An electrophysiological study of the membrane in aplanospore-like cell of Boergesenia forbesii

Membrane potential and resistance, each of which was the sumof those of the plasmalemma and tonoplast, measured in the coenocyticthallus of Boergesenia forbesii were 6.7 mv inside positiveand 2.8 k.cm², respectively. Protoplasm squeezed from the thallus into artificial sea water(ASW) formed numerous spherical bodies, which are termed aplanospore-likecells (simply "spores"). The following electrical propertiesof the "spores" 20–40 hr after squeezing were obtained:potential difference (p.d.) across plasmalemma (E_co) was –66mv (– means inside negative), plasmalemma resistance 665cm², p.d. across the tonoplast (E_vc) +73 mv, and tonoplast resistance2.6 k.cm². Tenfold increase in external [K⁺] caused +45 mv changein E_co and +17 mv in E_vc. The plasmalemma was entirely depolarizedin Ca⁺⁺-free ASW or ASW containing Triton X-100. When the "spore" was immersed in potassium-rich (277 mil) ASW,E_co was almost zero and the tonoplast showed two states (I andII, E_ve about +70 mv and +20 mv, respectively). E_vc went backand forth between the two states spontaneously or when a smallcurrent was applied. In most cases oscillatory changes in E^vcoccurred after the lapse of a long time in the K+-rich sea water.Membrane resistances in states I and II were 5 and 9 k.cm²,respectively. (Received July 11, 1977; )     

Membrane Potentials and Resistances of Excitable Cells in the Petiole and Main Pulvinus of Mimosa pudica

Resting potentials of excitable cells in the petiole and mainpulvinus of Mimosa pudica depended on the external concentrationsof potassium ([K^$]) and sodium ([Na^$]), and peaks of the actionpotentials depended on the external concentration of chloride([Cl^–]) in the excitable protoxylem cells of the petioleand the upper-half cells of the main pulvinus, which suggeststhat the action potential in these cells is a Cl^– spike.In the lower-half cells of the main pulvinus, the peak of theaction potential did not show a clear dependence on [K^$], [Na^$]or [Cl^–]. This implies that there is a decrease in theion selectivity of the membrane toward the peak of the actionpotential. Effective membrane resistances of the excitable protoxylemand phloem cells of the petiole, and the lower-half cells ofthe main pulvinus were 3.9?3.1 M (mean?SD, n=7), 9.4?8.2 M (n=5)and 5.0?2.9 M (n=15), respectively. The membrane resistanceof the lower-half cells of the main pulvinus decreased on itssudden bending, but not always. ¹ Present address: 1st Department of Physiology, Hamamatsu UniversitySchool of Medicine, Handa-cho 3600, Hamamatsu 431-31, Japan. (Received November 17, 1981; Accepted January 29, 1982)     

Some of the Electrical Characteristics of the Cell Membrane of Chara australis

Measurements of the electrical resistance and potential of thecell membranes of Chara australis have been made for over 60cells. In 17 cases the measurements extended over a period ofa few days for each cell. The most important results of theseobservations and calculations are as follows. The mean valueof the intercellular (between cells) resistance is about 1 kcm². The transcellular (vacuole to external solution) resistanceconsists of two high-resistance layers. The mean value of theelectrical resistance of the outer layer is 7 k cm². The capacityof the transcellular membrane equals about 2.5 µF cm^–2.     

ENaC- and CFTR-dependent ion and fluid transport in mammary epithelia

Mammary epithelial 31EG4 cells (MEC) were grown as monolayers onfilters to analyze the apical membrane mechanisms that help mediate ionand fluid transport across the epithelium. RT-PCR showed the presenceof cystic fibrosis transmembrane conductance regulator (CFTR) andepithelial Na⁺ channel (ENaC) message, and immunomicroscopyshowed apical membrane staining for both proteins. CFTR was alsolocalized to the apical membrane of native human mammary ductepithelium. In control conditions, mean values of transepithelialpotential (apical-side negative) and resistance(R_T) are 5.9 mV and 829  · cm², respectively. The apical membranepotential (V_A) is 40.7 mV, and the mean ratioof apical to basolateral membrane resistance (R_A/R_B) is 2.8. Apicalamiloride hyperpolarized V_A by 19.7 mV andtripled R_A/R_B. AcAMP-elevating cocktail depolarized V_A by 17.6 mV, decreased R_A/R_B by60%, increased short-circuit current by 6 µA/cm²,decreased R_T by 155  · cm², and largely eliminated responses toamiloride. Whole cell patch-clamp measurements demonstratedamiloride-inhibited Na⁺ currents [linear current-voltage(I-V) relation] and forskolin-stimulated Clcurrents (linear I-V relation). A capacitance probe methodshowed that in the control state, MEC monolayers either absorbed orsecreted fluid (2-4µl · cm² · h¹). Fluidsecretion was stimulated either by activating CFTR (cAMP) or blockingENaC (amiloride). These data plus equivalent circuit analysis showedthat 1) fluid absorption across MEC is mediated byNa⁺ transport via apical membrane ENaC, and fluid secretionis mediated, in part, by Cl transport via apicalCFTR; 2) in both cases, appropriate counterions move throughtight junctions to maintain electroneutrality; and 3)interactions among CFTR, ENaC, and tight junctions allow MEC to eitherabsorb or secrete fluid and, in situ, may help control luminal[Na⁺] and [Cl].

     

Impedance of Nitellopsis obtusa Cells at Low Frequencies

Measurements of impedance were made on the internodal cellsof Nitellopsis obtusa with the aid of external electrodes andcurrent frequencies of from 20 to 1000 Hz. The analysis of theresults points to the fact that the resistance (r) and capacity(c) of the membrane and the specific resistance (p) of the interiorof the cell are constant in the range of the frequencies used.The values of r, c, and p are: r = 26.2 k cm²; c = 0.55 F cm^–2;p = 78 em. The observed dispersion of the resistance and capacityof the system investigated at low frequencies is a result ofits complex structure, which consists of several phases withdifferent electrical parameters. These phases are: the membranes,the cytoplasm, the vacuolar sap, the external solution, andthe electrodes.     

Chloride Electrochemical Potentials and Membrane Resistances in Nitella translucens

The chloride electrochemical potential difference between theinside of cells of Nitella translucens and the bathing mediumhas been measured by a direct electrical method employing Ag/AgClelectrodes. The membrane potential has been measured by meansof conventional salt bridge microelectrodes. These data havebeen used to calculate the internal chloride concentration ofthe cells; the mean value obtained was 39 mM. This chlorideelectrochemical potential difference has been short-circuitedthus causing an outward (depolarizing) electric current to flowthrough the cell membrane. The resulting membrane depolarizationhas been measured at two points along the length of the cellenabling the membrane resistance and space constant to be deduced;the respective values obtained were 24.8 Kcm² and 3.0 cm. Itis suggested that these experiments lend additional supportto the hypothesis that during the action potential in the Characeaethere occurs a transient increase in the chloride conductanceof the plasmalemma.     

Serotonin-elicited inhibition of Cl(-) secretion in the rabbit conjunctival epithelium

The effects of serotonin[5-hydroxytryptamine (5-HT)] on the transepithelial electricalproperties of the short-circuited rabbit conjunctiva were examined.With this epithelium, the short-circuit current(I_sc) measures Cl secretion plusan amiloride-resistant Na⁺ absorptive process. Apicaladdition of 5-HT (10 µM) elicited a prompt I_screduction from 14.2 ± 1.2 to 10.9 ± 1.2 µA/cm² and increased transepithelial resistance from0.89 ± 0.05 to 1.03 ± 0.06 k · cm²(means ± SE, n = 21, P < 0.05).Similar changes were obtained with conjunctivae bathed withoutNa⁺ in the apical bath, as well as with conjunctivaepreexposed to bumetanide with the Cl-dependentI_sc sustained by the parallel activities ofbasolateral Na⁺/H⁺ andCl/HCO exchangers. In contrast, the5-HT-evoked effects were attenuated by the absence of Cl(I_sc = 0.5 ± 0.2, n = 5), suggesting that reduced Clconductance(s) is an effect of 5-HT exposure. In amphotericin B-treatedconjunctiva and in the presence of a transepithelial K⁺gradient, 5-HT addition reduced K⁺ diffusion across thepreparation by 13% and increased transepithelial resistance by 4%(n = 6, P < 0.05), indicating that aninhibition in K⁺ conductance(s) was also detectable.Significant electrical responses also occurred under physiologicalconditions when 5-HT was introduced to epithelia pretreated withadrenergic agonists or protein kinase C, phospholipase C,phosphodiesterase, or adenylyl cyclase inhibitors or after perturbationof Ca²⁺ homeostasis. Briefly, the conjunctiva harbors theonly known Cl-secreting epithelium in which 5-HT evokesCl transport inhibition; receptor subtype and signaltransduction mechanism were not determined.

     

Pseudomonas aeruginosa induces changes in fluid transport across airway surface epithelia

Fluid transport across cultures of bovine tracheal epitheliumwas measured with a capacitance probe technique. Baseline fluid absorption (J_v)across bovine cells of 3.2 µl · cm² · h¹was inhibited by ~78% after 1 h of exposure to suspensions of Pseudomonas aeruginosa, with aconcomitant decrease in transepithelial potential (TEP) and increase intransepithelial resistance(R_t). Effectsof P. aeruginosa were blocked byamiloride, which decreased J_v by 112% frombaseline of 2.35 ± 1.25 µl · cm² · h¹,increased R_t by101% from baseline of 610 ± 257  · cm², anddecreased TEP by 91% from baseline of 55 ± 18.5 mV.Microelectrode studies suggested that effects of P. aeruginosa on amiloride-sensitive Na absorption weredue in part to a block of basolateral membrane K channels. In thepresence of Cl transport inhibitors[5-nitro-2-(3-phenylpropylamino)-benzoic acid,H₂-DIDS, and bumetanide],P. aeruginosa induced a fluid secretion of ~2.5 ± 0.4 µl · cm² · h¹and decreased R_twithout changing TEP. However, these changes were abolished when thetransport inhibitors were used in a medium in which Cl was replaced byan impermeant organic anion. Filtrates of P. aeruginosa suspensions had no effect onJ_v, TEP, orR_t. Mutantslacking exotoxin A or rhamnolipids or with defective lipopolysaccharide still inhibited fluid absorption and altered bioelectrical properties. By contrast, mutations in the rpoN gene encodinga  factor of RNA polymerase abolished actions of P. aeruginosa. In vivo, changes in transepithelial saltand water transport induced by P. aeruginosa may alter viscosity and ionic composition ofairway secretions so as to foster further bacterial colonization.

     

A rat parotid gland cell line, Par-C10, exhibits neurotransmitter-regulated transepithelial anion secretion

Because of thelack of salivary gland cell lines suitable for Ussing chamber studies,a recently established rat parotid acinar cell line, Par-C10, was grownon permeable supports and evaluated for development of transcellularresistance, polarization, and changes in short-circuit current(I_sc) inresponse to relevant receptor agonists. Par-C10 cultures reachedconfluence in 3-4 days and developed transcellular resistancevalues of 2,000 · cm².Morphological examination revealed that Par-C10 cells grew as polarizedmonolayers exhibiting tripartite junctional complexes and the acinarcell-specific characteristic of secretory canaliculi. Par-C10I_sc was increasedin response to muscarinic cholinergic and - and -adrenergicagonists on the basolateral aspect of the cultures and to ATP and UTP(through P2Y₂ nucleotidereceptors) applied apically. Ion replacement and inhibitor studiesindicated that anion secretion was the primary factor inagonist-stimulated I_sc. RT-PCR,which confirmed the presence ofP2Y₂ nucleotide receptor mRNA inPar-C10 cells, also revealed the presence of mRNA for the cysticfibrosis transmembrane conductance regulator and ClC-2 Cl channel proteins. These findingsestablish Par-C10 cells as the first cell line of salivary gland originuseful in transcellular ion secretion studies in Ussing chambers.

     

Characterization, Functional Reconstitution and Activation by Fusicoccin of a Ca2+-ATPase from Corydalis sempervirens Pers. Cell Suspension Cultures

Cell suspension cultures of Corydalis sempervirens have provenideal for the study of fusicoccin action [Schulz et al. (1990)Planta 183: 83] and express the fusicoccin-binding protein aswell as a plasma membrane H⁺-ATPase which is activated by thefungal toxin. Microsomal vesicles prepared from these cellsaccumulate Ca²⁺ in the presence of Mg-ATP. The protonophorecar-bonylcyanide m-chlorophenylhydrazone did not inhibit theMg-ATP dependent Ca²⁺-transport into the vesicles. This processis thus due to the activity of at least one primary active,ATP-driven, Ca²⁺-pump. The enzyme was characterized in detail.It has a pH optimum of 7.2, an apparent K_m of 0.3 mu (ATP),12pm (Ca²⁺), accepts ATP>ITP GTP>CTP UTP, and is strongly(Kⁱ, app 0.75 µmM) inhibited by erythrosine B but lessso (Kⁱ, app 95 µM) by or-thovanadate. These characteristicsare typical for the plasma membrane Ca²⁺-ATPase characterizedfrom differentiated tissues [Graf and Weiler (1990) Physiol.Plant. 75: 634]. Fusicoccin activates the erythrosine-sensitiveCa²⁺-pump by lowering its K_m for ATP, when added to living cellsprior to tissue homogenization. Thus, fusicoccin appears toactivate at least two ion-translocating ATPases in one and thesame tissue, suggesting that the toxin's mechanism of actionis complex and not restricted to activation of the H⁺-ATPase.FC has no effect when administered to microsomes. The microsomalenzyme was solubilized and reconstituted into asolec-tin liposomesin functional form. The reconstituted, erythrosine sensitiveCa²⁺-ATPase was insensitive to fusicoccin. Thus, componentsessential for toxin action are either lost or inactivated duringsubcellular fractionation. It is likely that FC action requiressoluble components. (Received April 22, 1991; Accepted July 24, 1991)     

P2 purinoceptors regulate calcium-activated chloride and fluid transport in 31EG4 mammary epithelia

It has been reported thatsecretory mammary epithelial cells (MEC) release ATP, UTP, and UDP uponmechanical stimulation. Here we examined the physiological changescaused by ATP/UTP in nontransformed, clonal mouse mammary epithelia(31EG4 cells). In control conditions, transepithelial potential (apicalside negative) and resistance were 4.4 ± 1.3 mV (mean ± SD, n = 12) and 517.7 ± 39.4  · cm², respectively. The apicalmembrane potential was 43.9 ± 1.7 mV, and the ratio of apicalto basolateral membrane resistance (R_A/R_B) was 3.5 ± 0.2. Addition of ATP or UTP to the apical or basolateral membranescaused large voltage and resistance changes with an EC₅₀ of~24 µM (apical) and ~30 µM (basal). Apical ATP/UTP (100 µM)depolarized apical membrane potential by 17.6 ± 0.8 mV (n = 7) and decreasedR_A/R_B by a factor of3. The addition of adenosine to either side (100 µM) hadno effect on any of these parameters. The ATP/UTP responses werepartially inhibited by DIDS and suramin and mediated by a transientincrease in free intracellular Ca²⁺ concentration (427 ± 206 nM; 15-25 µM ATP, apical; n = 6). This Ca²⁺ increase was blocked by cyclopiazonic acid, by BAPTA,or by xestospongin C. 31EG4 MEC monolayers also secreted or absorbedfluid in the resting state, and ATP or UTP increased fluid secretion by5.6 ± 3 µl · cm² · h¹(n = 10). Pharmacology experiments indicate that 31EG4epithelia contain P2Y₂ purinoceptors on the apical andbasolateral membranes, which upon activation stimulate apicalCa²⁺-dependent Cl channels and cause fluid secretion acrossthe monolayer. This suggests that extracellular nucleotides could playa fundamental role in mammary gland paracrine signaling and theregulation of milk composition in vivo.

     

Evidence for electrogenic active ion transport across the frog olfactory mucosa in vitro

We present the first electrophysiological evidence for electrogenicion transport across the frog olfactory mucosa in vitro. Whenthe isolated dorsal mucosa was placed in an Ussing chamber andbathed symmetrically in amphibian Ringer's, the ciliated sidebecame electronegative (V = –5.2 mV ± 0.7 mV).The resistance of the mucosal preparation was 148 ± 4 cm². The true short-circuit current was obtained as the intersectionof the I–V curve with the current axis after correctingfor the series solution resistance. The average value of theshort-circuit current was 35.9 µA/cm². The I–V relationwas linear over the applied potential range of ± 16mV.The magnitude of the specific resistance of the olfactory mucosais comparable to values reported for various actively transportingrespiratory and oral cavity epithelia. Because the geometricalarea of the aperture used to normalize both the short-circuitcurrent and the resistance undoubtedly underestimates the actualarea of the dorsal olfactory epithelium, the specific resistanceand the short-circuit current are probably underestimated andoverestimated, respectively. Therefore, the nominally low resistanceneed not imply a leaky epithelium. Substitution of NO₃^–for Cl^– caused the current to increase and the resistanceto decrease. These results suggest that cation absorption playsa role in the sign of the short-circuit current. The in vitropreparation responded to the odorant ethyl n-butyrate by givingan electro-olfactogram (EOG)-like voltage transient which wassuperimposed on the steady-state potential created by activeion transport. The significance of these results is discussedfrom the perspective of the peripheral events surrounding olfactorytransduction.     

PVD9902, a porcine vas deferens epithelial cell line that exhibits neurotransmitter-stimulated anion secretion and expresses numerous HCO3(-) transporters

Epithelial ion transport disorders, including cystic fibrosis, adversely affect male reproductive function by nonobstructive mechanisms and by obstruction of the distal duct. Continuous cell lines that could be used to define ion transport mechanisms in this tissue are not readily available. In the present study, porcine vas deferens epithelial cells were isolated by standard techniques, and the cells spontaneously immortalized to form a porcine vas deferens epithelial cell line that we have titled PVD9902. Cells were maintained in continuous culture for >4 yr and 200 passages in a typical growth medium. Frozen stocks were generated, and thawed cells exhibited growth characteristics indistinguishable from their nonfrozen counterparts. Molecular and immunocytochemical studies confirmed the origin and epithelial nature of these cells. When seeded on permeable supports, PVD9902 cells grew as electrically tight (>6,000 ·cm²), confluent monolayers that responded to forskolin with an increase in short-circuit current (I_sc; 8 ± 1 µA/cm²) that required Cl^–, HCO₃^–, and Na⁺, and was partially sensitive to bumetanide. mRNA was expressed for a number of anion transporters, including CFTR, electrogenic Na⁺-HCO₃^– cotransporter 1b (NBCe1b), downregulated in adenoma, pendrin, and Cl^–/formate exchanger. Both forskolin and isoproterenol caused an increase in cellular cAMP levels. In addition, PVD9902 cell monolayers responded to physiological (i.e., adenosine, norepinephrine) and pharmacological [i.e., 5'-(N-ethylcarboxamido)adenosine, isoproterenol] agonists with increases in I_sc. Unlike their freshly isolated counterparts, however, PVD9902 cells did not respond to glucocorticoid exposure with an increase in amiloride-sensitive I_sc. RT-PCR analysis revealed the presence of both glucocorticoid and mineralocorticoid receptor mRNA as well as mRNA for the - and -subunits of the epithelia Na⁺ channels (- and -ENaC), but not -ENaC. Nonetheless, PVD9902 cells recapitulated most observations in freshly isolated cells and thus represent a powerful new tool to characterize mechanisms that contribute to male reproductive function. male reproductive tract; cystic fibrosis; epithelial Na⁺ channel expression; glucocorticoid receptor; adrenergic; vasopressin     

Calcium dependence of C-type natriuretic peptide-formed fast K+ channel

The lipid bilayertechnique was used to characterize theCa²⁺ dependence of a fastK⁺ channel formed by a synthetic17-amino acid segment [OaCNP-39-(1-17)] ofa 39-amino acid C-type natriuretic peptide (OaCNP-39) found in platypus (Ornithorhynchusanatinus) venom (OaV). TheOaCNP-39-(1-17)-formed K⁺ channel was reversiblydependent on1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid-buffered cis (cytoplasmic)Ca²⁺ concentration([Ca²⁺]_cis).The channel was fully active when[Ca²⁺]_ciswas >10⁴ M andtrans (luminal)Ca²⁺ concentration was 1.0 mM, butnot at low[Ca²⁺]_cis.The open probability of single channels increased from zero at1 × 10⁶ McisCa²⁺ to 0.73 ± 0.17 (n = 22) at10³ McisCa²⁺. Channel openings to themaximum conductance of 38 pS were rapidly and reversibly activated when[Ca²⁺]_cis,but not transCa²⁺ concentration(n = 5), was increased to >5 × 10⁴ M(n = 14). Channel openings to thesubmaximal conductance of 10.5 pS were dominant at5 × 10⁴ MCa²⁺.K⁺ channels did not open whencisMg²⁺ orSr²⁺ concentrations were increasedfrom zero to 10³ M or when[Ca²⁺]_ciswas maintained at 10⁶ M(n = 3 and 2). The Hill coefficientand the inhibition constant were 1 and 0.8 × 10⁴ McisCa²⁺, respectively. Thisdependence of the channel on high[Ca²⁺]_cissuggests that it may become active under1) physiological conditions whereCa²⁺ levels are high, e.g., duringcardiac and skeletal muscle contractions, and2) pathological conditions that leadto a Ca²⁺ overload, e.g., ischemicheart and muscle fatigue. The channel could modify a cascade ofphysiological functions that are dependent on theCa²⁺-activatedK⁺ channels, e.g., vasodilationand salt secretion.

     

An NTP-Binding Protein That Cross with a Ras-Specific Antibody in the Myceia of Neurospora crassa

A Ras-related NTP-binding protein was partially purified froma membrane fraction derived from the mycelia of Neurospora crassa.[-³²P]ATP and [-³²P]GTP were incubated with mem brane and solublefractions which were then irradiated with UV light to inducecrosslinking of tightly bound nucleotides. After SDS-polyacrylamidegel electrophoresis, blotting onto a nitrocellulose filter andautoradiography it was apparent that most of the proteins thatbound [-³²P]-GTP also bound [-³²P]ATP. Pretreatment of the membranefraction with Ras-specific antibody effectively blocked thebinding of [-³²P]ATP and [-³²P]GTP to several ATP-GTP-bindingproteins. The band of a protein with a molecular weight of 26kDa on the SDS-polyacrylamide gel cross-reacted strongly withthe Ras-specific antibody. The protein was extracted from thegel and further purified by repeated gel electrophoresis. Thepurified protein bound [-³²P]ATP, [-³²P]-GTP, [-³²P]CTP and[-³²P]UTP at 1.6x10^– M and was autophosphorylated in thepresence of [-³²P]ATP and [-³²P]GTP at 1.7x10 M. Pretreatmentof the protein with Ras-specific antibody partially blockedthe autophosphorylation in the presence of these nucleotides.The binding of [-³²P]ATP to the NTP-binding protein was blockedby addition of ATP at 10^–4–10^–3 M. ATP ata concentration of 10^–4 M prevented the binding of [-³²P]to a greater extent than did GTP at the same concentration.Binding of [-³²P]CTP and [-³²P]UTP to the protein was also observed. (Received October 7, 1991; Accepted July 14, 1992)     

Genistein activates CFTR-mediated Cl(-) secretion in the murine trachea and colon

The action of the isoflavonegenistein on the cystic fibrosis transmembrane conductance regulator(CFTR) has been studied in many cell systems but not in intact murinetissues. We have investigated the action of genistein on murine tissuesfrom normal and cystic fibrosis (CF) mice. Genistein increased theshort-circuit current (I_sc) in tracheal(16.4 ± 2.8 µA/cm²) and colonic (40.0 ± 4.4 µA/cm²) epithelia of wild-type mice. This increase wasinhibited by furosemide, diphenylamine-2-carboxylate, andglibenclamide, but not by DIDS. In contrast, genistein produced nosignificant change in the I_sc of the trachealepithelium (0.9 ± 1.1 µA/cm²) and decreased theI_sc of colons from CF null (13.1 ± 2.3 µA/cm²) and F508 mice (10.3 ± 1.3 µA/cm²). Delivery of a human CFTRcDNA-liposome complex to the airways of CF null mice restored thegenistein response in the tracheas to wild-type levels. Tracheas fromF508 mice were also studied: 46% of trachea showed no response togenistein, whereas 54% gave an increase in I_scsimilar to that in wild type. We conclude that genistein activatesCFTR-mediated Cl secretion in the murine trachea anddistal colon.

     

Switched single-electrode voltage-clamp amplifiers allow precise measurement of gap junction conductance

Measurement of gapjunction conductance(g_j) with patch-clampamplifiers can, due to series resistance problems, be subject toconsiderable errors when large currents are measured. Formulas developed to correct for these errors unfortunately depend on exactestimates of series resistance, which are not always easy to obtain.Discontinuous single-electrode voltage-clamp amplifiers (DSEVCs) wereshown to overcome series resistance problems in single whole cellrecording. With the use of two synchronized DSEVCs, the simulatedg_j in a modelcircuit can be measured with a maximum error of <5% in all recordingsituations investigated (series resistance, 5-47 M; membraneresistance, 20-1,000 M; g_j, 1-100nS). At a very lowg_j of 100 pS, theerror sometimes exceeded 5% (maximum of 15%), but the error wasalways <5% when membrane resistance was >100 M. The precisionof the measurements is independent of series resistance, membraneresistance, and g_j. Consequently,it is possible to calculateg_j directly from Ohm's law, i.e., without using correction formulas. Our results suggest that DSEVCs should be used to measureg_j if largecurrents must be recorded, i.e., if cells are well coupled or ifmembrane resistance is low.     

Ca(2+)-activated Cl(-) current in sheep lymphatic smooth muscle

Freshly dispersed sheep mesenteric lymphaticsmooth muscle cells were studied at 37°C using the perforatedpatch-clamp technique with Cs⁺- and K⁺-filledpipettes. Depolarizing steps evoked currents that consisted ofL-type Ca²⁺ [I_Ca(L)]current and a slowly developing current. The slow current reversed at1 ± 1.5 mV with symmetrical Cl concentrationscompared with 23.2 ± 1.2 mV (n = 5) and34.3 ± 3.5 mV (n = 4) when externalCl was substituted with either glutamate (86 mM) orI (125 mM). Nifedipine (1 µM) blocked and BAY K 8644 enhanced I_Ca(L), the slow-developing sustainedcurrent, and the tail current. The Cl channel blockeranthracene-9-carboxylic acid (9-AC) reduced only the slowly developinginward and tail currents. Application of caffeine (10 mM) tovoltage-clamped cells evoked currents that reversed close to theCl equilibrium potential and were sensitive to 9-AC.Small spontaneous transient depolarizations and larger actionpotentials were observed in current clamp, and these were blocked by9-AC. Evoked action potentials were triphasic and had a prominentplateau phase that was selectively blocked by 9-AC. Similarly, fluidoutput was reduced by 9-AC in doubly cannulated segments ofspontaneously pumping sheep lymphatics, suggesting that theCa²⁺-activated Cl current plays an importantrole in the electrical activity underlying spontaneous activity in this tissue.

     

Structure/activity relationships in the arginine taste pathway of the channel catfish

To characterize the molecular/structural requirements for activationor antagonism of the arginine taste pathways in catfish, Ictaluruspunctatus, structure/activity studies were performed using integratedmultiunit responses and cross-adaptation. Of all the guanidinium-containingcompounds tested, only L-arginine, L--amino-ß-guanidinopropionic acid (L-AGPA) and L-arginine methyl and ethyl esterswere strong stimuli. Results of functional group substitutionsand modification of the L-arginine parent molecule indicatedthat: (i) stereospecificity was observed with D-arginine beinga much less effective stimulus than L-arginine; (ii) an L-aminogroup must be present and unblocked (-chloro-guanidino-N-valericacid and N-acetyl L-arginine were weak or inactive stimuli);(iii) a free carboxylic acid group was not necessary for activity;(iv) the distance between the anomeric carbon and the guanidiniumgroup was not critical (L-AGPA, having two methylene groupsless than L-arginine was a moderately strong stimulus as wasL-canavanine) and (v) modification or substitution of the guanidinumgroup by other basic groups including amine, methyl or dimethylamineor by an isosterc (ureido) resulted in loss of stimulatory ability.In general, those stimuli and analogs that were good cross-adaptersof L-arginine stimulation were also good competitors for L-[³H]argininebinding to a partial membrane fraction (P2) from catfish tasteepithelium. On the other hand, compounds that were poor cross-adaptingstimuli were also poor binding competitors. While D-argininewas a poor stimulus, it did cross-adapt L-arginine and competedwell with L-[³H]arginine for binding to fraction P2.     

Ca(2+)-dependent activation of Cl(-) currents in Xenopus oocytes is modulated by voltage

Ca²⁺-activatedCl currents (I_Cl,Ca) wereexamined using fluorescence confocal microscopy to monitorintracellular Ca²⁺ liberation evoked by flash photolysis ofcaged inositol 1,4,5-trisphosphate (InsP₃) involtage-clamped Xenopus oocytes. Currents at +40 mV exhibited asteep dependence on InsP₃ concentration([InsP₃]), whereas currents at140 mV exhibited a higher threshold and more graded relationshipwith [InsP₃]. Ca²⁺ levelsrequired to half-maximally activate I_Cl,Ca wereabout 50% larger at 140 mV than at +40 mV, and currents evokedby small Ca²⁺ elevations were reduced >25-fold. Thehalf-decay time of Ca²⁺ signals shortened at increasinglypositive potentials, whereas the decay of I_Cl,Calengthened. The steady-state current-voltage (I-V) relationshipfor I_Cl,Ca exhibited outward rectification withweak photolysis flashes but became more linear with stronger stimuli.Instantaneous I-V relationships were linear with both strongand weak stimuli. Current relaxations following voltage steps duringactivation of I_Cl,Ca decayed with half-times that shortened from about 100 ms at +10 mV to 20 ms at 160 mV. We conclude that InsP₃-mediated Ca²⁺liberation activates a single population of Clchannels, which exhibit voltage-dependent Ca²⁺ activationand voltage-independent instantaneous conductance.