PKA and arachidonic acid activation of human recombinant ClC-2 chloride channels

An HEK-293 cell line stably expressing the humanrecombinant ClC-2 Cl channel was used in patch-clampstudies to study its regulation. The relative permeabilityP_x/P_Cl calculated fromreversal potentials was I > Cl = NO₃ = SCNBr. Theabsolute permeability calculated from conductance ratios wasCl = Br = NO₃  SCN > I. The channel was activatedby cAMP-dependent protein kinase (PKA), reduced extracellular pH, oleicacid (C:18 cis9), elaidic acid (C:18trans9), arachidonic acid (AA; C:20cis5,8,11,14), and by inhibitors of AA metabolism,5,8,11,14-eicosatetraynoic acid (ETYA; C:20trans5,8,11,14),-methyl-4-(2-methylpropyl)benzeneacetic acid (ibuprofen), and2-phenyl-1,2-benzisoselenazol-3-[2H]-one (PZ51, ebselen). ClC-2Cl channels were activated by a combination of forskolinplus IBMX and were inhibited by the cell-permeant myristoylated PKAinhibitor (mPKI). Channel activation by reduction of bath pH wasincreased by PKA and prevented by mPKI. AA activation of the ClC-2Cl channel was not inhibited by mPKI or staurosporine andwas therefore independent of PKA or protein kinase C activation.

     

Ouabain and substrate affinities of human Na(+)-K(+)-ATPase alpha(1)beta(1), alpha(2)beta(1), and alpha(3)beta(1) when expressed separately in yeast cells

HumanNa⁺-K⁺-ATPase₁₁,₂₁, and ₃₁heterodimers were expressed individually in yeast, and ouabainbinding and ATP hydrolysis were measured in membrane fractions. Theouabain equilibrium dissociation constant was 13-17 nM for₁₁ and ₃₁at 37°C and 32 nM for ₂₁, indicatingthat the human -subunit isoforms have a similar high affinity forcardiac glycosides. K_0.5 values for antagonism of ouabain binding by K⁺ were ranked in order as follows:₂ (6.3 ± 2.4 mM) > ₃(1.6 ± 0.5 mM)  ₁ (0.9 ± 0.6 mM),and K_0.5 values for Na⁺ antagonismof ouabain binding to all heterodimers were 9.5-13.8 mM. Themolecular turnover for ATP hydrolysis by₁₁ (6,652 min¹) was abouttwice as high as that by ₃₁ (3,145 min¹). These properties of the human heterodimersexpressed in yeast are in good agreement with properties of the humanNa⁺-K⁺-ATPase expressed in Xenopusoocytes (G Crambert, U Hasler, AT Beggah, C Yu, NN Modyanov, J-DHorisberger, L Lelievie, and K Geering. J Biol Chem275: 1976-1986, 2000). In contrast to Na⁺ pumpsexpressed in Xenopus oocytes, the₂₁ complex in yeast membranes wassignificantly less stable than ₁₁ or₃₁, resulting in a lower functionalexpression level. The ₂₁ complex was also more easily denatured by SDS than was the₁₁ or the₃₁ complex.

     

TGF-alpha reduces bradykinin-stimulated ion transport and prostaglandin release in human colonic epithelial cells

The effect of chronic exposure to transforming growth factor-(TGF-) on bradykinin-stimulated acute prostanoid production and ionsecretion in monolayers of HCA-7 colony 29 colonic epithelial cells hasbeen studied. Monolayers synthesized prostaglandinE₂ (PGE₂) at a basal rate of 2.10 ± 0.31 pg · monolayer¹ · min¹over 24 h. Bradykinin(10⁸-10⁵M) dose dependently increased acutePGE₂ release by three orders ofmagnitude. This was associated with a rise in cAMP from 1.60 ± 0.14 to 2.90 ± 0.1 pmol/monolayer (P < 0.02) and a dose-dependent increase in short-circuit current (SCC).When monolayers were primed by a 24-h exposure to TGF-, basalPGE₂ release rose to 6.31 ± 0.38 pg · monolayer¹ · min¹(TGF- concn 10 ng/ml; P = 0.001).However, the stimulation of acute prostaglandin release, intracellularcAMP, and increased SCC by bradykinin was significantly reduced bypreincubation with TGF-. Priming withPGE₂(10⁸-10⁶M) over 24 h mimicked the effect of TGF- on bradykinin-induced changes in cAMP and SCC. These data suggest that enhanced chronic release of prostaglandins in response to stimulation with TGF- maydownregulate acute responses to bradykinin. In vivo, TGF- could havean important modulatory function in regulating secretion underinflammatory conditions.     

Similarity of A(3)-adenosine and swelling-activated Cl(-) channels in nonpigmented ciliary epithelial cells

Chloride release from nonpigmented ciliary epithelial (NPE)cells is a final step in forming aqueous humor, and adenosine stimulates Cl transport by these cells. Whole cell patchclamping of cultured human NPE cells indicated that theA₃-selective agonist1-deoxy-1-(6-[([3-iodophenyl]methyl)amino]-9H-purin-9-yl)-N-methyl--D-ribofuranuronamide (IB-MECA) stimulated currents (I_IB-MECA) by~90% at +80 mV. Partial replacement of external Clwith aspartate reduced outward currents and shifted the reversal potential (V_rev) from 23 ± 2 mV to0.0 ± 0.7 mV. Nitrate substitution had little effect. Perfusionwith the Cl channel blockers5-nitro-2-(3-phenylpropylamino)benzoic acid (NPPB) and niflumic acidinhibited the currents. Partial Cl replacement withaspartate and NO₃, and perfusion with NPPB, hadsimilar effects on the swelling-activated whole cell currents(I_Swell). Partial cyclamate substitution for external Cl inhibited inward and outward currents of bothI_IB-MECA and I_Swell. Bothsets of currents also showed outward rectification and inactivation atlarge depolarizing potentials. The results are consistent with theconcept that A₃-subtype adenosine agonists and swellingactivate a common population of Cl channels.

     

Mechanisms of EGF-induced stimulation of sodium reabsorption by alveolar epithelial cells

We investigated theeffects of epidermal growth factor (EGF) on activeNa⁺ absorption by alveolarepithelium. Rat alveolar epithelial cells (AEC) were isolated andcultivated in serum-free medium on tissue culture-treated polycarbonatefilters. mRNA for rat epithelial Na⁺ channel (rENaC) -, -,and -subunits and Na⁺ pump₁- and₁-subunits were detected inday 4 monolayers by Northern analysisand were unchanged in abundance in day5 monolayers in the absence of EGF. Monolayerscultivated in the presence of EGF (20 ng/ml) for 24 h fromday 4 to day5 showed an increase in both₁ and₁Na⁺ pump subunit mRNA but noincrease in rENaC subunit mRNA. EGF-treated monolayers showed parallelincreases in Na⁺ pump₁- and₁-subunit protein by immunoblotrelative to untreated monolayers. Fixed AEC monolayers demonstratedpredominantly membrane-associated immunofluorescent labeling withanti-Na⁺ pump₁- and₁-subunit antibodies, withincreased intensity of cell labeling for both subunits seen at 24 hfollowing exposure to EGF. These changes inNa⁺ pump mRNA and protein precededa delayed (>12 h) increase in short-current circuit (measure ofactive transepithelial Na⁺transport) across monolayers treated with EGF compared with untreated monolayers. We conclude that EGF increases activeNa⁺ resorption across AECmonolayers primarily via direct effects onNa⁺ pump subunit mRNA expressionand protein synthesis, leading to increased numbers of functionalNa⁺ pumps in the basolateralmembranes.

     

Overexpression of protein kinase C-delta increases tight junction permeability in LLC-PK1 epithelia

The Ca²⁺-independent-isoform of protein kinase C (PKC-) was overexpressed inLLC-PK₁ epithelia and placed undercontrol of a tetracycline-responsive expression system. In the absenceof tetracycline, the exogenous PKC- is expressed. Westernimmunoblots show that the overexpressed PKC- is found in thecytosolic, membrane-associated, and Triton-insoluble fractions.Overexpression of PKC- produced subconfluent and confluentepithelial morphologies similar to that observed on exposure ofwild-type cells to the phorbol ester 12-O-tetradecanoylphorbol-13-acetate. Transepithelialelectrical resistance(R_T) in cellsheets overexpressing PKC- was only 20% of that in cell sheetsincubated in the presence of tetracycline, in which the amount ofPKC- and R_Twere similar to those in LLC-PK₁ parental cell sheets. Overexpression of PKC- also elicited a significant increase in transepithelial flux ofD-[¹⁴C]mannitoland a radiolabeled 2 × 10⁶-molecular-weight dextran,suggesting with theR_T decrease that overexpression increased paracellular, tight junctional permeability. Electron microscopy showed that PKC- overexpression results in amultilayered cell sheet, the tight junctions of which are almost uniformly permeable to ruthenium red. Freeze-fracture electron microscopy indicates that overexpression of PKC- results in a moredisorganized arrangement of tight junctional strands. As withLLC-PK₁ cell sheets treated with12-O-tetradecanoylphorbol-13-acetate, the reducedR_T, increasedD-mannitol flux, and tightjunctional leakiness to ruthenium red that are seen with PKC-overexpression suggest the involvement of PKC- in regulation oftight junctional permeability.

     

Na+-K+-Cl- cotransport in human fibroblasts is inhibited by cytomegalovirus infection

We examined the effects of human cytomegalovirus (HCMV)infection on theNa⁺-K⁺-Clcotransporter (NKCC) in a human fibroblast cell line. Using the Cl-sensitive dye MQAE, weshowed that the mock-infected MRC-5 cells express a functional NKCC.1) IntracellularCl concentration([Cl]_i)was significantly reduced from 53.4 ± 3.4 mM to 35.1 ± 3.6 mMfollowing bumetanide treatment. 2)Net Cl efflux caused byreplacement of external Clwith gluconate was bumetanide sensitive.3) InCl-depleted mock-infectedcells, the Cl reuptake rate(in HCO₃-free media) was reduced inthe absence of external Na⁺ and bytreatment with bumetanide. After HCMV infection, we found that although[Cl]_iincreased progressively [24 h postexposure (PE), 65.2 ± 4.5 mM; 72 h PE, 80.4 ± 5.0 mM], the bumetanide andNa⁺ sensitivities of[Cl]_iand net Cl uptake and losswere reduced by 24 h PE and abolished by 72 h PE. Western blots usingthe NKCC-specific monoclonal antibody T4 showed an approximatelyninefold decrease in the amount of NKCC protein after 72 h ofinfection. Thus HCMV infection resulted in the abolition of NKCCfunction coincident with the severe reduction in the amount of NKCCprotein expressed.

     

Modulation of human neuronal alpha 1E-type calcium channel by alpha 2delta -subunit

Calcium channels are composed of a pore-forming subunit,₁, and at least two auxiliarysubunits, - and₂-subunits. It is well knownthat -subunits regulate most of the properties of the channel. Thefunction of ₂-subunit isless understood. In this study, the effects of the calcium channel₂-subunit on the neuronal_1E voltage-gated calciumchannel expressed in Xenopus oocyteswas investigated without and with simultaneous coexpression of eitherthe _1b- or the_2a-subunit. Most aspects of_1E function were affected by₂. Thus₂ caused a shift in thecurrent-voltage and conductance-voltage curves toward more positivepotentials and accelerated activation, deactivation, and theinstallation of the inactivation process. In addition, the efficiencywith which charge movement is coupled to pore opening assessed bydetermining ratios of limiting conductance to limiting charge movementwas decreased by ₂ byfactors that ranged from 1.6 (P < 0.01) for _1E-channels to 3.0 (P < 0.005) for_1E1b-channels. These results indicate that₂ facilitates the expressionand the maturation of_1E-channels and converts thesechannels into molecules responding more rapidly to voltage.

     

Osmotic pressure regulates alpha beta gamma -rENaC expressed in Xenopus oocytes

The hypothesisthat amiloride-sensitive Na⁺channels (ENaC) are involved in cell volume regulation was tested.Anisosmotic ND-20 media (ranging from 70 to 450 mosM) were used tosuperfuse Xenopus oocytes expressing-rat ENaC (-rENaC). Whole cell currents werereversibly dependent on external osmolarity. Under conditions ofswelling (70 mosM) or shrinkage (450 mosM), current amplitude decreasedand increased, respectively. In contrast, there was no change incurrent amplitude of H₂O-injectedoocytes to the above osmotic insults. Currents recorded from-rENaC-injected oocytes were not sensitive to externalCl concentration or to theK⁺ channel inhibitorBaCl₂. They were sensitive toamiloride. The concentration of amiloride necessary to inhibit one-halfof the maximal rENaC current expressed in oocytes(K_i; apparentdissociation constant) decreased in swollen cells and increased inshrunken oocytes. The osmotic pressure-inducedNa⁺ currents showed propertiessimilar to those of stretch-activated channels, including inhibition byGd³⁺ andLa³⁺, and decreased selectivityfor Na⁺.-rENaC-expressing oocytes maintained a nearly constant cell volume in hypertonic ND-20. The present study is the firstdemonstration that -rENaC heterologously expressed inXenopus oocytes may contribute tooocyte volume regulation following shrinkage.

     

Synthesis and characterization of dual-wavelength Cl--sensitive fluorescent indicators for ratio imaging

The fluorescence of quinolinium-basedCl indicators such as6-methoxy-N-(3-sulfopropyl)quinolinium(SPQ) is quenched by Cl bya collisional mechanism without change in spectral shape. A series of"chimeric" dual-wavelengthCl indicators weresynthesized by conjugatingCl-sensitive and-insensitive chromophores with spacers. The SPQ chromophore(N-substituted 6-methoxyquinolinium; MQ) was selected as theCl-sensitive moiety[excitation wavelength(_ex) 350 nm, emission wavelength (_em) 450 nm]. N-substituted 6-aminoquinolinium (AQ) waschosen as theCl-insensitive moietybecause of its different spectral characteristics (_ex 380 nm,_em 546 nm), insensitivity toCl, positive charge (tominimize quenching by chromophore stacking/electron transfer), andreducibility (for noninvasive cell loading). The dual-wavelengthindicators were stable and nontoxic in cells and were distributeduniformly in cytoplasm, with occasional staining of the nucleus. Thebrightest and mostCl-sensitive indicatorswere -MQ-'-dimethyl-AQ-xylene dichloride andtrans-1,2-bis(4-[1-'-MQ-1'-'-dimethyl-AQ-xylyl]-pyridinium)ethylene (bis-DMXPQ). At 365-nm excitation, emission maxima were at 450 nm(Cl sensitive; Stern-Volmerconstants 82 and 98 M¹)and 565 nm (Clinsensitive). Cystic fibrosis transmembrane conductanceregulator-expressing Swiss 3T3 fibroblasts were labeled with bis-DMXPQby hypotonic shock or were labeled with its uncharged reduced form(octahydro-bis-DMXPQ) by brief incubation (20 µM, 10 min). Changes inCl concentration inresponse to Cl/nitrateexchange were recorded by emission ratio imaging (450/565 nm) at 365-nmexcitation wavelength. These results establish a first-generation setof chimeric bisquinoliniumCl indicators forratiometric measurement ofCl concentration.     

Astrocytes from Na(+)-K(+)-Cl(-) cotransporter-null mice exhibit absence of swelling and decrease in EAA release

We reported previously that inhibition ofNa⁺-K⁺-Cl cotransporter isoform 1 (NKCC1) by bumetanide abolishes high extracellular K⁺concentration ([K⁺]_o)-induced swelling andintracellular Cl accumulation in rat cortical astrocytes.In this report, we extended our study by using cortical astrocytes fromNKCC1-deficient (NKCC1^/) mice. NKCC1 protein andactivity were absent in NKCC1^/ astrocytes.[K⁺]_o of 75 mM increased NKCC1 activityapproximately fourfold in NKCC1^+/+ cells (P < 0.05) but had no effect in NKCC1^/ astrocytes.Intracellular Cl was increased by 70% inNKCC1^+/+ astrocytes under 75 mM[K⁺]_o (P < 0.05) butremained unchanged in NKCC1^/ astrocytes. Baselineintracellular Na⁺ concentration([Na⁺]_i) in NKCC1^+/+ astrocyteswas 19.0 ± 0.5 mM, compared with 16.9 ± 0.3 mM[Na⁺]_i in NKCC1^/ astrocytes(P < 0.05). Relative cell volume ofNKCC1^+/+ astrocytes increased by 13 ± 2% in 75 mM[K⁺]_o, compared with a value of 1.0 ± 0.5% in NKCC1^/ astrocytes (P < 0.05).Regulatory volume increase after hypertonic shrinkage was completelyimpaired in NKCC1^/ astrocytes.High-[K⁺]_o-induced ¹⁴C-labeledD-aspartate release was reduced by ~30% inNKCC1^/ astrocytes. Our study suggests that stimulationof NKCC1 is required for high-[K⁺]_o-inducedswelling, which contributes to glutamate release from astrocytes underhigh [K⁺]_o.

     

Nerve growth factor regulates HCO-3 absorption in thick ascending limb: modifying effects of vasopressin

Growth factorsstimulateNa⁺/H⁺exchange activity in many cell types but their effects on acidsecretion via this mechanism in renal tubules are poorly understood. Weexamined the regulation of HCO₃absorption by nerve growth factor (NGF) in the rat medullary thickascending limb (MTAL), which absorbs HCO₃via apical membraneNa⁺/H⁺exchange. MTAL were perfused in vitro with 25 mMHCO₃ solutions (pH 7.4; 290 mosmol/kgH₂O). Addition of 0.7 nMNGF to the bath decreased HCO₃absorption from 13.1 ± 1.1 to 9.6 ± 0.8 pmol · min¹ · mm¹(P < 0.001). In contrast, with10¹⁰ M arginine vasopressin(AVP) in the bath, addition of NGF to the bath increasedHCO₃ absorption from 8.0 ± 1.6 to12.5 ± 1.3 pmol · min¹ · mm¹(P < 0.01). Both effects of NGF wereblocked by genistein, consistent with the involvement of tyrosinekinase pathways. However, the AVP-dependent stimulation requiredactivation of protein kinase C (PKC), whereas the inhibition was PKCindependent, indicating that the NGF-induced signaling pathways leadingto inhibition and stimulation of HCO₃absorption are distinct. Hypertonicity blocked the inhibition but notthe AVP-dependent stimulation, suggesting that hypertonicity and NGFmay inhibit HCO₃ absorption via acommon mechanism. These data demonstrate that NGF inhibitsHCO₃ absorption in the MTAL underbasal conditions but stimulates HCO₃ absorption in the presence of AVP, effects that are mediated through distinct signal transduction pathways. They also show that AVP is acritical determinant of the response of the MTAL to growth factorstimulation and suggest that NGF can either inhibit or stimulateapical Na⁺/H⁺ exchange activitydepending on its interactions with other regulatory factors. Locallyproduced growth factors such as NGF may play a role in regulating renaltubule HCO₃ absorption.

     

A second enzyme protecting mineralocorticoid receptors from glucocorticoid occupancy

We have confirmed that A6 cells (derived fromkidney of Xenopus laevis), whichcontain both mineralocorticoid and glucocorticoid receptors, do notnormally possess 11-hydroxysteroid dehydroxgenase (11-HSD1 or11-HSD2) enzymatic activity and so are without apparent "protective" enzymes. A6 cells do not convert the glucocorticoid corticosterone to 11-dehydrocorticosterone but do, however, possess steroid 6-hydroxylase that transforms corticosterone to6-hydroxycorticosterone. This hydroxylase is cytochromeP-450 3A (CYP3A). We have nowdetermined the effects of 3,5-tetrahydroprogesterone andchenodeoxycholic acid (both inhibitors of 11-HSD1) and11-dehydrocorticosterone and11-hydroxy-3,5-tetrahydroprogesterone (inhibitors of11-HSD2) and carbenoxalone, which inhibits both 11-HSD1 and11-HSD2, on the actions and metabolism of corticosterone and activeNa⁺ transport [short-circuitcurrent(I_sc)] inA6 cells. All of these 11-HSD inhibitory substances induced asignificant increment in corticosterone-inducedI_sc, which wasdetectable within 2 h. However, none of these agents caused an increasein I_sc whenincubated by themselves with A6 cells. In all cases, the additionalI_sc was inhibitedby the mineralocorticoid receptor (MR) antagonist, RU-28318, whereasthe original I_scelicited by corticosterone alone was inhibited by the glucocorticoidreceptor antagonist, RU-38486. In separate experiments, each agent wasshown to significantly inhibit metabolism of corticosterone to6-hydroxycorticosterone in A6 cells, and a linear relationshipexisted between 6-hydroxylase inhibition and the MR-mediatedincrease in I_scin the one inhibitor tested. Troleandomycin, a selective inhibitor ofCYP3A, inhibited 6-hydroxylase and also significantly enhancedcorticosterone-induced I_sc at 2 h. Theseexperiments indicate that the enhanced MR-mediated I_sc in A6 cellsmay be related to inhibition of 6-hydroxylase activity in thesecells and that this 6-hydroxylase (CYP3A) may be protecting theexpression of corticosterone-induced active Na⁺ transport in A6 cells byMR-mediated mechanism(s).

     

Excitation wavelengths for fura 2 provide a linear relationship between [Ca(2+)] and fluorescence ratio

We proposed andtested the use of nontraditional excitation wavelengths(₁ and ₂) and an emission wavelength(_em) to define conditions under which free calciumconcentration and a fluorescence ratio are linearly related.Fluorescence spectra were determined for aqueous solutions thatcontained 25 µM fura 2, 125 mM K⁺, and either 0 mM or 0.1 mM Ca²⁺. Effectively linear relationships between[Ca²⁺] and a fluorescence ratio, i.e., <5% bias when[Ca²⁺]  5 × dissociation constant, were apparentwhen ₁  400 nm, ₂  370 nm, and_em  510 nm. Combinations with longer ₁and _em and/or with shorter ₂ reduced thisbias further. Although the method described does not obviate thecomplications that surround the correction for fluorescence background,choosing a nontraditional combination of excitation and emissionwavelengths offers several practical advantages over more traditionalfura 2 fluorescence methodologies in a variety of experimental settings.

     

Evidence for functional role of epsilonPKC isozyme in the regulation of cardiac Na(+) channels

Investigation of the role ofindividual protein kinase C (PKC) isozymes in the regulation ofNa⁺ channels has been largely limited by the lack ofisozyme-selective modulators. Here we used a novel peptide-specificactivator (V1-7) of PKC and other peptide isozyme-specificinhibitors in addition to the general PKC activator phorbol12-myristate 13-acetate (PMA) to dissect the role of individual PKCs inthe regulation of the human cardiac Na⁺ channel hH1,heterologously expressed in Xenopus oocytes. Peptides wereinjected individually or in combination into the oocyte. Whole cellNa⁺ current (I_Na) was recorded usingtwo-electrode voltage clamp. V1-7 (100 nM) and PMA (100 nM)inhibited I_Na by 31 ± 5% and 44 ± 8% (at 20 mV), respectively. These effects were not seen with thescrambled peptide for V1-7 (100 nM) or the PMA analog4-phorbol 12,13-didecanoate (100 nM). However, V1-7-and PMA-induced I_Na inhibition was abolished byV1-2, a peptide-specific antagonist of PKC. Furthermore,PMA-induced I_Na inhibition was not altered by100 nM peptide-specific inhibitors for -, -, -, or PKC. PMAand V1-7 induced translocation of PKC from soluble toparticulate fraction in Xenopus oocytes. This translocationwas antagonized by V1-2. In native rat ventricular myocytes,PMA and V1-7 also inhibited I_Na; thisinhibition was antagonized by V1-2. In conclusion, the resultsprovide evidence for selective regulation of cardiac Na⁺channels by PKC isozyme.

     

Synergism between toxin-gamma from Brazilian scorpion Tityus serrulatus and veratridine in chromaffin cells

Toxin- (T)from the Brazilian scorpion Tityusserrulatus venom caused a concentration- andtime-dependent increase in the release of norepinephrine andepinephrine from bovine adrenal medullary chromaffin cells. T was~200-fold more potent than veratridine judged fromEC₅₀ values, although the maximalsecretory efficacy of veratridine was 10-fold greater than that of T(1.2 vs. 12 µg/ml of catecholamine release). The combination of both toxins produced a synergistic effect that was particularly drastic at 5 mM extracellular Ca²⁺concentration([Ca²⁺]_o),when 30 µM veratridine plus 0.45 µM T were used. T (0.45 µM) doubled the basal uptake of⁴⁵Ca²⁺,whereas veratridine (100 µM) tripled it. Again, a drastic synergism in enhancing Ca²⁺ entry was seenwhen T and veratridine were combined; this was particularlypronounced at 5 mM[Ca²⁺]_o.Veratridine induced oscillations of cytosolicCa²⁺ concentration([Ca²⁺]_i)in single fura 2-loaded cells without elevation of basal levels. Incontrast, T elevated basal[Ca²⁺]_ilevels, causing only small oscillations. When added together, T andveratridine elevated the basal levels of[Ca²⁺]_iwithout causing large oscillations. T shifted the current-voltage (I-V) curve forNa⁺ channel current to the left.The combination of T with veratridine increased the shift of theI-V curve to the left, resulting in agreater recruitment of Na⁺channels at more hyperpolarizing potentials. This led to enhanced andmore rapid accumulation of Na⁺ inthe cell, causing cell depolarization, the opening of voltage-dependent Ca²⁺ channels, andCa²⁺ entry and secretion.

     

Apical and basolateral CO2-HCO-3 permeability in cultured bovine corneal endothelial cells

Corneal endothelial function is dependent onHCO₃ transport. However, the relativeHCO₃ permeabilities of the apical andbasolateral membranes are unknown. Using changes in intracellular pHsecondary to removingCO₂-HCO₃ (at constant pH) or removing HCO₃alone (at constant CO₂) fromapical or basolateral compartments, we determined the relative apicaland basolateral HCO₃ permeabilities and their dependencies on Na⁺ andCl. Removal ofCO₂-HCO₃from the apical side caused a steady-state alkalinization (+0.08 pHunits), and removal from the basolateral side caused an acidification(0.05 pH units). Removal ofHCO₃ at constantCO₂ indicated that the basolateralHCO₃ fluxes were about three to fourtimes the apical fluxes. Reducing perfusateNa⁺ concentration to 10 mM had noeffect on apical flux but slowed basolateralHCO₃ flux by one-half. In the absence of Cl, there was anapparent increase in apical HCO₃ fluxunder constant-pH conditions; however, no net change could be measuredunder constant-CO₂ conditions.Basolateral flux was slowed ~30% in the absence ofCl, but the net flux wasunchanged. The steady-state alkalinization after removal ofCO₂-HCO₃apically suggests that CO₂diffusion may contribute to apicalHCO₃ flux through the action of amembrane-associated carbonic anhydrase. Indeed, apicalCO₂ fluxes were inhibited by theextracellular carbonic anhydrase inhibitor benzolamide and partiallyrestored by exogenous carbonic anhydrase. The presence ofmembrane-bound carbonic anhydrase (CAIV) was confirmed byimmunoblotting. We conclude that theNa⁺-dependent basolateralHCO₃ permeability is consistent withNa⁺-nHCO₃cotransport. Changes inHCO₃ flux in the absence ofCl are most likely due toNa⁺-nHCO₃cotransport-induced membrane potential changes that cannot bedissipated. Apical HCO₃ permeabilityis relatively low, but may be augmented byCO₂ diffusion in conjunction witha CAIV.

     

Intracellular H+ regulates the alpha -subunit of ENaC, the epithelial Na+ channel

Protons regulateelectrogenic sodium absorption in a variety of epithelia, including thecortical collecting duct, frog skin, and urinary bladder. Recently,three subunits (, , ) coding for the epithelial sodium channel(ENaC) were cloned. However, it is not known whether pH regulatesNa⁺ channels directly byinteracting with one of the three ENaC subunits or indirectly byinteracting with a regulatory protein. As a first step to identifyingthe molecular mechanisms of proton-mediated regulation of apicalmembrane Na⁺ permeability inepithelia, we examined the effect of pH on the biophysical propertiesof ENaC. To this end, we expressed various combinations of -, -,and -subunits of ENaC in Xenopusoocytes and studied ENaC currents by the two-electrode voltage-clampand patch-clamp techniques. In addition, the effect of pH on the-ENaC subunit was examined in planar lipid bilayers. We report that ,,-ENaC currents were regulated by changes in intracellular pH(pH_i) but not by changes inextracellular pH (pH_o).Acidification reduced and alkalization increased channel activity by avoltage-independent mechanism. Moreover, a reduction ofpH_i reduced single-channel openprobability, reduced single-channel open time, and increased single-channel closed time without altering single-channel conductance. Acidification of the cytoplasmic solution also inhibited ,-ENaC, ,-ENaC, and -ENaC currents. We conclude thatpH_i but notpH_o regulates ENaC and that the-ENaC subunit is regulated directly bypH_i.     

Na+ pump alpha 2-subunit expression modulates Ca2+ signaling

The role of the Na⁺ pump₂-subunit in Ca²⁺ signaling was examined inprimary cultured astrocytes from wild-type(₂^+/+ = WT) mouse fetuses and thosewith a null mutation in one [₂^+/ = heterozygote (Het)] or both [₂^/ = knockout (KO)] ₂ genes. Na⁺ pump catalytic() subunit expression was measured by immunoblot; cytosol[Na⁺] ([Na⁺]_cyt) and[Ca²⁺] ([Ca²⁺]_cyt) weremeasured with sodium-binding benzofuran isophthalate and fura 2 byusing digital imaging. Astrocytes express Na⁺ pumpswith both ₁- (80% of total ) and₂- (20% of total ) subunits. Het astrocytesexpress 50% of normal ₂; those from KO express none.Expression of ₁ is normal in both Het and KO cells.Resting [Na⁺]_cyt = 6.5 mM in WT, 6.8 mMin Het (P > 0.05 vs. WT), and 8.0 mM in KO cells(P < 0.001); 500 nM ouabain (inhibits only₂) equalized [Na⁺]_cyt at 8 mMin all three cell types. Resting[Ca²⁺]_cyt = 132 nM in WT, 162 nM in Het,and 196 nM in KO cells (both P < 0.001 vs. WT).Cyclopiazonic acid (CPA), which inhibits endoplasmic reticulum (ER)Ca²⁺ pumps and unloads the ER, induces transient (inCa²⁺-free media) or sustained (in Ca²⁺-repletemedia) elevation of [Ca²⁺]_cyt. TheseCa²⁺ responses to 10 µM CPA were augmented in Het as wellas KO cells. When CPA was applied in Ca²⁺-free media, thereintroduction of Ca²⁺ induced significantly largertransient rises in [Ca²⁺]_cyt (due toCa²⁺ entry through store-operated channels) in Het and KOcells than in WT cells. These results correlate with published evidencethat ₂ Na⁺ pumps andNa⁺/Ca²⁺ exchangers are confined to plasmamembrane microdomains that overlie the ER. The data suggest thatselective reduction of ₂ Na⁺ pump activitycan elevate local [Na⁺] and, viaNa⁺/Ca²⁺ exchange, [Ca²⁺] in thetiny volume of cytosol between the plasma membrane and ER. This, inturn, augments adjacent ER Ca²⁺ stores and therebyamplifies Ca²⁺ signaling without elevating bulk[Na⁺]_cyt.

     

CFTR induces the expression of DRA along with Cl(-)/HCO(3)(-) exchange activity in tracheal epithelial cells

Thickening of airway mucus and lungdysfunction in cystic fibrosis (CF) results, at least in part, fromabnormal secretion of Cl and HCO₃across the tracheal epithelium. The mechanism of the defect in HCO₃ secretion is ill defined; however, a lack ofapical Cl/HCO₃ exchange may exist inCF. To test this hypothesis, we examined the expression ofCl/HCO₃ exchangers in trachealepithelial cells exhibiting physiological features prototypical ofcystic fibrosis [CFT-1 cells, lacking a functional cystic fibrosistransmembrane conductance regulator (CFTR)] or normal trachea (CFT-1cells transfected with functional wild-type CFTR, termed CFT-WT). Cellswere grown on coverslips and were loaded with the pH-sensitive dye2',7'-bis(2-carboxyethyl)-5(6)-carboxyfluorescein, andintracellular pH was monitored. Cl/HCO₃exchange activity increased by ~300% in cells transfected with functional CFTR, with activities increasing from 0.034 pH/min in CFT-1cells to 0.11 in CFT-WT cells (P < 0.001, n = 8). This activity was significantly inhibited byDIDS. The mRNA expression of the ubiquitous basolateral AE-2Cl/HCO₃ exchanger remained unchanged.However, mRNA encoding DRA, recently shown to be aCl/HCO₃ exchanger (Melvin JE, Park K,Richardson L, Schultheis PJ, and Shull GE. J Biol Chem 274:22855-22861, 1999.) was abundantly expressed in cells expressingfunctional CFTR but not in cells that lacked CFTR or that expressedmutant CFTR. In conclusion, CFTR induces the mRNA expression of"downregulated in adenoma" (DRA) and, as a result, upregulates theapical Cl/HCO₃ exchanger activity intracheal cells. We propose that the tracheal HCO₃secretion defect in patients with CF is partly due to thedownregulation of the apical Cl/HCO₃exchange activity mediated by DRA.