ values were estimated at 108±18 nM and 4.74±0.69 M in the case of outward current block. SEA0400 and KB-R7943 also blocked I_Ca, having comparable EC₅₀ values (3.6 M and 3.2 M, respectively). At higher concentrations (10 M) both drugs accelerated inactivation of I_Ca, retarded recovery from inactivation and shifted the voltage dependence of inactivation towards more negative voltages. The voltage dependence of activation was slightly modified by SEA0400, but not by KB-R7943. Based on the relatively good selectivity of submicromolar concentrations of SEA0400—but not KB-R7943—for I_Na/Ca over I_Ca, SEA0400 appears to be a suitable tool to study the role of I_Na/Ca in Ca²⁺ handling in canine cardiac cells. At concentrations higher than 1 M, however, I_Ca is progressively suppressed by the compound.     

Functional characterisation of P2 purinoceptors in PC12 cells by measurement of radiolabelled calcium influx

The aim of this study was to determine whether ⁴⁵Ca²⁺ influx could be used as a quantitative measure of channel activation for functional characterisation of P2X purinoceptors in cell lines. In undifferentiated PC12 cells, grown in suspension, ATP (EC₅₀ = 45 M), ATPTS (EC₅₀ = 50 M) and 2-meSATP (EC₅₀ = 81 M) but not meATP (I mM) stimulated ⁴⁵Ca²⁺ influx 2–5 fold. This effect did not appear to be due to activation of P2U or P2Y purinoceptors since 1 mM UTP, ADP or ADPS did not produce any significant effect. Similarly, the effects of ATP were not apparently mediated through activation of P2Z purinoceptors since dibenzylATP behaved as a weak (EC₅₀ = 191 M) partial agonist (Maximal effect 29.5% of ATP maximum) and there was no detectable ATP-stimulated ethidium bromide uptake in the PC12 cells.ATP-stimulated ⁴⁵Ca²⁺ influx was not affected by nifedipine suggesting that it was not secondary to activation of L-type calcium channels and rather reflected influx through a P2X purinoceptor present in these cells. The ATP-stimulated ⁴⁵Ca²⁺ influx could be reduced by monovalent cations, presumably as a result of direct competition for influx through the cation channel, with the following rank order of potency :- guanidinium (EC₅₀ = 16 mM) > sodium > Tris > choline > N-methyl-D-glucamine = sucrose.A number of P2 purinoceptor antagonists inhibited ATP-stimulated ⁴⁵Ca²⁺ influx. Pyridoxalphosphate-6-azophenyl-2,4-disulphonic acid (3–300 M), pyridoxal 5phosphate (3–300 M) and d-tubocurarine (30–300 M) produced an insurmountable antagonism of responses to ATP, with no marked change in agonist EC₅₀. Suramin (100–300 M) and cibacron blue (30–300 M) produced a surmountable antagonism while DIDS (4,4-diisothiocyana-tostilbene-2,2disulfonic acid) only antagonised responses to ATP at concentrations in excess of 300 M. The general properties of the P2X purinoceptor population identified in these cells were consistent with them being P2X₂ purinoceptors. These findings suggest that ATP-stimulated ⁴⁵Ca²⁺ influx may be used as a reliable and quantitative functional assay for characterisation of P2X purinoceptor subtypes in cell lines.     

Releasing activities of d-fenfluramine and fluoxetine and fluoxetine on rat hippocampal synaptosomes preloaded with [3H]serotonin

Summary Rat hippocampal synaptosomes preloaded with [³H]serotonin and maintained in a superfusion apparatus were exposed for 3 min to d-fenfluramine or fluoxetine. Both drugs evoked a tritium overflow which was reserpine-sensitive requiring the presence of intact synaptic vesicles. However the two drugs displayed different characteristics: 1) the overflow was immediate with dfenfluramine whereas the releasing activity of fluoxetine showed a delay of about 2 min; 2) d-fenfluramine-induced overflow was already apparent at 0.15 mol/l whereas the minimal effective concentration of fluoxetine was 2.5 mol/l. Their concentration-effect curves were differently shaped, the effect of d-fenfluramine being saturable at 5–20 mol/l (EC₅₀ about 1 gmol/l) while no saturation was observed with fluoxetine up to 10 mol/l; 3) only 1907o of the tritium overflow evoked by fluoxetine (2.5–10 mol/l) consisted of true [³H]serotonin, compared with 7001o when 0.5 mol/l d-fenfluramine was used; 4) the releasing action of 0.5 mol/l d-fenfluramine was completely Ca⁺⁺-dependent, while at higher dfenfluramine concentrations the Ca⁺⁺-independent overflow became more important. The fluoxetine induced overflow was mainly. (70010) Ca⁺⁺-independent; 5) the releasing acitvity of d-fenfluramine was mainly (80%) blocked by the serotonin uptake blockers indalpine, midalcipram and also fluoxetine whereas fluoxetine-induced overflow was insensitive to inhibition of the serotonin carrier.In conclusion, the releasing activity of d-fenfluramine is already present at a very low concentration (0.5 mol/l) and at this concentration its mechanism of action was Ca⁺⁺-dependent, together with the requirement of a functional serotonin carrier. These data therefore do not support the hypothesis of a simple. displacement of 5-HT from its storage vesicles but suggest an exocytotic release possibly triggered by interaction of d-fenfluramine with intracellular receptors. A direct releasing activity is also shown for fluoxetine, very marked at 5–10 mol/l; such effect is different from that of d-fenfluramine and is probably due to the overflow of 5-hydroxyindoleacetic acid, formed in the synaptosomes after the fluoxetine-induced displacement of serotonin from its storage vesicles. The active concentrations of fluoxetine on serotonin release are compatible with those found in rat brain at doses inducing an anorectic activity. Send offprint requests to M. Gobbi at the above address     

Propagation of impulses in the guinea-pig ureter and its blockade by calcitonin gene-related peptide (CGRP)

The guinea-pig ureter was placed in a three-compartment organ bath to enable the application of electrical stimuli or drugs to its renal end (R site), the middle region (M-site) or the bladder end (B-site) while recording mechanical activity at the R- and B-sites. All experiments were performed in ureters pre-exposed to capsaicin (10 M for 15 min) to prevent the release of sensory neuropeptides from afferent nerves. Electrical field stimulation (EFS, 5–25 ms pulse width, 20 V) produced a phasic contraction at the site of stimulation (direct response to EFS) which propagated to the other end of the ureter. Section of the ureter at the M-site abolished the propagated response to EFS; after section, EFS applied at the M-site induced a phasic contraction at both the R-and B-sites. Likewise, the application of KCl at the M-site produced phasic contractions at both the R- and B-sites. Tetrodotoxin (1 M), nifedipine (1 M) or Bay K 8644 (1 M) applied at the M-site had no influence on the direct or propagated responses to EFS; nifedipine (10 M) applied at the M-site abolished the propagated responses without affecting the direct responses to EFS. Bay K 8644 (1 M) applied at the R-site produced a marked enhancement of the direct response (EFS applied at R-site) while having no effect on the amplitude of the propagated response to EFS. Nifedipine (1 M), applied at the R-site, produced a graded, time-dependent, inhibition of the direct response (EFS applied at R-site) and eventually suppressed it; the propagated response was unaffected until suppression of the direct response, when an allor-none blockade of the propagated response was observed. When applied at the B-site (EFS at Rsite), 1 M nifedipine produced a graded, time-dependent, inhibition of the propagated response and eventually suppressed it, without affecting the direct response to EFS. For further pharmacological analysis of drug action on the propagated activity, EFS was applied at the R-site and drugs were applied at the M-site. Human CGRP (CGRP, 0.1 M) or cromakalim (1-3 M) were applied in superfusion at the M-site in the absence or presence of glibenclamide (1 M). Neither drug affected the direct response to EFS; both CGRP and cromakalim produced a reversible suppression of the propagated response. Glibenclamide suppressed the inhibitory activity of 1 M cromakalim and partly antagonized the effect of CGRP; the blockade by glibenclamide was partly overcome by 3 M cromakalim. The present findings are consistent with the idea that propagation of excitation occurs because of the spread of electrical activity between smooth muscle cells of the ureter and that conduction of impulses is independent of local changes in contractility. The present results also demonstrate that CGRP induced a conduction block along the ureter and that this effect involves activation of glibenclamide-sensitive K channels. Therefore, a local release of CGRP in response to pathophysiological stimuli is, in principle, capable of suppressing ureteral peristalsis and antiperistalsis.     

Arachidonic acid elevates cytosolic free calcium concentration in rat anterior pituitary cells

Summary Arachidonic acid is liberated from phospholipids by various hypothalamic releasing hormones and may be involved in stimulus-secretion coupling in rat adenohypophysis. In the present study, the effect of exogenous arachidonic acid on calcium homeostasis in rat anterior pituitary cells was investigated in vitro. Arachidonic acid markedly stimulated the release of various anterior pituitary hormones (beta-endorphin, luteinizing hormone, growth hormone). Arachidonic acid (10 mol/l) decreased the initial rate of ⁴⁵Ca²⁺ uptake. In cells prelabelled with ⁴⁵Ca²⁺, arachidonic acid (10 mol/l) decreased the exchangeable cell calcium content and increased the rate of ⁴⁵Ca²⁺ extrusion. Cytosolic free calcium concentration ([Ca²⁺]_i) was measured with the fluorescent indicator fura-2. Arachidonic acid markedly elevated [Ca²⁺]_i. The concentration dependency of this effect (1 mol/l and above) was similar to that on hormone secretion. Arachidonic acid (6 mol/l) elevated [Ca²⁺]_i by about 300 nmol/l, and arachidonic acid (10 mol/l) raised [Ca²⁺]i i into the micromolar range. The effect of arachidonic acid (3 mol/l) on [Ca²⁺]_i was not influenced by inhibitors of arachidonic acid metabolism (nordihydroguaiaretic acid, BW755C). In Ca²⁺-free media (Ca²⁺ omitted, EGTA 2 mmol/l), the effect of arachidonic acid (3 mol/l) on [Ca²⁺]_i was almost unimpaired, whereas the effect of arachidonic acid (10 mol/l) was reduced. Thus, the secretagogue arachidonic acid induces calcium mobilization and an increase in cytosolic free calcium concentration. These actions further qualify arachidonic acid as a potential intracellular mediator of stimulus-induced hormone secretion from rat adenohypophysis.This work was supported by the Deutsche Forschungsgemeinschaft (Kn 220/1-2) Send offprint requests to W. Knepel.     

Independent [Ca2+]i increases and cell proliferation induced by the carcinogen safrole in human oral cancer cells

The effect of the carcinogen safrole on intracellular Ca²⁺ movement and cell proliferation has not been explored previously. The present study examined whether safrole could alter Ca²⁺ handling and growth in human oral cancer OC2 cells. Cytosolic free Ca²⁺ levels ([Ca²⁺]_i) in populations of cells were measured using fura-2 as a fluorescent Ca²⁺ probe. Safrole at a concentration of 325 M started to increase [Ca²⁺]_i in a concentration-dependent manner. The Ca²⁺ signal was reduced by 40% by removing extracellular Ca²⁺, and was decreased by 39% by nifedipine but not by verapamil or diltiazem. In Ca²⁺-free medium, after pretreatment with 650 M safrole, 1 M thapsigargin (an endoplasmic reticulum Ca²⁺ pump inhibitor) barely induced a [Ca²⁺]_i rise; in contrast, addition of safrole after thapsigargin treatment induced a small [Ca²⁺]_i rise. Neither inhibition of phospholipase C with 2 M U73122 nor modulation of protein kinase C activity affected safrole-induced Ca²⁺ release. Overnight incubation with 1 M safrole did not alter cell proliferation, but incubation with 10–1000 M safrole increased cell proliferation by 60±10%. This increase was not reversed by pre-chelating Ca²⁺ with 10 M of the Ca²⁺ chelator BAPTA. Collectively, the data suggest that in human oral cancer cells, safrole induced a [Ca²⁺]_i rise by causing release of stored Ca²⁺ from the endoplasmic reticulum in a phospholipase C- and protein kinase C-independent fashion and by inducing Ca²⁺ influx via nifedipine-sensitive Ca²⁺ entry. Furthermore, safrole can enhance cell growth in a Ca²⁺-independent manner.