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.

     

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.

     

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.     

Hydrogen peroxide inhibits cAMP-induced Cl- secretion across colonic epithelial cells

We examined the effects ofH₂O₂on Cl secretion acrosshuman colonic T84 cells grown on permeable supports and mounted in modified Ussing chambers. Forskolin-induced short-circuit current, ameasure of Cl secretion,was inhibited in a concentration-dependent fashion when monolayers werepretreated withH₂O₂for 30 min (30-100% inhibition between 500 µM and 5 mM).Moreover,H₂O₂inhibited 76% of the Clcurrent across monolayers when the basolateral membranes were permeabilized with nystatin (200 µg/ml). When the apical membrane waspermeabilized with amphotericin B,H₂O₂inhibited the Na⁺ current (ameasure ofNa⁺-K⁺-ATPaseactivity) by 68% but increased theK⁺ current more than threefold. Inaddition to its effects on ion transport pathways,H₂O₂also decreased intracellular ATP levels by 43%. We conclude that theprincipal effect ofH₂O₂on colonic Cl secretion isinhibitory. This may be due to a decrease in ATP levels followingH₂O₂treatment, which subsequently results in an inhibition of the apicalmembrane Cl conductance andbasolateral membraneNa⁺-K⁺-ATPaseactivity. Alternatively,H₂O₂may alter Cl secretion bydirect action on the transporters or alterations in signal transductionpathways.

     

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.

     

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.

     

Cell cycle-dependent expression of volume-activated chloride currents in nasopharyngeal carcinoma cells

Patch-clamping and cell imageanalysis techniques were used to study the expression of thevolume-activated Cl current,I_Cl(vol), and regulatory volume decrease (RVD)capacity in the cell cycle in nasopharyngeal carcinoma cells (CNE-2Z). Hypotonic challenge caused CNE-2Z cells to swell and activated aCl current with a linear conductance, negligibletime-dependent inactivation, and a reversal potential close to theCl equilibrium potential. The sequence of anionpermeability was I > Br > Cl > gluconate. The Cl channelblockers tamoxifen, 5-nitro-2-(3-phenylpropylamino)benzoic acid (NPPB),and ATP inhibited I_Cl(vol). Synchronous cultures of cells were obtained by the mitotic shake-off technique and by adouble chemical-block (thymidine and hydroxyurea) technique. Theexpression of I_Cl(vol) was cell cycle dependent,being high in G₁ phase, downregulated in S phase, butincreasing again in M phase. Hypotonic solution activated RVD, whichwas cell cycle dependent and inhibited by the Cl channelblockers NPPB, tamoxifen, and ATP. The expression of I_Cl(vol) was closely correlated with the RVDcapacity in the cell cycle, suggesting a functional relationship.Inhibition of I_Cl(vol) by NPPB (100 µM)arrested cells in G₀/G₁. The data also suggest that expression of I_Cl(vol) and RVD capacity areactively modulated during the cell cycle. The volume-activatedCl current associated with RVD may therefore play animportant role during the cell cycle progress.

     

Peroxynitrite inhibits amiloride-sensitive Na+ currents in Xenopus oocytes expressing alpha beta gamma -rENaC

We examined the effect of peroxynitrite(ONOO) on the cloned ratepithelial Na⁺ channel(-rENaC) expressed in Xenopusoocytes. 3-Morpholinosydnonimine (SIN-1) was used to concurrentlygenerate nitric oxide (· NO) and superoxide(O₂ ·), which react toform ONOO, a species knownto promote protein nitration and oxidation. Under control conditions,oocytes displayed an amiloride-sensitive whole cell conductance of 7.4 ± 2.8 (SE) µS. When incubated at 18°C with SIN-1 (1 mM) for 2 h (final ONOO concentration = 10 µM), the amiloride-sensitive conductance was reduced to0.8 ± 0.5 µS. To evaluate whether the observed inhibition was due to ONOO, as opposedto · NO, we also exposed oocytes to SIN-1 in the presence ofurate (500 µM), a scavenger ofONOO and superoxidedismutase, which scavengesO₂ ·, converting SIN-1from an ONOO to an· NO donor. Under these conditions, conductance values remained at control levels following SIN-1 treatment.Tetranitromethane, an agent that oxidizes sulfhydryl groups at pH6, also inhibited the amiloride-sensitive conductance. These datasuggest that oxidation of critical sulfhydryl groups within rENaC byONOO directly inhibitschannel activity.

     

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.

     

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.

     

Human cytomegalovirus infection stimulates Cl-/HCO-3 exchanger activity in human fibroblasts

The effects ofhuman cytomegalovirus (HCMV) infection onCl/HCO₃exchanger activity in human lung fibroblasts (MRC-5 cells) were studiedusing fluorescent, ion-sensitive dyes. The intracellular pH(pH_i) of mock- and HCMV-infectedcells bathed in a solution containing 5%CO₂-25 mMHCO₃ were nearly the same. However,replacement of external Clwith gluconate caused anH₂DIDS-inhibitable (100 µM)increase in the pH_i ofHCMV-infected cells but not in mock-infected cells. Continuous exposureto hyperosmotic external media containing CO₂/HCO₃caused the pH_i of both cell typesto increase. The pH_i remainedelevated in mock-infected cells. However, in HCMV-infected cells, thepH_i peaked and then recoveredtoward control values. This pH_irecovery phase was completely blocked by 100 µMH₂DIDS. In the presence ofCO₂/HCO₃, there was an H₂DIDS-sensitivecomponent of net Cl efflux(external Cl wassubstituted with gluconate) that was less in mock- than in HCMV-infected cells. When nitrate was substituted for external Cl (in the nominal absenceofCO₂/HCO₃),the H₂DIDS-sensitive netCl efflux was much greaterfrom HCMV- than from mock-infected cells. In mock-infected cells,H₂DIDS-sensitive, netCl efflux decreased aspH_i increased, whereas forHCMV-infected cells, efflux increased aspH_i increased. All these resultsare consistent with an HCMV-induced enhancement ofCl/HCO₃exchanger activity.

     

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.     

Modulation of K+ channels by arachidonic acid in T84 cells. II. Activation of a Ca2+-independent K+ channel

We usedsingle-channel recording techniques to identify and characterize alarge-conductance,Ca²⁺-independentK⁺ channel in the colonicsecretory cell line T84. In symmetric potassium gluconate, this channelhad a linear current-voltage relationship with a single-channelconductance of 161 pS. Channel open probability(P_o) wasincreased at depolarizing potentials. Partial substitution of bathK⁺ withNa⁺ indicated a permeability ratioof K⁺ toNa⁺ of 25:1. ChannelP_o was reduced byextracellular Ba²⁺. Event-durationanalysis suggested a linear kinetic model for channel gating having asingle open state and three closed states: C₃C₂C₁O.Arachidonic acid (AA) increased theP_o of thechannel, with an apparent stimulatory constant(K_s)of 1.39 µM. Neither channel open time (O) nor the fast closed time(C₁) was affected by AA. Incontrast, AA dramatically reduced mean closed time by decreasing bothC₃ andC₂. Thecis-unsaturated fatty acid linoleate increased P_oalso, whereas the saturated fatty acid myristate and thetrans-unsaturated fatty acid elaidatedid not affectP_o. This channelis activated also by negative pressure applied to the pipette duringinside-out recording. Thus we determined the effect of thestretch-activated channel blockers amiloride and Gd³⁺ on theK⁺ channel after activation by AA.Amiloride (2 mM) on the extracellular side reduced single-channelamplitude in a voltage-dependent manner, whereasGd³⁺ (100 µM) had no effect onchannel activity. Activation of this K⁺ channel may be important duringstimulation of Cl secretionby agonists that use AA as a second messenger (e.g., vasoactiveintestinal polypeptide, adenosine) or during the volume regulatoryresponse to cell swelling.

     

AVP V1 receptor-mediated decrease in Cl- efflux and increase in dark cell number in choroid plexus epithelium

The cerebrospinalfluid (CSF)-generating choroid plexus (CP) has manyV₁ binding sites for argininevasopressin (AVP). AVP decreases CSF formation rate and choroidal bloodflow, but little is known about how AVP alters ion transport across theblood-CSF barrier. Adult rat lateral ventricle CP was loaded with³⁶Cl,exposed to AVP for 20 min, and then placed in isotope-free artificial CSF to measure release of³⁶Cl.Effect of AVP at 10¹² to10⁷ M on theCl efflux rate coefficient(in s¹) was quantified.Maximal inhibition (by 20%) ofCl extrusion at10⁹ M AVP was prevented bythe V₁ receptor antagonist[-mercapto-,-cyclopentamethyleneproprionyl¹,O-Me-Tyr²,Arg⁸]vasopressin.AVP also increased by more than twofold the number of dark and possiblydehydrated but otherwise morphologically normal choroid epithelialcells in adult CP. The V₁ receptorantagonist prevented this AVP-induced increment in dark cell frequency.In infant rats (1 wk) with incomplete CSF secretory ability,10⁹ M AVP altered neitherCl efflux nor dark cellfrequency. The ability of AVP to elicit functional and structuralchanges in adult, but not infant, CP epithelium is discussed in regardto ion transport, CSF secretion, intracranial pressure, and hydrocephalus.

     

Potentiation of nitric oxide-induced apoptosis in p53-/- vascular smooth muscle cells

The functionalrole of p53 in nitric oxide (NO)-mediated vascular smooth muscle cell(VSMC) apoptosis remains unknown. In this study, VSMC fromp53^/ and p53^+/+ murine aortas were exposedto exogenous or endogenous sources of NO. Unexpectedly,p53^/ VSMC were much more sensitive to theproapoptotic effects of NO than were p53^+/+ VSMC.Furthermore, this paradox appeared to be specific to NO, because otherproapoptotic agents did not demonstrate this differential effect onp53^/ cells. NO-induced apoptosis inp53^/ VSMC occurred independently of cGMP generation.However, mitogen-activated protein kinase (MAPK) pathways appeared toplay a significant role. Treatment of the p53^/ VSMCwith S-nitroso-N-acetylpenicillamine resulted ina marked activation of p38 MAPK and, to a lesser extent, of c-JunNH₂-terminal kinase, mitogen-activated protein kinasekinase (MEK) 1/2, and p42/44 (extracellular signal-regulated kinase,ERK). Furthermore, basal activity of the MEK-p42/44 (ERK)pathway was increased in the p53^+/+ VSMC. Inhibition of p38MAPK with SB-203580 or of MEK1/2 with PD-98059 blocked NO-inducedapoptosis. Therefore, p53 may protect VSMC against NO-mediatedapoptosis, in part, through differential regulation of MAPK pathways.

     

PGE(2), Ca(2+), and cAMP mediate ATP activation of Cl(-) channels in pigmented ciliary epithelial cells

Purines regulate intraocular pressure. Adenosine activatesCl channels of nonpigmented ciliary epithelial cellsfacing the aqueous humor, enhancing secretion. Tamoxifen and ATPsynergistically activate Cl channels of pigmented ciliaryepithelial (PE) cells facing the stroma, potentially reducing netsecretion. The actions of nucleotides alone on Cl channelactivity of bovine PE cells were studied by electronic cell sorting,patch clamping, and luciferin/luciferase ATP assay. Clchannels were activated by ATP > UTP, ADP, and UDP, but not by 2-methylthio-ATP, all at 100 µM. UTP triggered ATP release. The second messengers Ca²⁺, prostaglandin (PG)E₂,and cAMP activated Cl channels without enhancing effectsof 100 µM ATP. Buffering intracellular Ca²⁺activity with1,2-bis(2-aminophenoxy)ethane-N,N,N',N'- tetraacetic acidor blocking PGE₂ formation with indomethacininhibited ATP-triggered channel activation. The Rp stereoisomerof 8-bromoadenosine 3',5'-cyclic monophosphothioate inhibited proteinkinase A activity but mimicked 8-bromoadenosine 3',5'-cyclicmonophosphate. We conclude that nucleotides can act at >1 P2Yreceptor to trigger a sequential cascade involving Ca²⁺,PGE₂, and cAMP. cAMP acts directly on Clchannels of PE cells, increasing stromal release and potentially reducing net aqueous humor formation and intraocular pressure.

     

ANG II controls Na+-K+(NH+4)-2Cl- cotransport via 20-HETE and PKC in medullary thick ascending limb

Cell pH was monitored in medullary thick ascending limbs todetermine effects of ANG II onNa⁺-K⁺(NH⁺₄)-2Clcotransport. ANG II at 10¹⁶to 10¹² M inhibited30-50% (P < 0.005),but higher ANG II concentrations were stimulatory compared with the10¹² M ANG II levelcotransport activity; eventually,10⁶ M ANG II stimulated34% cotransport activity (P < 0.003). Inhibition by 10¹²M ANG II was abolished by phospholipase C (PLC), diacylglycerol lipase,or cytochrome P-450-dependentmonooxygenase blockade; 10¹² M ANG II had no effectadditive to inhibition by 20-hydroxyeicosatetranoic acid (20-HETE).Stimulation by 10⁶ M ANG IIwas abolished by PLC and protein kinase C (PKC) blockade and waspartially suppressed when the rise in cytosolicCa²⁺ was prevented. All ANG IIeffects were abolished by DUP-753 (losartan) but not by PD-123319. Thus10¹² M ANG II inhibitsvia 20-HETE, whereas 5 × 10¹¹ M ANG II stimulatesvia PKCNa⁺-K⁺(NH⁺₄)-2Clcotransport; all ANG II effects involveAT₁ receptors and PLC activation.

     

Regulation of ATP-sensitive K(+) channels by protein kinase C in murine colonic myocytes

We investigated the regulation ofATP-sensitive K⁺ (K_ATP) currents in murinecolonic myocytes with patch-clamp techniques. Pinacidil(10⁵ M) activated inward currents in the presence of highexternal K⁺ (90 mM) at a holding potential of 80 mV indialyzed cells. Glibenclamide (10⁵ M) suppressedpinacidil-activated current. Phorbol 12,13-dibutyrate (PDBu; 2 × 10⁷ M) inhibited pinacidil-activated current.4--Phorbol ester (5 × 10⁷ M), an inactive formof PDBu, had no effect on pinacidil-activated current. In cell-attachedpatches, the open probability of K_ATP channels wasincreased by pinacidil, and PDBu suppressed openings ofK_ATP channels. When cells were pretreated withchelerythrine (10⁶ M) or calphostin C (10⁷M), inhibition of the pinacidil-activated whole cell currents by PDBuwas significantly reduced. In cells studied with the perforated patchtechnique, PDBu also inhibited pinacidil-activated current, and thisinhibition was reduced by chelerythrine (10⁶ M).Acetylcholine (ACh; 10⁵ M) inhibited pinacidil-activatedcurrents, and preincubation of cells with calphostin C(10⁷ M) decreased the effect of ACh. Cells dialyzed withprotein kinase C -isoform (PKC) antibody had normal responses topinacidil, but the effects of PDBu and ACh on K_ATP wereblocked in these cells. Immunofluorescence and Western blots showedexpression of PKC in intact muscles and isolated smooth muscle cellsof the murine proximal colon. These data suggest that PKC regulates K_ATP in colonic muscle cells and that the effects of ACh onK_ATP are largely mediated by PKC. PKC appears to be themajor isozyme that regulates K_ATP in murine colonic myocytes.

     

Functional and molecular characterization of an anion exchanger in airway serous epithelial cells

Serous cells secreteCl and HCO₃ and play an importantrole in airway function. Recent studies suggest that aCl/HCO₃ anion exchanger (AE) maycontribute to Cl secretion by airway epithelial cells.However, the molecular identity, the cellular location, and thecontribution of AEs to Cl secretion in serous epithelialcells in tracheal submucosal glands are unknown. The goal of thepresent study was to determine the molecular identity, the cellularlocation, and the role of AEs in the function of serous epithelialcells. To this end, Calu-3 cells, a human airway cell line with aserous-cell phenotype, were studied by RT-PCR, immunoblot, andelectrophysiological analysis to examine the role of AEs inCl secretion. In addition, the subcellular location of AEproteins was examined by immunofluorescence microscopy. Calu-3 cellsexpressed mRNA and protein for AE2 as determined by RT-PCR and Westernblot analysis, respectively. Immunofluorescence microscopy identified AE2 in the basolateral membrane of Calu-3 cells in culture and rattracheal serous cells in situ. InCl/HCO₃/Na⁺-containingmedia, the 8-(4-chlorophenylthio)adenosine 3',5'-cyclic monophosphate(CPT-cAMP)-stimulated short-circuit anion current (I_sc) was reduced by basolateral but not byapical application of 4,4'-diisothiocyanostilbene-2,2'-disulfonic acid(50 µM) and 4,4'-dinitrostilbene-2,2'-disulfonic acid [DNDS (500 µM)], inhibitors of AEs. In the absence of Na⁺ in thebath solutions, to eliminate the contributions of the Na⁺/HCO₃ andNa⁺/K⁺/2Cl cotransporters toI_sc, CPT-cAMP stimulated a small DNDS-sensitive I_sc. Taken together with previous studies, theseobservations suggest that a small component of cAMP-stimulatedI_sc across serous cells may be referable toCl secretion and that uptake of Cl acrossthe basolateral membrane may be mediated by AE2.

     

Arachidonic acid mediates dual effect of TNF-alpha on Ca2+ transients and contraction of adult rat cardiomyocytes

Tumor necrosisfactor (TNF)- has a biphasic effect on heart contractility andstimulates phospholipase A₂ (PLA₂) incardiomyocytes. Because arachidonic acid (AA) exerts a dual effect onintracellular Ca²⁺ concentration([Ca²⁺]_i) transients, we investigated thepossible role of AA as a mediator of TNF- on[Ca²⁺]_i transients and contraction withelectrically stimulated adult rat cardiac myocytes. At a lowconcentration (10 ng/ml) TNF- produced a 40% increase in theamplitude of both [Ca²⁺]_i transients andcontraction within 40 min. At a high concentration (50 ng/ml) TNF-evoked a biphasic effect comprising an initial positive effect peakingat 5 min, followed by a sustained negative effect leading to50-40% decreases in [Ca²⁺]_i transientsand contraction after 30 min. Both the positive and negative effects ofTNF- were reproduced by AA and blocked by arachidonyltrifluoromethylketone (AACOCF3), an inhibitor of cytosolic PLA₂.Lipoxygenase and cyclooxygenase inhibitors reproduced the high-doseeffects of TNF- and AA. The negative effects of TNF- and AA werealso reproduced by sphingosine and were abrogated by the ceramidaseinhibitor n-oleoylethanolamine. These results point out thekey role of the cytosolic PLA₂/AA pathway in mediating thecontractile effects of TNF-.