Effect of {alpha}-Tomatine on the Integrity and Biochemical Activities of Isolated Plant Cell Organelles

Respiration in isolated mung bean shoot mitochondria was notaffected by either of the tomatine treatments (10^–3 M,pH 5, and 10^–5 M, pH 8) but was reduced in the excisedshoots by both treatments, although only at the higher of thetwo temperatures (5 °C and 25 °C). Inhibition was gradualand took at least 2 h. Tomatine treatment of excised shootsalso resulted in an increased leakage of K+. PS II activityin isolated spinach leaf chloroplasts was reduced only by thehigh pH tomatine treatment at 25 °C. Again, about 2 h treatmentwas required before significant effects were observed but thealkaloid did not cause disintegration of the chloroplast asmeasured by pigment release. Disruption of lysosomes isolatedfrom cauliflower inflorescence tissue and release of acid phosphatasewas enhanced by tomatine. Initially only 10^–5 M tomatineat pH 8 was effective but, later, effects could only be obtainedwith 10^–3 M alkaloid at pH 5. The differential susceptibilityof these organelles to tomatine is discussed in relation tomembrane structure and to the mode of toxicity of the alkaloid.     

Effect of {alpha}-Tomatine on the Permeability of Plant Storage Tissues

The effect of the steroidal glycoalkaloid -tomatine on effluxof cell material from disks of beetroot, potato, apple, andcarrot has been investigated. A concentration of 1 mM tomatinecaused large increases in efflux from all tissues but 10 µMhad no effect. Leakage from potato and apple, but not from beetrootand carrot, was stimulated by 100 µM. tomatine, althoughlosses were smaller. Alkaloid-induced efflux of cell materialwas reduced considerably by addition of 1 mM CaCl₂ and to alesser extent by 1 mM MgCl₂. Cholesterol and its acetate didnot reduce leakage from beetroot but higher concentrations ofthe former caused small reductions in loss of material frompotato. The significance of these findings in relation to theaction of other membrane-active compounds is discussed.     

Effect of {alpha}-Tomatine on the Response of Wheat Coleoptile Segments to Exogenous Indole-3-acetic Acid

A concentration of 10^–5 M tomatine had no effect on leakagefrom, or elongation of, wheat coleoptile segments, but consistentlyreduced IAA-enhanced extension growth by c. 50 per cent. Therewas no evidence of chemical interaction between the alkaloidand the auxin in solution, and IAA action was not affected bypre-treatment for up to 3 h with 10^–5 M tomatine. Studieswith [2-¹⁴C]IAA revealed that 10^–5 M tomatine did notinhibit uptake of auxin into segments. The effect of pre-treatingsegments for up to 3 h with IAA could be virtually nullifiedby 10^–5 M tomatine, as could also IAA-induced changesin properties of coleoptile cell walls. Results are discussedin relation to the ability of tomatine to disrupt membrane functionand to current hypotheses implicating membranes in the primaryaction of auxin.     

Extracellular ATP stimulates volume decrease in Necturus red blood cells

This study examined whether extracellular ATP stimulatesregulatory volume decrease (RVD) in Necturusmaculosus (mudpuppy) red blood cells (RBCs). Thehemolytic index (a measure of osmotic fragility) decreased withextracellular ATP (50 µM). In contrast, the ATP scavenger hexokinase(2.5 U/ml, 1 mM glucose) increased osmotic fragility. In addition, theATP-dependent K⁺ channelantagonist glibenclamide (100 µM) increased the hemolytic index, andthis inhibition was reversed with ATP (50 µM). We also measured cellvolume recovery in response to hypotonic shock electronically with aCoulter counter. Extracellular ATP (50 µM) enhanced cell volumedecrease in a hypotonic (0.5×) Ringer solution. In contrast, hexokinase (2.5 U/ml) and apyrase (an ATP diphosphohydrolase, 2.5 U/ml)inhibited cell volume recovery. The inhibitory effect of hexokinase wasreversed with the Ca²⁺ ionophoreA-23187 (1 µM); it also was reversed with the cationophore gramicidin(5 µM in a choline-Ringer solution), indicating that ATP was linkedto K⁺ efflux. In addition,glibenclamide (100 µM) and gadolinium (10 µM) inhibited cell volumedecrease, and the effect of these agents was reversed with ATP (50 µM) and A-23187 (1 µM). Using the whole cell patch-clamp technique,we found that ATP (50 µM) stimulated a whole cell current underisosmotic conditions. In addition, apyrase (2.5 U/ml), glibenclamide(100 µM), and gadolinium (10 µM) inhibited whole cell currents thatwere activated during hypotonic swelling. The inhibitory effect ofapyrase was reversed with the nonhydrolyzable analog adenosine5'-O-(3-thiotriphosphate) (50 µM), and the effect of glibenclamide or gadolinium was reversed withATP (50 µM). Finally, anionic whole cell currents were activated withhypotonic swelling when ATP was the only significant charge carrier,suggesting that increases in cell volume led to ATP efflux through aconductive pathway. Taken together, these results indicate thatextracellular ATP stimulated cell volume decrease via aCa²⁺-dependent step that led toK⁺ efflux.

     

Steroidal glycoalkaloid content of potato,tomato and their somatic hybrids

Summary Analyses of leaves and ‘tubers’ from somatic hybrids of potato and tomato (‘pomato’ with plastids of potato, ‘topato’ with plastids of tomato) produced by fusion of protoplasts from liquid cultures of dihaploid potato and mesophyll of tomato revealed the presence of the two major potato glycoalkaloids (α-solanine and α-chaconine) as well as the tomato glycoalkaloid (αtomatine). The total alkaloid content of leaves was greater than that of ‘tubers’ and similar to levels in the foliage of parent plants. However, glycoalkaloids were more abundant in hybrid ‘tubers’ than in normal potato tubers by a factor of 5–15. In hybrid foliage, approximately 98% of the alkaloid present was of potato origin whereas in ‘tubers’ the reverse was the case, with tomatine comprising 60–70% of the total alkaloid. The similarities in alkaloid content and ratios between the pomato and the topato lines indicate that plastomes do not influence the biosynthesis and distribution of these alkaloids. The results indicate that major secondary metabolites may prove useful for assessing the hybrid nature of such plants.     

Light affects the flux of Ca2+ from excised tomato leaves within four seconds

The flux of Ca²⁺ from excised tomato leaves, conditioned in100 mM KCI for 60 min, was shown to be affected by turning anincandescent light (32 µmol m^–2 s^–1) on oroff. Calcium concentrations were measured with a single junctioncombination electrode connected to a high impedence electrometeramplifier interfaced with a microcomputer. Net Ca²⁺ fluxes fromexcised leaves 30 s prior to and 30 s after turning on the lightwere 68 and 122pmol g ^–1 dry weight s ^–1 respectively.The Ca²⁺ fluxes for the 30 s prior to and 30 s after turningoff the light were 113 and 51 pmol g^–1 dry weight s^–1respectively. Close examination of the first 10 s after thelight was turned off showed that there was a 4 s delay in theflux of Ca²⁺ . The heat given off by the incandescent bulb hadno effect on Ca²⁺ flux during these short time periods. Theeffect of light on the Ca²⁺ flux was evident for at least 2h after the initial treatment. Key words: Ca²⁺, signalling, light, tomato     

L-type voltage-dependent Ca2+ channels in cerebral microvascular endothelial cells and ET-1 biosynthesis

We investigatedthe role of intracellular calcium concentration([Ca²⁺]_i) in endothelin-1 (ET-1) production,the effects of potential vasospastic agents on[Ca²⁺]_i, and the presence of L-typevoltage-dependent Ca²⁺ channels in cerebral microvascularendothelial cells. Primary cultures of endothelial cells isolated frompiglet cerebral microvessels were used. Confluent cells were exposed toeither the thromboxane receptor agonist U-46619 (1 µM),5-hydroxytryptamine (5-HT; 0.1 mM), or lysophosphatidic acid (LPA; 1 µM) alone or after pretreatment with the Ca²⁺-chelatingagent EDTA (100 mM), the L-type Ca²⁺ channel blockerverapamil (10 µM), or the antagonist of receptor-operated Ca²⁺ channel SKF-96365 HCl (10 µM) for 15 min. ET-1production increased from 1.2 (control) to 8.2 (U-46619), 4.9 (5-HT),or 3.9 (LPA) fmol/µg protein, respectively. Such elevated ET-1biosynthesis was attenuated by verapamil, EDTA, or SKF-96365 HCl. Toinvestigate the presence of L-type voltage-dependent Ca²⁺channels in endothelial cells, the [Ca²⁺]_isignal was determined fluorometrically by using fura 2-AM. Superfusionof confluent endothelial cells with U-46619, 5-HT, or LPA significantlyincreased [Ca²⁺]_i. Pretreatment ofendothelial cells with high K⁺ (60 mM) or nifedipine (4 µM) diminished increases in [Ca²⁺]_i inducedby the vasoactive agents. These results indicate that 1)elevated [Ca²⁺]_i signals are involved in ET-1biosynthesis induced by specific spasmogenic agents, 2) theincreases in [Ca²⁺]_i induced by thevasoactive agents tested involve receptor as well as L-typevoltage-dependent Ca²⁺ channels, and 3) primarycultures of cerebral microvascular endothelial cells express L-typevoltage-dependent Ca²⁺ channels.

     

Effects of estradiol on phenylephrine contractility associated with intracellular calcium release in rat aorta

The ability of estradiol to affect phenylephrine-induced contraction and the subsequent increase in resting tone, associated with capacitative Ca²⁺ entry across the plasma membrane, was evaluated in rat aortic rings incubated in Ca²⁺-free solution. The incubation with estradiol (1–100 nM, 5 min) inhibited both the phenylephrine-induced contraction and the IRT. Neither cycloheximide (1 µM; inhibitor of protein synthesis) nor tamoxifen (1 µM; blocker of estrogenic receptors) modified the effects of estradiol. Estradiol (100 µM) also blocked the contractile response to serotonin (10 µM) but not to caffeine (10 mM). In addition, estradiol (100 µM) inhibited the contractile responses to cyclopiazonic acid (1 µM; selective Ca²⁺-ATPase inhibitor) associated with capacitative Ca²⁺ influx through non-L-type Ca²⁺ channels. Finally, estradiol inhibited the Ca²⁺-induced increases in intracellular free Ca²⁺ (after pretreatment with phenylephrine) in cultured rat aorta smooth muscle cells incubated in Ca²⁺-free solution. In conclusion, estradiol interfered in a concentration-dependent manner with Ca²⁺-dependent contractile effects mediated by the stimuli of ₁-adrenergic and serotonergic receptors and inhibited the capacitative Ca²⁺ influx through both L-type and non-L-type Ca²⁺ channels. Such effects are in essence nongenomic and not mediated by the intracellular estrogenic receptor. estrogen; ₁-adrenergic agonists     

Modulation of mitochondrial Ca2+ by nitric oxide in cultured bovine vascular endothelial cells

In the present study, we used laser scanning confocal microscopy in combination with fluorescent indicator dyes to investigate the effects of nitric oxide (NO) produced endogenously by stimulation of the mitochondria-specific NO synthase (mtNOS) or applied exogenously through a NO donor, on mitochondrial Ca²⁺ uptake, membrane potential, and gating of mitochondrial permeability transition pore (PTP) in permeabilized cultured calf pulmonary artery endothelial (CPAE) cells. Higher concentrations (100–500 µM) of the NO donor spermine NONOate (Sper/NO) significantly reduced mitochondrial Ca²⁺ uptake and Ca²⁺ extrusion rates, whereas low concentrations of Sper/NO (<100 µM) had no effect on mitochondrial Ca²⁺ levels ([Ca²⁺]_mt). Stimulation of mitochondrial NO production by incubating cells with 1 mM L-arginine also decreased mitochondrial Ca²⁺ uptake, whereas inhibition of mtNOS with 10 µM L-N⁵-(1-iminoethyl)ornithine resulted in a significant increase of [Ca²⁺]_mt. Sper/NO application caused a dose-dependent sustained mitochondrial depolarization as revealed with the voltage-sensitive dye tetramethylrhodamine ethyl ester (TMRE). Blocking mtNOS hyperpolarized basal mitochondrial membrane potential and partially prevented Ca²⁺-induced decrease in TMRE fluorescence. Higher concentrations of Sper/NO (100–500 µM) induced PTP opening, whereas lower concentrations (<100 µM) had no effect. The data demonstrate that in calf pulmonary artery endothelial cells, stimulation of mitochondrial Ca²⁺ uptake can activate NO production in mitochondria that in turn can modulate mitochondrial Ca²⁺ uptake and efflux, demonstrating a negative feedback regulation. This mechanism may be particularly important to protect against mitochondrial Ca²⁺ overload under pathological conditions where cellular [NO] can reach very high levels. nitric oxide synthase; permeability transition pore; endothelium     

Regulation of intracellular calcium in N1E-115 neuroblastoma cells: the role of Na(+)/Ca(2+) exchange

In fura 2-loaded N1E-115 cells, regulationof intracellular Ca²⁺ concentration([Ca²⁺]_i) following a Ca²⁺ loadinduced by 1 µM thapsigargin and 10 µM carbonylcyanidep-trifluoromethyoxyphenylhydrazone (FCCP) wasNa⁺ dependent and inhibited by 5 mM Ni²⁺. Incells with normal intracellular Na⁺ concentration([Na⁺]_i), removal of bath Na⁺,which should result in reversal of Na⁺/Ca²⁺exchange, did not increase [Ca²⁺]_i unlesscell Ca²⁺ buffer capacity was reduced. When N1E-115 cellswere Na⁺ loaded using 100 µM veratridine and 4 µg/mlscorpion venom, the rate of the reverse mode of theNa⁺/Ca²⁺ exchanger was apparently enhanced,since an ~4- to 6-fold increase in [Ca²⁺]_ioccurred despite normal cell Ca²⁺ buffering. In SBFI-loadedcells, we were able to demonstrate forward operation of theNa⁺/Ca²⁺ exchanger (net efflux ofCa²⁺) by observing increases (~ 6 mM) in[Na⁺]_i. These Ni²⁺ (5 mM)-inhibited increases in [Na⁺]_i could onlybe observed when a continuous ionomycin-induced influx ofCa²⁺ occurred. The voltage-sensitive dyebis-(1,3-diethylthiobarbituric acid) trimethine oxonol was used tomeasure changes in membrane potential. Ionomycin (1 µM) depolarizedN1E-115 cells (~25 mV). This depolarization was Na⁺dependent and blocked by 5 mM Ni²⁺ and 250-500 µMbenzamil. These data provide evidence for the presence of anelectrogenic Na⁺/Ca²⁺ exchanger that is capableof regulating [Ca²⁺]_i after release ofCa²⁺ from cell stores.

     

Effects of extracellular calcium and potassium on the sodium pump of rat adrenal glomerulosa cells

Because the activity of thesodium pump (Na-K-ATPase) influences the secretion of aldosterone, wedetermined how extracellular potassium (K_o) and calciumaffect sodium pump activity in rat adrenal glomerulosa cells. Sodiumpump activity was measured as ouabain-sensitive ⁸⁶Rb uptakein freshly dispersed cells containing 20 mM sodium as measured withsodium-binding benzofluran isophthalate. Increasing K_o from4 to 10 mM in the presence of 1.8 mM extracellular calcium (Ca_o) stimulated sodium pump activity up to 165% andincreased intracellular free calcium as measured with fura 2. Increasing K_o from 4 to 10 mM in the absence ofCa_o stimulated the sodium pump ~30% and did not increaseintracellular free calcium concentration ([Ca²⁺]_i). In some experiments, addition of1.8 mM Ca_o in the presence of 4 mM K_o increased[Ca²⁺]_i above the levels observed in theabsence of Ca_o and stimulated the sodium pump up to 100%.Ca-dependent stimulation of the sodium pump by K_o andCa_o was inhibited by isradipine (10 µM), a blocker of L-and T-type calcium channels, by compound 48/80 (40 µg/ml) andcalmidizolium (10 µM), which inhibits calmodulin (CaM), and by KN-62(10 µM), which blocks some forms of Ca/CaM kinase II (CaMKII).Staurosporine (1 µM), which effectively blocks most forms of proteinkinase C, had no effect. In the presence of A-23187, a calciumionophore, the addition of 0.1 mM Ca_o increased[Ca²⁺]_i to the level observed in the presenceof 10 mM K_o and 1.8 mM Ca_o and stimulated thesodium pump 100%. Ca-dependent stimulation by A-23187 and 0.1 mMCa_o was not reduced by isradipine but was blocked by KN-62.Thus, under the conditions that K_o stimulates aldosteronesecretion, it stimulates the sodium pump by two mechanisms: directbinding to the pump and by increasing calcium influx, which isdependent on Ca_o. The resulting increase in[Ca²⁺]_i may stimulate the sodium pump byactivating CaM and/or CaMKII.

     

Subcellular Distribution of Inorganic Phosphate, and Levels of Nucleoside Triphosphate, in Mature Maize Roots at Low External Phosphate Concentrations: Measurements with 31P-NMR

Maize plants were grown in nutrient solution without phosphate,or in which inorganic phosphate (Pi) was maintained at nearlyconstant concentrations of 1 µM, 10µM or 0·5mM. In vivo ³¹P-NMR measurements showed that there was no discernibledifference in the cytoplasmic Pi content (µmol cm^–3root volume) of the mature roots of plants exposed to 1 µM,10µM or 0·5 mM external phosphate for up to 12d. However, the vacuolar Pi content of the mature roots variedabout 10-fold between these three groups. The cytoplasmic Pi content of roots receiving no external phosphatedecreased significantly after about 7 d total growth, and atabout this time the vacuolar pool of Pi became too small foraccurate measurement. The presence of 1 µM Pi in the nutrientsolution completely prevented this decline in cytoplasmic Pi,and there was some evidence that it also raised the Pi contentof the root vacuoles above the almost undetectable level foundin the totally P-starved roots. During the first 7–9 d of growth, the nucleoside triphosphatecontent of the mature roots was unaffected by the concentrationof phosphate in the nutrient solution. The results highlight the close control of cytoplasmic concentrationsof certain important phosphorus metabolites in roots growingin soil of normal agricultural fertility. Key words: Vacuole, cytoplasm, intracellular compartmentation, NTP, P-nutrition     

Exocytotic release of ATP and activation of P2X receptors in dissociated guinea pig stellate neurons

Activation of P2X receptors by a Ca²⁺- and soluble N-ethylmaleimide-sensitive factor attachment protein receptor (SNARE) protein-dependent release of ATP was measured using patch-clamp recordings from dissociated guinea pig stellate neurons. Asynchronous transient inward currents (ASTICs) were activated by depolarization or treatment with the Ca²⁺ ionophore ionomycin (1.5 and 3 µM). During superfusion with a HEPES-buffered salt solution containing 2.5 mM Ca²⁺, depolarizing voltage steps (–60 to 0 mV, 500 ms) evoked ASTICs on the decaying phase of a larger, transient inward current. Equimolar substitution of Ba²⁺ for Ca²⁺ augmented the postdepolarization frequency of ASTICs, while eliminating the larger transient current. Perfusion with an ionomycin-containing solution elicited a sustained activation of ASTICs, allowing quantitative analysis over a range of holding potentials. Under these conditions, increasing extracellular [Ca²⁺] to 5 mM increased ASTIC frequency, whereas no events were observed following replacement of Ca²⁺ with Mg²⁺, demonstrating a Ca²⁺ requirement. ASTICs were Na⁺ dependent, inwardly rectifying, and reversed near 0 mV. Treatment with the nonselective purinergic receptor antagonist pyridoxal phosphate-6-azophenyl-2',4'-disulfonic acid (PPADS) (10 µM) blocked all events under both conditions, whereas the ganglionic nicotinic antagonist hexamethonium (100 µM and 1 mM) had no effect. PPADS also blocked the macroscopic inward current evoked by exogenously applied ATP (300 µM). The presence of botulinum neurotoxin E (BoNT/E) in the whole-cell recording electrode significantly attenuated the ionomycin-induced ASTIC activity, whereas phorbol ester treatment potentiated this activity. These results suggest that ASTICs are mediated by vesicular release of ATP and activation of P2X receptors. sympathetic; purinergic; neurotransmission; phorbol ester; botulinum toxin     

Involvement of Cyclic AMP in ABA- and Ca2--Mediated Signal Transduction of Stomatal Regulation in Vicia faba

The focus of this study is to investigate possible involvementof cyclic AMP in regulation of Vicia stomatal movements. Thepresence of 0.1 mM 8-Br-cAMP, a membrane-permeable analogueof cAMP, alone in the incubation medium did not affect stomatalopening in the light in leaf epidermal peel experiments. However,addition of 0.1 mM 8-Br-cAMP completely reversed exogenous ABA-and C^a2+-induced inhibition of stomatal opening. Consistentwith these results, patch-clamping experiments showed that intracellularaddition of 0.5 mM or 1 mM cAMP significantly reversed the inhibitionof whole-cell inward K⁺ currents by internally supplied 13 µMCa²⁺ or 10 µM ABA in stomatal guard cell protoplasts,respectively. Furthermore, intracellular addition of either10 µM prostaglandin E₁ (PGE1, an adenylate cyclase activator)or 1 mM 3-isobutyl-1-methylxanthine (IBMX, a phosphodiesteraseinhibitor) mimicked the effect of exogenous cAMP on the removalof ABA- or Ca²⁺ inhibition of inward K⁺-current. These resultssuggest that a cAMP signaling pathway is involved in signaltransduction in stomatal regulation by interacting with ABAand Ca²⁺ signaling cascades. A hypothetical mechanism by whichcAMP may regulate K⁺ in stomatal guard cells is also discussed. (Received May 6, 1999; Accepted August 27, 1999)     

NAD Kinase in Corn: Regulation by Far Red Light is Mediated by Ca2+ and Calmodulin

Far red light irradiation of intact corn seedlings (Zea maysL.) has neither an effect on the cellular distribution nor onthe Ca²⁺, calmodulin-dependence of the NAD kinase (EC 2.7.1.23 [EC] ).The enzyme is located in the outer mitochondrial membrane andits activity is totally dependent on the presence of both Ca²⁺and calmodulin, independently of the illumination. In intactmitochondria and the presence of calmodulin the enzyme activityincreases linearly from 100 nM to 1 mM. At 100 µM Ca²⁺halfmaximal activation occurs at about 10 nM calmodulin. After solubilizationand purification by calmodulin-Sepharose chromatography theCa²⁺dependence of the enzyme changes. The activation reachesa plateau at about 100 µM Ca²⁺ and half maximal activationoccurs at about 6 µM Ca²⁺. On the other hand irradiationof intact corn seedlings as well as an increase of the cellularCa²⁺ concentration leads to an increase of NADP and a correspondingdecrease of NAD. Based on these data we suggest that the lighteffect on the NAD kinase activity is mediated by Ca²⁺ and calmodulin. (Received May 31, 1986; Accepted July 14, 1986)     

Separate entry pathways for phosphate and oxalate in rat brain microsomes

ATP-dependent ⁴⁵Ca uptake in rat brainmicrosomes was measured in intracellular-like media containingdifferent concentrations of PO₄ and oxalate. In the absenceof divalent anions, there was a transient ⁴⁵Caaccumulation, lasting only a few minutes. Addition of PO₄did not change the initial accumulation but added a second stage that increased with PO₄ concentration. Accumulation during thesecond stage was inhibited by the following anion transport inhibitors: niflumic acid (50 µM),4,4'-dinitrostilbene-2,2'-disulfonic acid (DNDS; 250 µM),and DIDS (3-5 µM); accumulation during the initial stage wasunaffected. Higher concentrations of DIDS (100 µM), however,inhibited the initial stage as well. Uptake was unaffected by 20 mM Na,an activator, or 1 mM arsenate, an inhibitor of Na-PO₄ cotransport. An oxalate-supported ⁴⁵Ca uptake was larger,less sensitive to DIDS, and enhanced by the catalytic subunit ofprotein kinase A (40 U/ml). Combinations of PO₄ and oxalatehad activating and inhibitory effects that could be explained byPO₄ inhibition of an oxalate-dependent pathway, but notvice versa. These results support the existence of separate transportpathways for oxalate and PO₄ in brain endoplasmic reticulum.

     

Inhibition of nitric oxide synthase slows heart rate recovery from cholinergic activation

The role ofnitric oxide (NO) in the cholinergic regulation of heart rate(HR) recovery from an aspect of simulated exercise wasinvestigated in atria isolated from guinea pig to test the hypothesisthat NO may be involved in the cholinergic antagonism of the positivechronotropic response to adrenergic stimulation. Inhibition of NOsynthesis withN^G-monomethyl-L-arginine(L-NMMA, 100 µM) significantlyslowed the time course of the reduction in HR without affecting themagnitude of the response elicited by bath-applied ACh (100 nM) orvagal nerve stimulation (2 Hz). The half-times(t_1/2) of responses were 3.99 ± 0.41 s in control vs. 7.49 ± 0.68 s inL-NMMA(P < 0.05). This was dependent onprior adrenergic stimulation (norepinephrine, 1 µM). The effect ofL-NMMA was reversed byL-arginine (1 mM; t_1/2 4.62 ± 0.39 s). The calcium-channelantagonist nifedipine (0.2 µM) also slowed the kinetics of thereduction in HR caused by vagal nerve stimulation. However, thet_1/2 for the reduction in HR with antagonists (2 mM Cs⁺ and 1 µM ZD-7288) of thehyperpolarization-activated current were significantlyfaster compared with control. There was no additional effect ofL-NMMA orL-NMMA+L-arginineon vagal stimulation in groups treated with nifedipine,Cs⁺, or ZD-7288. Weconclude that NO contributes to the cholinergic antagonism of thepositive cardiac chronotropic effects of adrenergic stimulation byaccelerating the HR response to vagal stimulation. This may involve aninterplay between two pacemaking currents (L-type calcium channelcurrent and hyperpolarization-activated current). Whether NO modulatesthe vagal control of HR recovery from actual exercise remains to bedetermined.

     

ERRATUM

Delete "In contrast, under 5% CO₂, the cells grew even at 40µM NaCl (Fig. 3), and the growth rate at 0.5–10mM NaCl during the linear-growth period was 0.24 µg Chl?(mlculture)^–1?h^–1"     

ATP-dependent regulation of SK4/IK1-like currents in rat submandibular acinar cells: possible role of cAMP-dependent protein kinase

SK4/IK1 encodes an intermediate conductance, Ca²⁺-activated K⁺ channel and fulfills a variety of physiological functions in excitable and nonexcitable cells. Although recent studies have provided evidence for the presence of SK4/IK1 channels in salivary acinar cells, the regulatory mechanisms and the physiological function of the channel remain unknown in these cells. Using molecular and electrophysiological techniques, we examined whether cytosolic ATP-dependent regulation of native SK4/IK1-like channel activity would involve endogenous cAMP-dependent protein kinase (PKA) in rat submandibular acinar (RSA) cells. Electrophysiological properties of tetraethylammonium (TEA) (10 mM)-insensitive, Ca²⁺-dependent K⁺ currents in macropatches excised from RSA cells matched those of whole cell currents recorded from human embryonic kidney-293 cells heterologously expressing rat SK4/IK1 (rSK4/IK1) cloned from RSA cells. In outside-out macropatches, activity of native SK4/IK1-like channels, defined as a charybdotoxin (100 nM)-blockable current in the presence of TEA (10 mM) in the bathing solution, ran down unless both ATP and Mg²⁺ were present in the pipette solution. The nonhydrolyzable ATP analog AMP-PNP failed to support the channel activity as ATP did. The addition of Rp-cAMPS (10 µM), a PKA inhibitor, to the pipette solution containing ATP/Mg²⁺ induced a rundown of the Ca²⁺-dependent K⁺ currents. Inclusion of cAMP (1 mM) into the pipette solution (1 µM free Ca²⁺) containing ATP/Mg²⁺ caused a gradual increase in the currents, the effect being pronounced for the currents induced by 0.1 µM free Ca²⁺. Forskolin (1 µM), an adenylyl cyclase activator, also increased the currents induced by 0.1 µM free Ca²⁺. In inside-out macropatches, cytosolic ATP/Mg²⁺ increased both the maximum current (proportional to the maximum channel activity) and Ca²⁺ sensitivity of current activation. Collectively, these results suggest that ATP-dependent regulation of native SK4/IK1-like channels, at least in part, is mediated by endogenous PKA in RSA cells. Ca²⁺-activated K⁺ channel; patch clamp; human embryonic kidney-293; salivary secretion     

Pacemaker activity in urethral interstitial cells is not dependent on capacitative calcium entry

The aim of the present study was to investigate the properties and role of capacitative Ca²⁺ entry (CCE) in interstitial cells (IC) isolated from the rabbit urethra. Ca²⁺ entry in IC was larger in cells with depleted intracellular Ca²⁺ stores compared with controls, consistent with influx via a CCE pathway. The nonselective Ca²⁺ entry blockers Gd³⁺ (10 µM), La³⁺ (10 µM), and Ni²⁺ (100 µM) reduced CCE by 67% (n = 14), 65% (n = 11), and 55% (n = 9), respectively. These agents did not inhibit Ca²⁺ entry when stores were not depleted. Conversely, CCE in IC was resistant to SKF-96365 (10 µM), wortmannin (10 µM), and nifedipine (1 µM). Spontaneous transient inward currents were recorded from IC voltage-clamped at –60 mV. These events were not significantly affected by Gd³⁺ (10 µM) or La³⁺ (10 µM) and were only slightly decreased in amplitude by 100 µM Ni²⁺. The results from this study demonstrate that freshly dispersed IC from the rabbit urethra possess a CCE pathway. However, influx via this pathway does not appear to contribute to spontaneous activity in these cells. smooth muscle; patch clamp; spontaneous transient inward currents