THEJOURNALOFBIOLOGICALCHEMISTRYVOL.284,NO.1,pp.619–629,January2,2009 ©2009byTheAmericanSocietyforBiochemistryandMolecularBiology,Inc. PrintedintheU.S.A. (cid:1) (cid:2) Functional Association between K -Cl Cotransporter-4 and (cid:1) (cid:1) H ,K -ATPase in the Apical Canalicular Membrane of Gastric Parietal Cells*□S Receivedforpublication,August25,2008,andinrevisedform,October15,2008 Published,JBCPapersinPress,November4,2008,DOI10.1074/jbc.M806562200 TakutoFujii‡,YujiTakahashi‡,AkiraIkari§,MagotoshiMorii¶,YoshiakiTabuchi(cid:1),KazuhiroTsukada**, NoriakiTakeguchi‡,andHidekiSakai‡1 FromtheDepartmentsof‡PharmaceuticalPhysiologyand**SurgeryII,GraduateSchoolofMedicineandPharmaceutical Sciences,andthe(cid:1)LifeScienceResearchCenter,UniversityofToyama,Toyama930-0194,Japan,the§Departmentof Pharmaco-Biochemistry,UniversityofShizuoka,Shizuoka422-8526,Japan,andthe¶LaboratoryofPhysicalScience, FacultyofPharmaceuticalSciences,SuzukaUniversityofMedicalScience,Mie513-8670,Japan We studied whether K(cid:1)-Cl(cid:2) cotransporters (KCCs) are H(cid:1) secretion, coupled with K(cid:1) uptake, is mediated by the involved in gastric HCl secretion. We found that KCC4 is gastricprotonpump(H(cid:1),K(cid:1)-ATPase).K(cid:1)recyclingacrossthe expressed in the gastric parietal cells more abundantly at the luminal membrane is necessary to sustain H(cid:1),K(cid:1)-ATPase luminalregionoftheglandthanatthebasalregion.KCC4was activityingastricparietalcells.HeteromericKCNQ1/KCNE2 foundinthestimulation-associatedvesicles(SAV)derivedfrom channels(1,2)andtheKir4.1channel(3,4)havebeenpostu- the apical canalicular membrane but not in the intracellular latedascandidatesforthisK(cid:1)transport.Cl(cid:2)effluxacrossthe tubulovesicles,whereasH(cid:1),K(cid:1)-ATPasewasexpressedinboth luminal membrane is also necessary for gastric acid (HCl) ofthem.Incontrast,KCC1,KCC2,andKCC3werenotfoundin secretion.CFTR2(5),CLIC-6(6,7),andSLC26A9(8)havebeen either SAV or tubulovesicles. KCC4 coimmunoprecipitated postulatedascandidatesforthisCl(cid:2)transport. with H(cid:1),K(cid:1)-ATPase in the lysate of SAV. Interestingly the IthasbeenassumedthatCl(cid:2)movespassivelydownitselec- MgATP-dependent uptake of 36Cl(cid:2) into the SAV was sup- trochemical gradient through apical channels. Although the pressedbyeithertheH(cid:1),K(cid:1)-ATPaseinhibitor(SCH28080)or intracellularCl(cid:2)concentrationoftheparietalcellhasnotbeen the KCC inhibitor ((R)-((cid:1))-[(2-n-butyl-6,7-dichloro-2-cyclo- reported, it is speculated to be much lower than that of the pentyl-2,3-dihydro-1-oxo-1H-inden-5-yl)oxy]acetic acid). The luminalsecretedHCl(160mM).Thus,Cl(cid:2)transportthrough KCC inhibitor suppressed the H(cid:1) uptake into SAV and the Cl(cid:2)channelswouldrequirealargeelectricalpotentialdiffer- H(cid:1),K(cid:1)-ATPaseactivityofSAV,buttheinhibitorhadnoeffects enceacrosstheapicalmembrane(e.g.60mV,insidenegative ontheseactivitiesinthefreeze-driedleakySAV.Theseresults againsttheluminalside).Buttodatethereportsofthiselectri- indicatethattheK(cid:1)-Cl(cid:2)cotransportbyKCC4istightlycoupled calpotentialdifferenceshavebeenlow,suchas20–25mV(9), withH(cid:1)/K(cid:1)antiportbyH(cid:1),K(cid:1)-ATPase,resultinginHClaccu- hintingthattheCl(cid:2)secretorymechanismmaybemorecom- mulationinSAV.Inthetetracycline-regulatedexpressionsys- plexthanpreviouslyassumed. tem of KCC4 in the HEK293 cells stably expressing gastric Electroneutral K(cid:1)-Cl(cid:2) cotransporters (KCCs) belong to a H(cid:1),K(cid:1)-ATPase, KCC4 was coimmunoprecipitated with cation-chloridecotransportergenefamily(SLC12).KCCscon- H(cid:1),K(cid:1)-ATPase.TherateofrecoveryofintracellularpHinthe tributetotransepithelialtransportandtotheregulationofcell KCC4-expressing cells after acid loading through an ammo- volume (10–12). At least four KCC isoforms (KCC1–KCC4) niumpulsewassignificantlyfasterthanthatintheKCC4-non- havebeenidentifiedtodate.KCC3hasthreesplicingvariants: expressing cells. Our results suggest that KCC4 and H(cid:1),K(cid:1)- KCC3a–KCC3c. KCC1 is widely expressed, whereas KCC2 is ATPasearethemainmachineriesforbasalHClsecretioninthe restrictedtoneurons.KCC3aandKCC4aremainlyexpressed apical canalicular membrane of the resting parietal cell. They inepithelial-typecells(13,14).RecentlywefoundthatKCC3ais alsomaycontributeinparttomassiveacidsecretioninthestim- expressedinthebasolateralmembraneofgastricparietalcells ulatedstate. locatedattheluminalregionofgastricglandsandcoimmuno- precipitatedwithNa(cid:1),K(cid:1)-ATPase(15).Exogenousexpression *ThisworkwassupportedinpartbyGrants-in-aidforScientificResearch of KCC3a in LLC-PK1 cells up-regulates Na(cid:1),K(cid:1)-ATPase 15390062and18390064(toH.S.)andforJSPSFellows20010617(toT.F.) fromtheJapanSocietyforthePromotionofScienceandGrants-in-aidfor activityinlipidrafts(15). ScientificResearch16657042,18059012,and20056010(toH.S.)fromthe MinistryofEducation,Culture,Sports,ScienceandTechnologyofJapan. Thecostsofpublicationofthisarticleweredefrayedinpartbythepay- ment of page charges. This article must therefore be hereby marked 2Theabbreviations used are: CFTR, cystic fibrosis transmembrane con- “advertisement”inaccordancewith18U.S.C.Section1734solelytoindi- ductance regulator; KCC, K(cid:1)-Cl(cid:2) cotransporter; AQP, aquaporin; catethisfact. SCH28080, 2-methyl-8-(phenylmethoxy)imidazo[1,2-a]pyridine-3-ace- □S Theon-lineversionofthisarticle(availableathttp://www.jbc.org)contains tonitrile;DIOA,(R)-((cid:1))-[(2-n-butyl-6,7-dichloro-2-cyclopentyl-2,3-dihy- supplementalFigs.1–5. dro-1-oxo-1H-inden-5-yl)oxy]acetic acid; BCECF, 2(cid:3),7(cid:3)-bis(carboxy- 1Towhomcorrespondenceshouldbeaddressed:Dept.ofPharmaceutical ethyl)-5(6)-carboxyfluorescein; BCECF-AM, acetoxymethyl ester of Physiology,GraduateSchoolofMedicineandPharmaceuticalSciences, BCECF;SAV,stimulation-associatedvesicles;TV,tubulovesicles;Tet,tet- UniversityofToyama,2630Sugitani,Toyama930-0194,Japan.Tel.:81-76- racycline;PIPES,1,4-piperazinediethanesulfonicacid;pH,intracellular 434-7575;Fax:81-76-434-5051;E-mail:[email protected]. pH;(cid:1)1NaK,Na(cid:1),K(cid:1)-ATPase(cid:1)1subunit. i JANUARY2,2009•VOLUME284•NUMBER1 JOURNALOFBIOLOGICALCHEMISTRY 619 This is an Open Access article under the CC BY license. (cid:1) (cid:1) KCC4AssociationwithH ,K -ATPaseinGastricParietalCells IfKCCsarepresentintheluminalmembraneofgastricpari- IsolationofGastricTissuesandCells—Mice,rats,andrabbits etal cells, they may be involved in the electroneutral cotrans- were humanely killed in accordance with the guidelines pre- portofK(cid:1)-Cl(cid:2),whichwouldbedrivenbytheelectrochemical sentedbytheAnimalCareandUseCommitteeoftheUniver- gradient for K(cid:1) across the luminal membrane established by sityofToyama,andtheirgastricmucosaewereisolatedfrom theH(cid:1),K(cid:1)-ATPase(averylowluminalK(cid:1)concentration)and thestomachs.Thecellsuspensionrichinparietalcellswaspre- Na(cid:1),K(cid:1)-ATPase(averyhighintracellularK(cid:1)concentration). paredfromisolatedrabbitgastricmucosaasdescribedprevi- So far, there have been no reports describing the presence of ously(17).Hoggastricmucosawaspreparedfromthestomach anyKCCsintheluminalmembrane.Inthepresentstudy,we obtainedfromToyamameatcenter(Toyama,Japan).Human found that KCC4 is predominantly expressed and associated gastric mucosa was obtained from surgical resection of Japa- withH(cid:1),K(cid:1)-ATPaseintheapicalcanalicularmembraneofgas- nese patients at Toyama University Hospital in accordance tricparietalcellsandthatKCC4isanimportantmoleculefor withtherecommendationsoftheDeclarationofHelsinkiand maintaining H(cid:1),K(cid:1)-ATPase activity in the canalicular with ethics committee approval. All of the patients gave membrane. informedconsent. PreparationofHogGastricVesicles(Stimulation-associated EXPERIMENTALPROCEDURES Vesicles(SAV)andTubulovesicles(TV))—Twokindsofgastric vesicles(heavyandlightvesicles)werepreparedsimultaneously Materials—Anti-human KCC4 rabbit polyclonal antibody from hog gastric mucosa as described previously (18). Briefly wasgeneratedwithkeyholelimpethemocyanin-coupledpep- thefundicregionofthemucosawasscrapedandhomogenized tidesagainst16aminoacidscorrespondingtotheN-terminal in250mMsucrose,1mMEGTA,and5mMTris-HCl(pH7.4). sequence of KCC4 (DEESRRREAKAPRMGC). This antigen Thesuspensionwascentrifugedat1,000(cid:4)gfor10min,andthe peptidehasnohomologywiththesequencesofKCC1,-2,and supernatantwasfurthercentrifugedat13,500(cid:4)gfor30min. -3.Anti-mouseKCC4rabbitpolyclonalantibodywasobtained Thepellet,resuspendedinthebuffersolution,wasappliedto from Alpha Diagnostic (San Antonio, TX). To check the the top of a 7% Ficoll shelf on a 12% Ficoll step gradient and expressionofKCCsotherthanKCC4,anti-humanKCC1goat centrifuged in an RPV-50T rotor (Hitachi Koki Co., Tokyo, polyclonal antibody (Santa Cruz Biotechnology, Santa Cruz, Japan)at132,000(cid:4)gfor1h.Heavyvesicleswerecollectedfrom CA), anti-rat KCC2 rabbit polyclonal antibody (Upstate Bio- theinterfacebetweenthe7and12%Ficolllayers,andtheywere technology,LakePlacid,NY),andanti-ratKCC3rabbitpoly- clonalantibody(15)wereused.ExpressionofgastricH(cid:1),K(cid:1)- wsaamshpeledwwaitshc2en50trimfuMgesducarto1s2e0t,o00r0em(cid:4)ovgeinthaenFSicWol4l.1TThienrotthoer ATPase was checked by using anti-mouse H(cid:1),K(cid:1)-ATPase (Beckman)for20hlayingonadiscontinuoussucrosegradient (cid:1)-subunitmousemonoclonalantibody(1H9)(Medical&Bio- (10,20,30,and50%sucrose),and10fractionsof1mleachwere logical Laboratories Co., Nagoya, Japan), anti-mouse H(cid:1),K(cid:1)- collectedfromthetopofthegradient.Fraction5wasusedas ATPase(cid:2)-subunitmousemonoclonalantibody(2B6)(Medical the SAV that contained the apical canalicular membranes of & Biological Laboratories Co.), and anti-hog H(cid:1),K(cid:1)-ATPase parietal cells (rich in H(cid:1),K(cid:1)-ATPase and least contaminated (cid:1)-subunitrabbitpolyclonalantibody(Ab1024)(16).Anti-rab- with Na(cid:1),K(cid:1)-ATPase) (supplemental Fig. 1). On the other bit Na(cid:1),K(cid:1)-ATPase (cid:1)1 subunit mouse monoclonal antibody hand,thesupernatantafter13,500(cid:4)gcentrifugationwascen- wasobtainedfromUpstateBiotechnology.Anti-humanaqua- trifuged at 100,000 (cid:4) g for 30 min. The samples were then porin-4 (AQP4) goat polyclonal antibody, anti-rabbit ezrin applied to a 250 mM sucrose and 7% Ficoll step gradient and mouse monoclonal antibody, anti-human Rab11 goat poly- centrifugedat132,000(cid:4)gfor1h.Light(microsomal)vesicles clonalantibody,andanti-ratsyntaxin-1mousemonoclonal werecollectedfromtheinterfacebetweenthe250mMsucrose antibody were obtained from Santa Cruz Biotechnology. and7%Ficolllayers,andthesamplewasusedastheTVthat Anti-His tag mouse monoclonal antibody (2D8) was from containedtheintracellularmicrosomalmembranesofparietal Medical & Biological Laboratories Co. Anti-(cid:2)-actin mouse cells.Allprocedureswerecarriedoutat4°C.Whenindicated, monoclonal antibody, 2-methyl-8-(phenylmethoxy)imi- freeze-dried SAV and TV were prepared by lyophilization, dazo[1,2-a]pyridine-3-acetonitrile (SCH28080), and (R)- whichincreasedleakinessofthevesicularmembranes. ((cid:1))-[(2-n-butyl-6,7-dichloro-2-cyclopentyl-2,3-dihydro-1- NorthernBlotting—Poly(A)(cid:1)RNAofthecellswasprepared oxo-1H-inden-5-yl)oxy]acetic acid (DIOA) were from by using PolyATtract mRNA isolation system II (Promega, Sigma-Aldrich.Lipofectamine2000,anti-Xpressmousemono- Madison,WI),and2.5(cid:3)gofitwasseparatedona1%agarose, clonal antibody, Alexa Fluor 546-conjugated anti-mouse and formaldehyde gel and transferred onto a nylon membrane anti-goatIgGantibodies,andAlexaFluor488-conjugatedanti- (Zeta-probeGT,Bio-Rad).Northernblottingwasperformedas rabbit IgG antibody were from Invitrogen. Protein A-agarose described previously (15) using the 32P-labeled rabbit KCC4 beads were from Pierce. Na36Cl and ACS II scintillant were probethatis713bplongandcorrespondstonucleotides682– obtained from GE Healthcare. 86RbCl was from PerkinElmer 1394oftheKCC4cDNA. Life Sciences. Hygromycin B and acridine orange were from Western Blotting—Preparation of membrane fractions and Wako Pure Chemical Industries (Osaka, Japan). Blasticidin S Westernblottingwerecarriedoutasdescribedpreviously(19). was from Kaken Pharmaceutical Co. (Tokyo, Japan). 2(cid:3),7(cid:3)- The signals were visualized with the ECL Plus system (GE Bis(carboxyethyl)-5(6)-carboxyfluorescein (BCECF) and ace- Healthcare).Toquantifythechemiluminescencesignalsonthe toxymethylesterofBCECF(BCECF-AM)werefromDojindo membranes,aFujiFilmLAS-1000systemandMultiGaugesoft- Laboratories(Kumamoto,Japan). warewereused.Anti-H(cid:1),K(cid:1)-ATPaseantibodieswereusedat 620 JOURNALOFBIOLOGICALCHEMISTRY VOLUME284•NUMBER1•JANUARY2,2009 (cid:1) (cid:1) KCC4AssociationwithH ,K -ATPaseinGastricParietalCells 1:5,000 (1H9 and 2B6) or 1:4,000 dilution (Ab1024). Anti- KCl, 4 mM MgSO , 250 mM sucrose, 2 mM ATP, 5 (cid:3)Ci/ml 4 KCC1, anti-KCC2, anti-KCC3, anti-KCC4, and anti-(cid:2)-actin Na36Cl,and40mMPIPES-Tris(pH6.8)for5minat25°C.The antibodieswereusedat1:1,000dilution.Anti-Na(cid:1),K(cid:1)-ATPase reaction mixtures were rapidly filtered through a 0.45-(cid:3)m (cid:1)1subunitantibodywasusedat1:10,000dilution.Anti-Xpress HAWPfilter(MilliporeCo.,Bedford,MA).Tocalibratenon- antibodywasusedat1:5,000dilution.Anti-ezrinandanti-syn- specific binding of Na36Cl to the vesicles and the filter, the taxin-1antibodieswereusedat1:500dilution.Anti-Rab11anti- experiment was performed in the absence of ATP. The filter body was used at 1:200 dilution. For the negative control, 1 was washed with solution containing 150 mM KCl, 250 mM volumeofeachprimaryantibodywaspreincubatedwith5vol- sucrose,and40mMPIPES-Tris(pH6.8);transferredtoacount- umesofthecorrespondingblockingpeptide.Horseradishper- ingvial;andsolubilizedwith5mlofACSIIscintillant.Thenthe oxidase-conjugated anti-mouse, anti-rabbit, or anti-goat IgG radioactivityof36Cl(cid:2)wascountered. wasusedasasecondaryantibody(1:2,500dilution). Measurement of H(cid:1) Uptake into SAV and TV—H(cid:1) uptake Immunohistochemistry—The gastric mucosa isolated from intohoggastricvesicleswasassessedbymeasuringthequench- ratstomachwasembeddedintheoptimumcuttingtempera- ing of acridine orange fluorescence (20). The reaction was turecompound(SakuraFinetechnicalCo.,Tokyo,Japan)and startedbyadditionofATP(350(cid:3)M)tothemixturecontaining wascutat8(cid:3)m.Thesectionswerefixedinice-coldmethanol SAV(20(cid:3)g/ml)orTV(5(cid:3)g/ml),150mMKCl,2mMMgCl ,5 2 for7minatroomtemperatureandwerepretreatedwith1.5% (cid:3)Macridineorange,10(cid:3)g/mlvalinomycin,and20mMPIPES- bovine serum albumin for 1 h atroom temperature to block NaOH(pH7.4).Intheexperimentstotestanionselectivity,150 nonspecificbindingofantibody.Thenthesectionswereincu- mMKClwasreplacedwith150mMKX(X(cid:5)Br,I,H PO ,or 2 4 batedwithanti-mouseKCC4,anti-H(cid:1),K(cid:1)-ATPase(1H9),anti- gluconate). When indicated, SCH28080 (20 (cid:3)M), a specific Na(cid:1),K(cid:1)-ATPase (cid:1)1 subunit, or anti-AQP4 antibody (1:100 inhibitorofH(cid:1),K(cid:1)-ATPase,orDIOA(10(cid:3)M),aninhibitorof dilution) overnight at 4°C. Alexa Fluor 488-conjugated and KCCs,wasadded.Fluorescenceofacridineorangewasmeas- Alexa Fluor 546-conjugated anti-IgG antibodies (1:100 dilu- uredinaShimadzuRF-5000spectrofluorometerat25°C(exci- tion)wereusedassecondaryantibodies.Immunofluorescence tation, 495 nm; emission; 530 nm). The H(cid:1) uptake was images were visualized using a Zeiss LSM 510 laser scanning expressedaschangeoffluorescenceintensityfrom0to3min confocalmicroscope. afteradditionofATP. Immunocytochemistry—HEK293 cells were fixed with ice- Measurement of H(cid:1),K(cid:1)-ATPase Activity—H(cid:1),K(cid:1)-ATPase coldmethanolfor7minatroomtemperatureandpermeabi- activitiesofSAVandTVweremeasuredinapyruvatekinase- lized with phosphate-buffered saline containing 0.3% Triton lactatedehydrogenase-linkedsystemwherehydrolysisofATP X-100and0.1%bovineserumalbuminfor15minatroomtem- iscoupledwithoxidationofNADH(21).Thereactionmixture perature.Nonspecificbindingwasblockedby3%bovineserum containedTV(10(cid:3)g/ml)orSAV(40(cid:3)g/ml),150mMKCl,3mM albumin.Thepermeabilizedcellswereincubatedwiththeanti- MgSO ,200(cid:3)MNADH,1mMATP,0.8mMphosphoenolpyru- 4 mouse KCC4 or anti-H(cid:1),K(cid:1)-ATPase (1H9) antibody (1:100 vate,11IU/mllactatedehydrogenase,4IU/mlpyruvatekinase, dilution)overnightat4°CandthenwiththeAlexaFluor488- 10(cid:3)g/mlvalinomycin,and5mMPIPES-NaOH(pH7.4)inthe conjugatedandAlexaFluor546-conjugatedanti-IgGantibod- presenceorabsenceof10(cid:3)MSCH28080.Intheexperimentsto ies(1:100dilution)for1hatroomtemperature.Immunofluo- testanionselectivity,150mMKClwasreplacedwith150mM rescence images were visualized using a Zeiss LSM 510 laser KX(X(cid:5)Br,I,H PO ,orgluconate).Whenindicated,DIOA(10 2 4 scanningconfocalmicroscope. (cid:3)M) was added. The decrease in the amount of NADH was Immunoprecipitation—MembranefractionsofSAV(100(cid:3)g measured by a Beckman spectrophotometer in a dual wave- ofprotein)andtheHEK293cellsstablyexpressingbothKCC4 lengthmodeat340and500nmat25°C. andH(cid:1),K(cid:1)-ATPase(2mgofprotein)weresolubilizedinlysis H(cid:1),K(cid:1)-ATPase activities of freeze-dried vesicles prepared buffer (phosphate-buffered saline containing 0.5% Triton fromTVandSAV(10(cid:3)gofprotein)andthemembranefrac- X-100, 0.1% bovine serum albumin, and 1 mM EDTA) for 30 tionofHEK293cells(30(cid:3)gofprotein)weremeasuredina1-ml minoniceandcentrifugedat90,000(cid:4)gfor30minat4°C.The solutioncontaining15mMKCl,3mMMgSO ,1mMATP,5mM 4 lysate was precleared with protein A-agarose beads, and the NaN ,2mMouabain,and40mMTris-HCl(pH6.8)inthepres- 3 supernatantwasincubatedinthepresenceandabsenceofanti- enceorabsenceof50(cid:3)MSCH28080.Afterincubationfor10 KCC4antibody(1:50dilution)oranti-Histagantibody(1:100 min(freeze-driedvesicles)or30min(HEK293cells)at37°C, dilution)for12hat4°Cwithend-over-endrotation.Antibody- the reaction was terminated by addition of the ice-cold stop antigen complexes were incubated with protein A-agarose solutioncontaining12%perchloricacidand3.6%ammonium beadsandincubatedfor4hat4°Cwithend-over-endrotation. molybdate, and the inorganic phosphate released was meas- Thenthebeadswerewashedthreetimeswiththelysisbuffer ured(22). andsuspendedinSDSsamplebuffer.Thesampleswereused Measurement of 86Rb(cid:1) Uptake into SAV—SAV (200 (cid:3)g of forWesternblottingtochecktheexpressionofKCC4,H(cid:1),K(cid:1)- protein)wereaddedtothesolutioncontaining150mMKX(X(cid:5) ATPase(cid:1)-subunit,or(cid:2)-actin. Cl, Br, H PO , or gluconate), 3 mM MgSO , 1 mM ATP, 20 2 4 4 Measurementof36Cl(cid:2)UptakeintoHogGastricVesicles(SAV (cid:3)Ci/ml86RbCl,and5mMPIPES-Tris(pH7.4)andincubated and TV)—SAV or TV (100 (cid:3)g of protein) were preincubated for10minat25°C.Thereactionmixtureswererapidlyfiltered with a solution of 150 mM KCl, 250 mM sucrose, and 40 mM througha0.45-(cid:3)mHAWPfilter.Thefilterwaswashedwitha PIPES-Tris(pH6.8)for5minor20hat4°C.Thenthevesicle solutioncontaining150mMKX(X(cid:5)Cl,Br,H PO ,orgluco- 2 4 (SAVorTV)wasincubatedwithasolutioncontaining150mM nate)and5mMPIPES-Tris(pH7.4),transferredtoacounting JANUARY2,2009•VOLUME284•NUMBER1 JOURNALOFBIOLOGICALCHEMISTRY 621 (cid:1) (cid:1) KCC4AssociationwithH ,K -ATPaseinGastricParietalCells vial,andsolubilizedwith5mlofACSIIscintillant.Thenthe radioactivityof86Rb(cid:1)wascountered. Plasmid Construction—Full-length cDNA encoding rat KCC4wasinsertedintothepcDNA4/Hisvector(Invitrogen)by using EcoRI and XbaI restriction sites (KCC4-pcDNA4/His vector).TheKCC4cDNA(withXpressepitope)cutfromthe KCC4-pcDNA4/HisvectorwasinsertedintothepcDNA5/TO vector by using AflII and XbaI restriction sites (KCC4- pcDNA5/TOvector). Tetracycline-regulated Expression System of KCC4 in HEK293 Cells Stably Expressing H(cid:1),K(cid:1)-ATPase—HEK293 cells stably expressing (cid:1)- and (cid:2)-subunits of the gastric H(cid:1),K(cid:1)-ATPase were established as described previously (23). The cells were cotransfected with the KCC4- FIGURE1.ExpressionofKCC4ingastricparietalcells.A,Northernblotting wasperformedwithpoly(A)(cid:1)RNA(2.5(cid:3)g/lane)fromisolatedrabbitgastric pcDNA5/TO and pcDNA6/TR vectors (Invitrogen) using parietalcells.A4.9-kbbandwasdetectedwiththeKCC4cDNAprobe.B,West- Lipofectamine 2000 and cultured for 24 h. The transfected ern blotting (left panels) was performed with the membrane fractions of cellswereselectedinthepresenceof400units/mlhygromy- HEK293cellstransfectedwithratKCC4(clonedKCC4)(3(cid:3)gofprotein),mouse gastricmucosa(10(cid:3)gofprotein),andratgastricmucosa(50(cid:3)gofprotein) cinBand6(cid:3)g/mlblasticidinS. wheretwosetsofthreesamples(asA-B-C-A-B-C)inamembranewereelec- MeasurementofIntracellularpH—IntracellularpH(pH)of trophoresed,andthenthemembranewascutintotwopieces,whichwere i separatelyprobedwithanti-mouseKCC4antibody(upperpanel)andwiththe theHEK293cellswasmeasuredbymonitoringthefluorescence anti-mouseKCC4antibodyplusthecorrespondingblockingpeptide(lower ofBCECFasdescribedpreviously(24,25).Thecells(1(cid:4)105 panel).Abandof165kDawasobserved(upperpanel).The165-kDabands cells), seeded on coverslips (13 (cid:4) 7 mm; Matsunami Glass, disappearedinthepresenceoftheblockingpeptide(lowerpanel).Intheright panels,WesternblottingwasperformedwiththeclonedKCC4(15(cid:3)gofpro- Osaka,Japan)coatedwithpoly-L-lysineandrattailcollagenI tein),hoggastricmucosa(100(cid:3)gofprotein),andhumangastricmucosa(100 (Invitrogen),wereculturedfor24h.Thenthecellsweretreated (cid:3)gofprotein)wheretwosetsofthreesamplesinamembranewereelectro- withorwithouttetracycline(2(cid:3)g/ml)foranadditional24h. phoresed,andthenthemembranewascutintotwopieces,whichweresep- aratelyprobedwithanti-humanKCC4antibody(upperpanel)andwiththe Expression of KCC4 was confirmed by Western blotting and anti-humanKCC4antibodyplusthecorrespondingblockingpeptide(lower immunocytochemistry. panel).Abandof165kDawasobserved(upperpanel).The165-kDabands ThecellswereincubatedwithBCECF-AM(10(cid:3)M)inbuffer disappearedinthepresenceoftheblockingpeptide(lowerpanel). containing 145 mM NaCl, 5 mM KCl, 1 mM CaCl , 1.2 mM 2 MgSO ,2mMNaH PO ,10.5mMglucose,and32mMHEPES withthe165-kDaproteininmouseandratgastricmucosaand 4 2 4 (pH7.4)for30minat37°C.Whenindicated,DIOA(10(cid:3)M)or thatanti-humanKCC4antibodyreactedwiththe165-kDapro- SCH28080(10(cid:3)M)wasadded.Thecoverslipwasplacedinthe teininhogandhumangastricmucosa(Fig.1B,upperpanels). chamber of a spectrofluorometer (RF-5000, Shimadzu) Bothantibodiesreactedwiththe165-kDabandsinthemem- equipped with a continuous buffer flow system. Intracellular branefractionofHEK293cellstransfectedwithratKCC4(Fig. BCECFwasalternatelyexcitedwith490and440nmlight,and 1B,clonedKCC4).Thespecificitiesoftheseantibodiesforthe theemittedlightwasmeasuredat520nm.Thecellswereacid- 165-kDa bands were confirmed by using the corresponding loadedbysuccessivelyincubatingintheNH /NH (cid:1)-contain- blockingpeptide(Fig.1B,lowerpanels). 3 4 ingbuffercomposedof125mMNaCl,20mMNH Cl,5mMKCl, Intheimmunohistochemistryofisolatedratgastricmucosa, 4 1mMCaCl ,1.2mMMgSO ,2mMNaH PO ,10.5mMglucose, KCC4wasfoundtobecolocalizedwithH(cid:1),K(cid:1)-ATPase,which 2 4 2 4 and32mMHEPES(pH7.4)andtheNa(cid:1)-freebuffercomposed is expressed in the intracellular tubulovesicles and the apical of145mMN-methyl-D-glucamine-Cl,5mMKCl,1mMCaCl , canalicularmembraneofparietalcells(Fig.2,A–F).Thespec- 2 1.2mMMgSO ,2mMNaH PO ,10.5mMglucose,and32mM ificity of anti-KCC4 antibody for positive staining was con- 4 2 4 HEPES(pH7.4).Whenindicated,DIOA(10(cid:3)M)orSCH28080 firmedbyusingtheblockingpeptide(Fig.2,G–I).Ontheother (10(cid:3)M)wasadded.ThetimecourseofpHirecoveryafteracid hand,thedistributionpatternofKCC4wasapparentlydifferent loadingwasmonitored. fromthatoftheNa(cid:1),K(cid:1)-ATPase(cid:1)1subunit(Fig.2,J–L).Ithas Statistics—Results are shown as means (cid:6) S.E. Differences beenreportedthatyoungerparietalcellsintheluminalregion betweengroupswereanalyzedbyone-wayanalysisofvariance, of the glands much more actively secrete acid than the older and correction for multiple comparisons was made by using parietal cells in the basal region (26–28). AQP4 has been Tukey’s multiple comparison test. Comparison between the reported to be localized in the basolateral membrane of the twogroupswasmadebyusingStudent’sttest.Statisticallysig- parietalcellsatthebasalregionofthegastricglands(29).Inter- nificantdifferenceswereassumedatp(cid:7)0.05. estingly the present double immunostaining of KCC4 and AQP4inthegastricmucosashowedthatKCC4isexpressedin RESULTS theparietalcellsmoreabundantlyattheluminalregionofthe ExpressionofKCC4inGastricParietalCells—Firstweexam- glandsthanatthebasalregion.(Fig.2,M–O). ined whether KCC4 mRNA was expressed in gastric parietal Expression of KCC4 in the SAV That Are Derived from the cells.NorthernblottingshowedsignificantexpressionofKCC4 Apical Canalicular Membranes of Gastric Parietal Cells—To mRNA((cid:8)4.9kb)inrabbitgastricparietalcells(Fig.1A).West- determinewhetherKCC4isexpressedintheintracellulartubu- ern blotting showed that anti-mouse KCC4 antibody reacted lovesiclesandtheapicalcanalicularmembraneofparietalcells, 622 JOURNALOFBIOLOGICALCHEMISTRY VOLUME284•NUMBER1•JANUARY2,2009 (cid:1) (cid:1) KCC4AssociationwithH ,K -ATPaseinGastricParietalCells FIGURE3.ExpressionofKCC4intheSAV.A,Westernblottingwasper- formedwithhogtubulovesicles(5(cid:3)gofprotein)andstimulation-associated vesicles (5 (cid:3)g of protein) with anti-H(cid:1),K(cid:1)-ATPase (cid:1)-subunit (HK(cid:1)), anti- H(cid:1),K(cid:1)-ATPase(cid:2)-subunit(HK(cid:2)),andanti-Na(cid:1),K(cid:1)-ATPase(cid:1)1subunit(NaK) antibodies.ThespecificbandsforH(cid:1),K(cid:1)-ATPase(cid:1)-subunit,H(cid:1),K(cid:1)-ATPase (cid:2)-subunit,andNa(cid:1),K(cid:1)-ATPase(cid:1)1subunitwereobservedat95,80,and100 kDa,respectively.AsapositivecontrolfordetectingNa(cid:1),K(cid:1)-ATPase(cid:1)1sub- unit,hoggastricmucosa(5(cid:3)gofprotein)wasused(mucosa).B,expressionof Rab11(27kDa),(cid:2)-actin(45kDa),ezrin(85kDa),syntaxin-1(35kDa),KCNQ1 FIGURE 2. Immunostaining for KCC4 in isolated rat gastric mucosa. (70kDa),KCNE2(60kDa),andCFTR(150kDa)inTVandSAV(30(cid:3)gofprotein). A–Cshowthesametissueunderamicroscope(asdoD–F,G–I,J–L,andM–O). C,WesternblottingwasperformedwithTV,SAV,andgastricmucosaofhogs Double immunostaining was performed with isolated rat gastric mucosa (30(cid:3)gofprotein)usinganti-humanKCC4antibody.Abandof165kDawas usinganti-mouseKCC4andanti-H(cid:1),K(cid:1)-ATPase(cid:1)-subunitantibodies(HK) observedinSAVbutnotinTV(upperpanel).The165-kDabandsdisappeared (A–I),anti-KCC4andanti-Na(cid:1),K(cid:1)-ATPase(cid:1)1subunitantibodies(NaK)(J–L), inthepresenceofthecorrespondingblockingpeptide((cid:1)BP;lowerpanel). andanti-KCC4andanti-AQP4antibodies(M–O).A–F,colocalizationofKCC4 Upperandlowerpanelswerederivedfromamembraneblottedwithtwo withH(cid:1),K(cid:1)-ATPaseisshown.IntheinsetofF,anenlargedimageofaparietal samesetsofthethreesamples.Themembranewascutintotwopiecesand cellisshown.G–I,anti-KCC4antibodywaspretreatedwiththeblockingpep- usedfortwoseparateimmunoblottingshownintheupperandlowerpanels. tide.PositiveKCC4stainingdisappeared.J–L,localizationofKCC4isdifferent D,WesternblottingwasperformedwithTV,SAV,andgastricmucosaof fromthatofNa(cid:1),K(cid:1)-ATPase.IntheinsetofL,anenlargedimageofaparietal hogs(30(cid:3)gofprotein)usingantibodiesforKCC1,KCC2,andKCC3.The cellisshown.M–O,localizationofKCC4isdifferentfromthatofAQP4.Scale 180-kDa band of KCC3 detected in the mucosa is due to KCC3a in the bars,10(cid:3)m. basolateralmembraneofthegastricparietalcell(15).Amembranefrac- tionofpigkidneyLLC-PK1cellswasusedasapositivecontrolforKCC1, andthatofhogbrainwasusedasapositivecontrolforKCC2(control).The twotypesofgastricvesicles(SAVandTV)werepreparedfrom specificbandsforKCC1,KCC2,andKCC3wereobservedat130,138,and hog gastric mucosa. H(cid:1),K(cid:1)-ATPase (cid:1)- and (cid:2)-subunits were 1d8e0tekrDgean,rteespxtercatcivtseloyf.ES,AimVm(1u0n0o(cid:3)pgreocfippitraottieoinn)(IuP)swinagsapnetrif-oKrCmCe4dawntitibhothdey highlyexpressedinbothTVandSAV(Fig.3A).Theexpression andproteinA-agaroseinthelysateofSAV(IP:KCC4,(cid:1)).Incontrolexperi- level of the Na(cid:1),K(cid:1)-ATPase (cid:1)1 subunit in TV and SAV was ments,preimmuneseruminsteadoftheantibodywasused(IP:KCC4,(cid:2)). Thedetergentextracts(input;1⁄33(forKCC4)or1⁄100(forH(cid:1),K(cid:1)-ATPase muchlowerthanthatinthegastricmucosa(Fig.3A). (cid:1)-subunit(HK(cid:1))and(cid:2)-actin)oftotalprotein)andimmunoprecipitation It has been reported that Rab11 is present in the H(cid:1),K(cid:1)- samples(IP:KCC4; 1⁄100(forKCC4)and1⁄50(forH(cid:1),K(cid:1)-ATPase(cid:1)-subunit (HK(cid:1)) and (cid:2)-actin) of the samples) were detected by Western blotting ATPase-richvesicularmembraneandrelatedtothevesicular (WB)usingantibodiesforKCC4(toppanel),H(cid:1),K(cid:1)-ATPase(cid:1)-subunit(mid- traffickingmachineryingastricparietalcells(30).(cid:2)-Actinhas dlepanel),and(cid:2)-actin(bottompanel).Topandmiddlepanelswerederived been reported to be associated with ezrin in the apical mem- fromamembraneblottedwithtwosamesetsofthethreesamples.The membranewascutintotwopiecesandusedfortwoseparateimmuno- braneofgastricparietalcells(31,32).Heretheexpressionlevel blottingshowninthetopandmiddlepanels.Theimmunoprecipitation ofRab11inTVwasmuchhigherthanthatinSAV.Incontrast, shownisrepresentativeofthreeindependentexperiments. the expression levels of (cid:2)-actin and ezrin in SAV were much JANUARY2,2009•VOLUME284•NUMBER1 JOURNALOFBIOLOGICALCHEMISTRY 623 (cid:1) (cid:1) KCC4AssociationwithH ,K -ATPaseinGastricParietalCells higherthanthoseinTV(Fig.3B).Syntaxin-1wasexpressedin both TV and SAV as reported previously (33) (Fig. 3B). KCNQ1/KCNE2 K(cid:1) channels and CFTR Cl(cid:2) channel were predominantly expressed in TV (Fig. 3B). These results con- firmedthatSAVandTVarederivedfromtheapicalcanalicular membranes and the intracellular microsomal membranes of thegastricparietalcell,respectively. InterestinglyKCC4(165kDa)waspredominantlyexpressed inSAVbutnotinTV(Fig.3C).Thespecificityoftheantibody forthe165-kDabandwasconfirmedbyusingthecorrespond- ing blocking peptide (Fig. 3C, lower panel). No significant expressionofotherKCCssuchasKCC1,KCC2,andKCC3was observedineitherTVorSAV(Fig.3D). TostudywhetherKCC4isassociatedwithH(cid:1),K(cid:1)-ATPasein SAV,immunoprecipitationwasperformedusingananti-KCC4 antibody.ThesubsequentWesternblottingoftheimmunepel- lets with an anti-H(cid:1),K(cid:1)-ATPase (cid:1)-subunit antibody gave a clearbandcorrespondingtotheH(cid:1),K(cid:1)-ATPase(cid:1)-subunit(95 kDa),whereasblottingwithananti-(cid:2)-actinantibodyasaneg- ative control gave no (cid:2)-actin band (45 kDa) (Fig. 3E). These resultssuggestthatKCC4isassociatedwithH(cid:1),K(cid:1)-ATPasein theSAV. Notethattheapparentdifferenceinaffinityoftheanti-hu- manKCC4antibodyforKCC4proteinbetweenFig.3,CandE, originated from the pretreatment of SAV with (Fig. 3E) and without (Fig. 3C) the lysis buffer. This buffer effect was con- firmedbyaseparateexperimentshowninsupplementalFig.2. InhibitionofCl(cid:2)TransportbytheH(cid:1),K(cid:1)-ATPaseInhibitor inSAV—HerewemeasuredCl(cid:2)uptakeintoTVandSAVusing 36Cl(cid:2)inasolutioncontaining150mMKCl,4mMMgSO ,250 4 mMsucrose,2mMATP,5(cid:3)Ci/mlNa36Cl,and40mMPIPES- Tris (pH 6.8). DIOA is known as a potent inhibitor of KCCs (34). Although high concentrations of DIOA suppressed H(cid:1),K(cid:1)-ATPaseactivity(IC (cid:5)75–97(cid:3)M),noinhibitoryeffect 50 ofthisdrugonH(cid:1),K(cid:1)-ATPasewasobservedatalowerconcen- tration((cid:7)20–30(cid:3)M)(35).InFig.4,DIOA(10(cid:3)M)significantly inhibitedCl(cid:2)uptakeinSAV(Fig.4B)butnotinTV(Fig.4A), reflectingthepresenceofKCC4inSAVanditsabsencefrom TV.SCH28080(10(cid:3)M),aspecificinhibitorofH(cid:1),K(cid:1)-ATPase, significantlyinhibitedCl(cid:2)uptakeinbothSAVandTV(Fig.4). IntheSAV,inhibitoryeffectsofDIOAandSCH28080werenot FIGURE4.Inhibitionof36Cl(cid:2)uptakeintoSAVbyaninhibitorofH(cid:1),K(cid:1)- significantlydifferentfromthatofDIOAplusSCH28080(Fig. ATPase(SCH28080).The36Cl(cid:2)uptakeinTV(A)andSAV(B)wasmeasuredas 4B).TheseresultssuggestthattheDIOA-sensitiveCl(cid:2)trans- describedunder“ExperimentalProcedures.”Effectsof10(cid:3)MSCH28080(gray portinSAVmaybemediatedbytheH(cid:1),K(cid:1)-ATPaseactivity. DbaIOr;A(cid:1)(ShCaHtc),h1e0d(cid:3)bMarD;(cid:1)IOSAC(Hb(cid:1)laDckIObAa)r;o(cid:1)nDtIhOeA3)6,Canl(cid:2)du1p0t(cid:3)akMeSwCHer2e80ex8a0mpilnuesd1.0T(cid:3)hMe Inhibition of H(cid:1) Transport by the KCC Inhibitor in SAV— valueobtainedintheabsenceofSCH28080andDIOA(openbar;control)is NexttheinhibitoryeffectsofDIOAonH(cid:1)uptakeintoSAVand normalizedas100%.n(cid:5)4.NS,notsignificantlydifferent(p(cid:9)0.05);**,signif- icantlydifferent(p(cid:7)0.01).Dataareshownasmeans(cid:6)S.E. TVbyH(cid:1),K(cid:1)-ATPasewerestudied.SCH28080(20(cid:3)M)mark- edlyinhibitedtheH(cid:1)uptakeinTVandSAVasexpected(Fig.5, AandB).Ontheotherhand,noH(cid:1)uptakewasobservedinthe (Fig.6B),whereasithadnosignificanteffectsinTV(Fig.6A).In freeze-driedTVandSAV(Fig.5,AandB).InterestinglyDIOA the freeze-dried leaky TV and SAV, no significant effects of (10 (cid:3)M) significantly inhibited the H(cid:1) uptake into SAV, DIOA (10 (cid:3)M) on the H(cid:1),K(cid:1)-ATPase activity were observed whereas it had no significant effect in TV (Fig. 5, C and D), (supplementalFig.3,AandB).TheseresultssuggestthatDIOA indicatingthattheinhibitionofKCC4resultedininhibitionof indirectlyinhibitsH(cid:1),K(cid:1)-ATPaseactivityviainhibitionofthe H(cid:1)uptakebyH(cid:1),K(cid:1)-ATPase. iontransportbyKCC4. InhibitionofH(cid:1),K(cid:1)-ATPaseActivitybytheKCCInhibitorin Anion Selectivity for the DIOA-sensitive H(cid:1) Transport and SAV—WestudiedwhetherDIOAaffectstheSCH28080-sensi- H(cid:1),K(cid:1)-ATPaseActivityinSAV—TostudywhethertheDIOA tive K(cid:1)-ATPase activity (H(cid:1),K(cid:1)-ATPase activity). DIOA (10 (10(cid:3)M)-sensitiveH(cid:1)transportandH(cid:1),K(cid:1)-ATPaseactivityin (cid:3)M)significantlyinhibitedtheH(cid:1),K(cid:1)-ATPaseactivityinSAV SAVdependsonthespeciesofanion,H(cid:1)transportandenzyme 624 JOURNALOFBIOLOGICALCHEMISTRY VOLUME284•NUMBER1•JANUARY2,2009 (cid:1) (cid:1) KCC4AssociationwithH ,K -ATPaseinGastricParietalCells These orders were similar to that reported for the anion selectivity for K(cid:1) transporting activity of KCC4(Cl(cid:2)(cid:9)Br(cid:2)(cid:9)PO3(cid:2)(cid:5)I(cid:2)(cid:9) 4 gluconate)(37). Anion Selectivity for the DIOA- sensitiveK(cid:1)UptakeintotheSAV— To study whether the K(cid:1) uptake into SAV by K(cid:1)-Cl(cid:2) cotransport dependsonanionspecies,wemeas- ured the DIOA (10 (cid:3)M)-sensitive 86Rb(cid:1)uptakeinsolutionsof150mM KX (where X (cid:5) Cl, Br, H PO , or 2 4 gluconate). The order of anion selectivity for 86Rb(cid:1) uptake into SAVwasCl(cid:2)(cid:9)Br(cid:2)(cid:9)PO3(cid:2)(cid:5)glu- 4 conate (Fig. 7C). This selectivity is quantitatively the same as those of the DIOA-sensitive H(cid:1) transport (Fig.7A)andH(cid:1),K(cid:1)-ATPaseactiv- ity(Fig.7B),indicatingthatproton transport by H(cid:1),K(cid:1)-ATPase de- pends on ion transport by KCC4. The SCH28080 (10 (cid:3)M)-sensitive 86Rb(cid:1)uptakeinsolutionsof150mM KX (where X (cid:5) Cl, Br, H PO , or 2 4 gluconate) was also assessed. The orderofanionselectivitywasCl(cid:2)(cid:9) Br(cid:2) (cid:9) PO3(cid:2) (cid:5) gluconate (supple- 4 mentalFig.5). Stable Coexpression of KCC4 and H(cid:1),K(cid:1)-ATPase in the HEK293 Cells—The tetracycline- regulated expression system of KCC4 was constructed in HEK293 cells that stably expressed (cid:1)- and (cid:2)-subunits of gastric H(cid:1),K(cid:1)- ATPase. No significant expression ofendogenousKCC4wasobserved in control HEK293 cells (data not shown). In this heterologous ex- pressionsystem,exogenousexpres- FIGURE5.InhibitionofH(cid:1)uptakeintoSAVbyaninhibitorofKCCs(DIOA).TheH(cid:1)uptakeinTV(AandC) sion of KCC4 protein was assessed aandddeSdAVat(BthaentdimDe)winadsiacassteedssbeydabnyamrreoawsu.Erifnfegctthseoqfu20en(cid:3)cMhiSnCgHo2f8a0c8ri0d(in(cid:1)eSoCrHa2n8g0e8f0lu)oanredsc1e0n(cid:3)cMe.DAITOPA(3((cid:1)50D(cid:3)IOMA)w)oans by using an anti-Xpress antibody. theH(cid:1)uptakewereexamined.Ascontrolexperiments,theH(cid:1)uptakewasmeasuredintheabsenceof ExpressionofKCC4(165kDa)was SCH28080andDIOA.AlmostnoH(cid:1)uptakewasobservedinthefreeze-driedvesicles(FDV;AandB).Typical observed in the cells treated with tracesareshownalongwiththequantitativedata.TheH(cid:1)uptakewasexpressedasthechangeoffluorescence intensityperminduringtheperiodfrom0to3minafteradditionofATP.n(cid:5)4.NS,notsignificantlydifferent tetracycline(Tet-Oncells),whereas (p(cid:9)0.05);**,significantlydifferent(p(cid:7)0.01)fromthevaluesobtainedintheabsenceofSCH28080andDIOA no significant expression of KCC4 (control). was observed in the cells treated without tetracycline (Tet-Off cells) activityweremeasuredinvariousanionsolutionscontaining (Fig.8A).ExpressionlevelsofH(cid:1),K(cid:1)-ATPase(cid:1)-subunitinthe 150mMKX(whereX(cid:5)Cl,Br,I,H PO ,orgluconate).The Tet-Oncellswerenotsignificantlydifferentfromthoseinthe 2 4 order of selectivity of various anions for H(cid:1) uptake was Tet-Off cells (Fig. 8B). Both KCC4 and H(cid:1),K(cid:1)-ATPase were Cl(cid:2)(cid:9)Br(cid:2)(cid:9)PO3(cid:2)(cid:5)gluconate(Fig.7Aandsupplemental found to be present in the plasma membrane of the Tet-On 4 Fig.4).WecouldnotexaminetheeffectofI(cid:2)onH(cid:1)uptake cells (Fig. 8C). To check whether KCC4 is associated with because KI quenches the fluorescence of acridine orange H(cid:1),K(cid:1)-ATPase in the Tet-On cells as is the case in the SAV (36). The order of anion selectivity for the H(cid:1),K(cid:1)-ATPase (Fig.3E),immunoprecipitationwasperformedbyusingananti- activitywasCl(cid:2)(cid:9)Br(cid:2)(cid:9)I(cid:2)(cid:9)PO3(cid:2)(cid:5)gluconate(Fig.7B). Histagantibody(forKCC4).ThesubsequentWesternblotting 4 JANUARY2,2009•VOLUME284•NUMBER1 JOURNALOFBIOLOGICALCHEMISTRY 625 (cid:1) (cid:1) KCC4AssociationwithH ,K -ATPaseinGastricParietalCells FIGURE 6. Inhibition of H(cid:1),K(cid:1)-ATPase activity in SAV by DIOA. SCH28080 (10 (cid:3)M)-sensitive K(cid:1)-ATPase activity (H(cid:1),K(cid:1)-ATPase activity) wasmeasuredintheabsence(control)andpresence(DIOA)of10(cid:3)MDIOA inTV(A)andSAV(B).n(cid:5)5.NS,notsignificantlydifferent(p(cid:9)0.05);**, significantlydifferent(p(cid:7)0.01). oftheimmunepelletswithananti-H(cid:1),K(cid:1)-ATPase(cid:1)-subunit antibodygaveabandforH(cid:1),K(cid:1)-ATPase(cid:1)-subunit(Fig.8D), indicatingassociationbetweenKCC4andtheH(cid:1),K(cid:1)-ATPase (cid:1)-subunit. KCC4-induced Stimulation of H(cid:1) Transport by H(cid:1),K(cid:1)- ATPase in the Heterologous Expression System—In the mem- branefractionsofbothTet-OffandTet-Oncells(i.e.cell-free condition),DIOA(10(cid:3)M)didnotinhibittheH(cid:1),K(cid:1)-ATPase activity(supplementalFig.3,CandD)asfoundforthefreeze- driedTVandSAV(supplementalFig.3,AandB).Thiswould reflectthefactthatthemembranesamplesobtainedfromthe HEK293cellswerenottightlysealedashasbeendescribedelse- where(38).InFig.9,westudiedthecapacityoftheacidextru- sion (H(cid:1) transport activity) in the Tet-On and Tet-Off cells. Thecapacitywasassessedbymeasuringtherateofrecoveryof pH inthecellsafteracidloadingthroughanammoniumpulse. i The pH recovery was monitored in the absence of Na(cid:1) to i exclude the contribution of the Na(cid:1)/H(cid:1) exchanger. The pH i recoveryprocessintheTet-Oncells(Fig.9,BandG)wassig- nificantlyfasterthanthatintheTet-Offcells(Fig.9,AandG). InterestinglyDIOA(10(cid:3)M)significantlydecreasedtherecov- eryrateofpH intheTet-Oncells(Fig.9,DandG)butnotinthe i Tet-Offcells(Fig.9,CandG).SCH28080(10(cid:3)M)significantly decreasedtherecoveryrateofpH inboththeTet-OnandTet- FIGURE 7. Anion selectivity for the DIOA-sensitive H(cid:1) transport, Off cells (Fig. 9, E–G). These resiults suggest that KCC4 may H(cid:1),K(cid:1)-ATPaseactivityand86Rb(cid:1)transportinSAV.A,theH(cid:1)uptake intoSAVwasassessedbymeasuringthequenchingofacridineorange stimulate the H(cid:1) transport activity of H(cid:1),K(cid:1)-ATPase in the fluorescence.ATP(350(cid:3)M)wasaddedinsolutionsof150mMKX(X(cid:5)Cl,Br, Tet-Oncells. H PO ,orgluconate(Gl)),andthetime-dependentfluorescencequench of2acr4idineorangewasmonitoredasshowninsupplementalFig.4.TheH(cid:1) DISCUSSION uptakewasmeasuredintheabsenceandpresenceof10(cid:3)MDIOA.The DIOA-sensitiveH(cid:1)uptakewasexpressedasthechangeoffluorescence In the present study, we found the following. 1) KCC4 is intensityperminduringtheperiodfrom0to3minafteradditionofATP. n(cid:5)5.NS,p(cid:9)0.05;**,p(cid:7)0.01fromthevaluesobtainedwiththeKCl expressedintheapicalcanalicularmembraneofgastricparietal solution(Cl(cid:2)).B,SCH28080(10(cid:3)M)-sensitiveK(cid:1)-ATPaseactivity(H(cid:1),K(cid:1)- cellsmoreabundantlyattheluminalregionoftheglandsthan ATPaseactivity)inSAVwasassessed.TheDIOA-sensitiveH(cid:1),K(cid:1)-ATPase atthebasalregion.Incontrast,KCC1,KCC2,andKCC3arenot activitywasthedifferencebetweenthevaluesmeasuredintheabsence andpresenceof10(cid:3)MDIOA.n(cid:5)5.NS,p(cid:9)0.05;*,p(cid:7)0.05;**,p(cid:7)0.01 significantly expressed in the apical canalicular membrane. fromthevaluesobtainedwiththeKClsolution(Cl(cid:2)).C,the86Rb(cid:1)uptake KCC4isabsentfromtheintracellulartubulovesicles.2)KCC4 intoSAVwasmeasuredinsolutionsof150mMKX(X(cid:5)Cl,Br,H2PO4,or is associated with H(cid:1),K(cid:1)-ATPase in the apical canalicular gsiltuivceon86aRteb)(cid:1)asudpetaskceribweadsutnhdeedri“ffEexrpeenrcimebenettwalePernoctehdeuvraelsu.”eTshmeeDaIsOuAre-sdenin- membrane. 3) In vesicles of the apical canalicular membrane theabsenceandpresenceof10(cid:3)MDIOA.n(cid:5)5.NS,p(cid:9)0.05;**,p(cid:7)0.01 (SAV),theH(cid:1),K(cid:1)-ATPaseinhibitorsuppressestheCl(cid:2)trans- fromthevaluesobtainedwiththeKClsolution(Cl(cid:2)). portactivity,whichissensitivetoaKCCinhibitor(DIOA;10 626 JOURNALOFBIOLOGICALCHEMISTRY VOLUME284•NUMBER1•JANUARY2,2009 (cid:1) (cid:1) KCC4AssociationwithH ,K -ATPaseinGastricParietalCells FIGURE9.pH recoveryoftheTet-OnandTet-Offcellsafteracidloading i throughanammoniumpulse.A–F,thepH recoverywasmonitoredinthe FIGURE 8. Tetracycline-regulated expression system of KCC4 in the absenceofNa(cid:1)afteranammoniumpulseofitheTet-Offcells(A,C,andE)and HEK293cellsstablyexpressinggastricH(cid:1),K(cid:1)-ATPase.Thetetracycline- Tet-Oncells(B,D,andF).Representativetracesareshown.Effectsof10(cid:3)M regulatedexpressionsystemofKCC4wasintroducedtotheHEK293cellsthat DIOA(CandD)and10(cid:3)MSCH28080(SCH)(EandF)onthepHirecoverywere stablyexpress(cid:1)-and(cid:2)-subunitsofgastricH(cid:1),K(cid:1)-ATPase.Thecellswere examined.Ascontrolexperiments,thepHirecoverywasmeasuredinthe treatedwith(on)orwithout(off)2(cid:3)g/mltetracycline.A,theexpressionof absenceofDIOAandSCH28080(AandB).Theredbarsshowthefittedslopeof KbHCy(cid:1)C,WK4(cid:1)ei-nsAtteThrPneamsbeleo(cid:1)mt-tsbinurgabnuuensifitnraignctatiohnneti-oTXefpttr-heOesnscecalenlsltlsi(b3(0oodn(cid:3))yg.wBoa,fstpchroeomteepxinpa)rrewedsasswiocintohnleftihvremalteoidnf ppGH,(cid:9)tihc0eh.0aav5ne;g*rea*,gfpreod(cid:7)mra00t.e0ts1o.o5ftmheinp(Hbilureecboavre)rayf(t(cid:10)erpiHnit/r5omduinc)inagretshheoNwan(cid:1).n-fr(cid:5)ee4b–5u.ffNeSr,. theTet-Offcells(off).Intheupperpanel,arepresentativepictureofWestern ibzleodttainsg1.isns(cid:5)ho5w.nN.SI,npt(cid:9)he0lo.0w5e.Crp,aa–ncels,hthoewstchoeresafomrethceelTlsetu-nOdffecreallmsiiscrnoosrcmopale- (cid:3)M). 4) The KCC inhibitor suppresses the H(cid:1),K(cid:1)-ATPase (asdod–fandg–i).DoubleimmunostainingwasperformedwiththeTet-On activityintheSAVbutnotinthefreeze-driedleakySAVand cells(a–f)andtheTet-Offcell(g–i)usinganti-KCC4plusanti-H(cid:1),K(cid:1)-ATPase theTV.5)IntheSAV,theanionselectivityoftheDIOA-sensi- (cid:1)(b-,sue,baunnditha)n,taibnoddKieCsC.4LopclaulsizaHt(cid:1)io,Kn(cid:1)s-oAfTKPCaCse4((am,edr,gaenddigm),aHg(cid:1)es,K;(cid:1)c,-Af,TaPnadsei)(HarKe) tive H(cid:1),K(cid:1)-ATPase activity and the DIOA-sensitive H(cid:1) and shown.Ind–f,anti-KCC4antibodywaspretreatedwiththeblockingpeptide K(cid:1)transportsaresimilartothatfortheK(cid:1)transportingactiv- ((cid:1)BP).PositiveKCC4stainingdisappeared.Scalebars,10(cid:3)m.D,immunopre- cipitation(IP)wasperformedwiththedetergentextractsoftheKCC4-ex- pressingTet-Oncellsusinganti-HistagantibodyforKCC4andproteinA-aga- rose.Thedetergentextract(input)andtheimmunoprecipitationsamples detecting KCC4 (upper panel) and anti-H(cid:1),K(cid:1)-ATPase (cid:1)-subunit antibody obtainedwith(IP:His(KCC4),(cid:1))andwithout(IP:His(KCC4),(cid:2))theantibody (HK(cid:1); lower panel). The immunoprecipitation shown is representatives of were detected by Western blotting (WB) using anti-Xpress antibody for threeindependentexperiments. JANUARY2,2009•VOLUME284•NUMBER1 JOURNALOFBIOLOGICALCHEMISTRY 627 (cid:1) (cid:1) KCC4AssociationwithH ,K -ATPaseinGastricParietalCells ity of KCC4 (37). 6) The expression of KCC4 stimulates H(cid:1) transport across the HEK293 cell membranes that coexpress H(cid:1),K(cid:1)-ATPase. RecentlywefoundthatKCC3aisexpressedinthebasolateral membrane of gastric parietal cells, that KCC3a is associated with Na(cid:1),K(cid:1)-ATPase (cid:1)1 subunit ((cid:1)1NaK), and that KCC3a up-regulates (cid:1)1NaK activity in the membrane fraction of the KCC3a-expressing LLC-PK1 cells and rabbit gastric mucosa. KCC3a may directly activate the (cid:1)1NaK activity in cell-free conditions(15).Ontheotherhand,inthisstudy,thefunctional associationofKCC4withH(cid:1),K(cid:1)-ATPasecouldbeseenonlyin intact tightly sealed SAV and HEK293 cells and not in the freeze-dried leaky SAV and the leaky membrane fraction of HEK293cells.OurpresentresultssuggestthatKCC4indirectly increases H(cid:1),K(cid:1)-ATPase activity by effectively supplying K(cid:1) totheluminalsurfaceofthisATPase. Gastric acid secretion by the parietal cells is accompanied withdramaticmorphologicalchanges.Inrestingparietalcells, tubulovesicles are present in intracellular compartments underlyingtheapicalcanalicularmembraneandformareticu- latedmeshwork.Uponstimulation,thetubulovesiclestranslo- cateandconnectwiththecanalicularmembrane,resultingin massive acid secretion (39–41). So far, several Cl(cid:2) and K(cid:1) channels have been identified in gastric parietal cells (7, 42). CFTR(5),CLIC-6(parchorin)(6,7),andSLC26A9(8)arecan- didates that could be involved in the luminal Cl(cid:2) efflux for gastricacid(HCl)secretion.KCNQ1/KCNE2(1,2)andKir4.1 (3,4)arecandidatesthatcouldbeinvolvedintheluminalK(cid:1) efflux for the K(cid:1) recycling. In the present study, CFTR was confirmedtobelocalizedpredominantlyinthetubulovesicles FIGURE10.Putativemodelsforgastricacid(HCl)secretionintheresting (Fig. 3B). KCNQ1 was found to be expressed mainly in the andstimulatedstatesofgastricparietalcells.FunctionsofH(cid:1),K(cid:1)-ATPase tubulovesicles (Fig. 3B) as reported previously (4, 43). It has (yellowellipses),KCC4(blueellipses),K(cid:1)channelssuchasKCNQ1/KCNE2and Kir4.1(bluerectangles),andCl(cid:2)channelssuchasCFTR,CLIC-6,andSLC26A9 been reported that CLIC-6 is distributed throughout the (redrectangles)intherestingstate(upperpanels)andstimulatedstate(lower cytosol(6)andthatKir4.1islocalizedinthetubulovesicles(4). panels)areshown. Therefore,thedistributionpatternoftheseK(cid:1)andCl(cid:2)chan- nelsisapparentlydifferentfromthatofKCC4thatispredom- associatedwithrenaltubularacidosis(45).Incontrasttothis inantlyexpressedintheapicalcanalicularmembrane. basolateral localization in renal (cid:1)-intercalated cells, KCC4 is Onthebasisofourpresentfindings,wesuggestthatthese localizedintheapicalmembraneofgastricparietalcells.Itwill two membranes may not mix but remain separate and dis- be necessary to clarify the mechanism of the recruitment of tinctwhenthetubulovesicularmembraneisconnectedwith KCC4intheapicalcanalicularmembraneoftheparietalcells. the apical canalicular membrane upon stimulation. Fig. 10 Gastric parietal cells migrate from the luminal to the basal summarizes the putative mechanisms of HCl secretion in regionoftheglands,andtheluminalparietalcellsmoreactively these two membranes. In the resting state, KCC4 together secreteacidthandothebasalparietalcells(26–28).KCC4is withH(cid:1),K(cid:1)-ATPasethatispresentintheapicalcanalicular expressedintheparietalcellsmoreabundantlyattheluminal membraneisinvolvedinthebasalacidsecretion.Uponstim- region of the glands than at the basal region. It is noted that ulation, CFTR, CLIC-6, SLC26A9, KCNQ1/KCNE2, Kir4.1, KCC3aislocatedintheluminalregion(15).KCC3ainthebaso- and KCC4 are involved in the KCl transport for massive lateral membrane of the parietal cell increases the Na(cid:1),K(cid:1)- gastricacidsecretion. ATPase activity. The electrochemical potential gradient for Interestingly it has been reported that KCC1, KCC2, and K(cid:1) across the apical membrane drives the ion transport by KCC3 are inhibited at pH (cid:7)7.5 when these are expressed in KCC4 and is established by mainly Na(cid:1),K(cid:1)-ATPase and Xenopusoocytes,whereasKCC4isactivatedatacidicpH(44). H(cid:1),K(cid:1)-ATPase.Thus,bothKCC3aandKCC4areinvolved ThisfindingsuggeststhatKCC4maybespecializedtooperate inacidsecretion. in an acidic environment. In fact, we found that KCC4 is Inconclusion,KCC4isfunctionallyexpressedintheapical expressedintheapicalcanalicularmembranes,whichfacethe canalicularmembraneofgastricparietalcells,anditsK(cid:1)-Cl(cid:2) gastricacid. cotransport is coupled with H(cid:1),K(cid:1)-ATPase activity in the Inthekidney,KCC4hasbeenreportedtobecrucialforCl(cid:2) canalicularmembrane.KCC4mayfunctionasaK(cid:1)-supplying extrusion across the basolateral membrane of acid-secreting molecule for H(cid:1),K(cid:1)-ATPase and also as a Cl(cid:2)-transporting (cid:1)-intercalatedcellsandthatthelossofKCC4leadstodeafness moleculeforHClsecretion.Intherestingstateoftheparietal 628 JOURNALOFBIOLOGICALCHEMISTRY VOLUME284•NUMBER1•JANUARY2,2009