RESEARCHARTICLE Endoplasmic Reticulum Stress Induced Synthesis of a Novel Viral Factor Mediates Efficient Replication of Genotype-1 Hepatitis E Virus VidyaP.Nair1,SaumyaAnang1☯,ChandruSubramani1☯,AbhilashaMadhvi1, KarishmaBakshi1,AkritiSrivastava1, Shalimar2,BaibaswataNayak2,RanjithKumarCT1, MilanSurjit1* 1 VirologyLaboratory,VaccineandInfectiousDiseaseResearchCentre,TranslationalHealthScienceand TechnologyInstitute,NCRBiotechScienceCluster,Faridabad,Haryana,India,2 Departmentof Gastroenterology,AllIndiaInstituteofMedicalSciences,GautamNagar,AnsariNagarEast,NewDelhi, Delhi,India ☯Theseauthorscontributedequallytothiswork. *[email protected] OPENACCESS Abstract Citation:NairVP,AnangS,SubramaniC,MadhviA, BakshiK,SrivastavaA,etal.(2016)Endoplasmic HepatitisEvirus(HEV)causesacutehepatitisinmanypartsoftheworldincludingAsia, ReticulumStressInducedSynthesisofaNovelViral AfricaandLatinAmerica.Thoughself-limitinginnormalindividuals,itresultsin~30%mor- FactorMediatesEfficientReplicationofGenotype-1 HepatitisEVirus.PLoSPathog12(4):e1005521. talityininfectedpregnantwomen.Ithasalsobeenreportedtocauseacuteandchronichep- doi:10.1371/journal.ppat.1005521 atitisinorgantransplantpatients.Ofthesevenviralgenotypes,genotype-1virusinfects Editor:Xiang-JinMeng,VirginiaPolytechnicInstitute humansandisamajorpublichealthconcerninSouthAsiancountries.Sporadiccasesofgeno- andStateUniversity,UNITEDSTATES type-3and4infectioninhumanandanimalssuchaspigs,deer,mongeesehavebeenreported Received:February9,2016 primarilyfromindustrializedcountries.Genotype-5,6and7virusesareknowntoinfectanimals suchaswildboarandcamel,respectively.Genotype-3and4viruseshavebeensuccessfully Accepted:March2,2016 propagatedinthelaboratoryinmammaliancellculture.However,genotype-1virusreplicates Published:April1,2016 poorlyinmammaliancellcultureandnootherefficientmodelexiststostudyitslifecycle.Here, Copyright:©2016Nairetal.Thisisanopenaccess wereportthatendoplasmicreticulum(ER)stresspromotesgenotype-1HEVreplicationby articledistributedunderthetermsoftheCreative inducingcap-independent,internalinitiationmediatedtranslationofanovelviralprotein CommonsAttributionLicense,whichpermits unrestricteduse,distribution,andreproductioninany (namedORF4).Importantly,ORF4expressionandstimulatoryeffectofERstressinducerson medium,providedtheoriginalauthorandsourceare viralreplicationisspecifictogenotype-1.ORF4proteinsequenceismostlyconservedamong credited. genotype-1HEVisolatesandORF4specificantibodiesweredetectedingenotype-1HEV DataAvailabilityStatement:Mostofthedataare patientserum.ORF4interactedwithmultipleviralandhostproteinsandassembledaprotein presentedinthemanuscript.Sequenceshavebeen complexconsistingofviralhelicase,RNAdependentRNApolymerase(RdRp),X,host depositedtoGenbankwithIDs:KU168733- eEF1α1(eukaryoticelongationfactor1isoform-1)andtubulinβ.InassociationwitheEF1α1, KU168737. ORF4stimulatedviralRdRpactivity.Furthermore,humanhepatomacellsthatstablyexpress Funding:RamalingaswamyFellowshiptoMSis ORF4orengineeredproteasomeresistantORF4mutantgenomepermittedenhancedviral gratefullyacknowledged.Thefundershadnorolein studydesign,datacollectionandanalysis,decisionto replication.ThesefindingsrevealapositiveroleofERstressinpromotinggenotype-1HEVrep- publish,orpreparationofthemanuscript. licationandpavethewaytowardsdevelopmentofanefficientmodelofthevirus. CompetingInterests:Theauthorshavedeclared thatnocompetinginterestsexists. PLOSPathogens|DOI:10.1371/journal.ppat.1005521 April1,2016 1/31 EndoplasmicReticulumStressPromotesGenotype-1HepatitisEVirusReplication AuthorSummary HepatitisEvirus(HEV)isoneofthemostcommoncausesofacuteandsporadicviral hepatitis.ItisasmallpositivestrandRNAvirus,whichistransmittedthroughthefeco- oralroute.Owingtolackofsanitationandunavailibilityofsafedrinkingwater,popula- tionsofdevelopingandresourcestarvedcountriesarepronetowardsHEVinfection. RecentreportsalsoindicateHEVinducedacuteandchronichepatitisinorgantransplant patients.AnotherpeculiarcharacteristicofHEVisattributedtoitsabilitytocausehigh mortality(~30%)ininfectedpregnantwomen.Evenafter30yearsofdiscoveryofthe virus,littleinformationexistsregardingvirallifecycleandreplicationmachinery.HEVis dividedintosevengenotypes.Genotype-3and4virusesinfecthumansandafewanimals (suchaspigs,deer,mongeese)andhavebeenreportedfromindustrializedcountries. Genotype-3and4viruseshavebeensuccessfullypropagatedinthelaboratoryinmamma- liancellculture.However,genotype-1virus,whichisknowntoinfecthumanandisa majorpublichealthconcerninsouthAsiancountries,replicatespoorlyinmammaliancell cultureandnootherefficientmodelexiststoinvestigatethevirallifecycle.Withthegoal ofdevelopinganefficientlaboratorymodelofgenotype-1HEV,weattemptedtoidentifya permissivecellularconditionthatwouldallowefficientviralreplicationinhumanhepa- tomacells.Here,wereportthatendoplasmicreticulumstressinducingagentspromote genotype-1HEVreplicationbyinitiatingcap-independent,internaltranslationmediated synthesisofanovelviralfactor,whichwehavenamedORF4.Furtherinvestigations revealedthatORF4isexpressedonlyingenotype-1anditactsbyinteractingwithmultiple viralandhostproteinsandcooperateswithhosteEF1α1(eukaryoticelongationfactor1 isoform1)tocontroltheactivityofviralRNAdependentRNApolymerase.Moreover,a proteasomeresistantORF4mutantsignificantlyenhancedviralreplication.Thus,our studyidentifiesanoptimalconditionrequiredforefficientreplicationofgenotype-1HEV anddissectsoutthemolecularmechanismgoverningthat.Datapresentedherewillbe instrumentalindevelopinganefficientmodelofthevirus. Introduction HepatitisEisafeco-orallytransmittedpositivestrandRNAvirusthatcausesacuteandspo- radichepatitisinhumanandotheranimals[1].Itisalsoemergingtobeamajorcauseofinfec- tioninorgantransplantpatientsworldwide[2].Thoughself-limitinginnormalindividuals,a peculiarcharacteristicofHEVisattributedtoitsabilitytocausehighmortality(~30%)in infectedpregnantwomen[3].Theviralgenomeconsistsofa7.2kb5’-cappedand3’-polyade- nylatedRNA,whichencodesthreeknownopenreadingframes(ORF);ORF1codesfornon- structuralproteins,ORF2codesforthemajorcapsidproteinandORF3codesforanaccessory proteinthatassociateswithmultiplehostproteinsandissupposedtomodulatehostsignaling pathways[1].ORF3alsointeractswithhosttumorsusceptibilitygene101(TSG101)andplays anessentialroleinvirusrelease[4,5].ORF2hasbeenobservedtobindtotheviralgenomic RNA[6],induceendoplasmicreticulum(ER)stress[7,8]andinhibitNFκBactivity[9]in humanhepatomacells,suggestingapossibleregulatoryroleoftheviralcapsidprotein.Seven genotypesofHEVhavebeenreported;genotype-1(g-1),genotype-2(g-2)exclusivelyinfect humanwhereasgenotype-3(g-3),genotype-4(g-4)infecthuman,pig,deer,mongeeseandrab- bit.Infectionbygenotypes5–7havenotbeenreportedinhuman.Genotype-5(g-5),genotype- 6(g-6)infectswildboarandgenotype-7(g-7)isknowntoinfectcamel[10,11].Littleisknown aboutthelifecycleofHEVowingtolackofahandyanimalorcellculturemodel.Amongthe PLOSPathogens|DOI:10.1371/journal.ppat.1005521 April1,2016 2/31 EndoplasmicReticulumStressPromotesGenotype-1HepatitisEVirusReplication variousgenotypes,invitrosynthesizedgenomeofg-3andg-4HEVreplicateswellinmamma- liancellculture[12].Attemptsatachievinghighreplicationefficiencyofg-1HEVinmamma- liancellculturehavenotbeensuccessful[13,14].Interestingly,inoneoftheg-3HEVinfected patients,humanribosomalS17codingsequencewasfoundtobeinsertedintheORF1region, whichconferredgrowthadvantagetothevirus[15,16].Molecularmechanismsunderlyingthe aboveobservationremaintobeexplored.Moreover,suchaninsertionappearstobeaveryrare occurrence. EfficienttranslationandreplicationaretwocrucialeventsinthelifeofanRNAvirus,tight controlofwhichisessentialforsurvivalofbothvirusanditshost.Theseeventsareunderstrict surveillancebythehostdefencemachineryasinnateantiviralmeasures,mostcommonbeing inductionofERstressandunfoldedproteinresponse,inactivationofeukaryotictranslation initiationfactor2αandshutdownofcap-dependenttranslation[17].Degradationofviraldou- blestrandedRNAbyinnateimmuneeffectors[18]andautophagy[19]alsoservesashost defencemechanismsagainstmanyviruses.Virusesontheotherhand,employcleverstrategies toexploittheadversitiesimposedbythehost.Innateimmuneresponseiscounteredbyvarious strategiessuchasinhibitionoftypeIinterferonproduction[20],manipulationofpatternrec- ognitionreceptorsignaling[21],IRF3(interferonregulatoryfactor3)inhibition[22,23]and autophagyinhibition[24].Translationalrestrictionsareovercomebyribosomeshunting,rein- itiation,stimulationofeIF4Fcomplexassembly,inhibitionofelF2αphosphorylation[25], internalribosomeentrysite(IRES)mediatedtranslation[26,27]andexecutionofbothcap- dependentandcap-independentmodesoftranslation[28,29]dependingonthecellularstate. ThesecondstepintheRNAviruslifecyclepertainstogenomereplication.Mostviruses encoderegulatoryproteins,RNAand/ormiRNAthatexploithostmachineriestoaugment viralreplication.HepatitisC,DengueandPoliovirusesactivateautophagy[30,31,32].Hepati- tisBvirusinhibitsproteasomeactivity[33],whichleadstoincreasedviralreplication.Hence, dependinguponthehostcellularcondition,eachvirusseemstohaveevolvedsuitablesurvival strategiesthatpermitsitsoptimalgrowth. Sinceg-1HEVdoesnotreplicateefficientlyinmammaliancellculture,wewondered whetheranyparticularcellularconditionmightenhanceviralreplication.Screeningofvarious compoundsknowntoaltercellularconditionrevealedaroleofERstressinducingcompounds, thapsigarginandtunicamycininenhancingg-1HEVreplication.Furtherstudiesledtothe identificationofanovelviralproteinsynthesizedfromanoverlappingreadingframewithin ORF1,whichwasnamedopenreadingframe4(ORF4).TheroleofORF4inviralreplication wasexplored. Results Increasedg-1HEVreplicationbyEndoplasmicReticulumstress inducingagents InordertoidentifytheinfluenceofaparticularcellularconditiononHEVreplication,Huh7 cellsweretransfectedwithwildtypecappedgenomicRNA(WTHEV).6daysposttransfec- tion,viralreplicationwasmeasuredbymonitoringthelevelofsenseandantisenseRNAand estimatingthepercentageofcellsexpressingviralhelicaseandORF2.Notethathelicasesyn- thesisreflectsORF1translationfromgenomicRNAwhereasORF2issynthesizedfromthe subgenomicRNA(generatedafterreplication).Areplicationdeficientmutantgenome(GAA HEV),inwhich“DD”aminoacidsofRdRp(a.a.1551,1552inORF1)werealteredto“AA”; wasusedtoensurespecificityofbothassays.Quantitativereal-timePCR(QRT-PCR)ofsense strandRNAlevelinGAAHEVtransfectedsamplesreflectedthelevelofinputRNA(quantity oftransfectedRNA,Fig1A).SensestrandRNAlevelwasapproximatelyfourfoldhigherin PLOSPathogens|DOI:10.1371/journal.ppat.1005521 April1,2016 3/31 EndoplasmicReticulumStressPromotesGenotype-1HepatitisEVirusReplication WTHEVRNAtransfectedsample(comparedtoGAAHEV),reflectingreplicationmediated increase.Asexpected,noantisenseRNAwasdetectedinGAAHEVtransfectedsamplesbut wasdetectableatbasallevelsinWTHEVexpressingsamples.UpontreatmentwithknownER stressinducers;thapsigargin(TG)andtunicamycin(TUN),senseandantisenseRNAlevels werefurtherincreasedby2–3fold(Fig1A).Similarlytreatedsampleswereanalyzedbyimmu- nofluorescenceassaytomeasurethepercentageofhelicaseandORF2positivecells(Fig1B). Representativeimagesareshown(S1Fig).GAAHEVtransfectedsamplecontained2%heli- casepositiveandnoORF2positivecells,inagreementwithQRT-PCRdata,confirmingspeci- ficityoftheassays(Fig1B).20%helicaseand5%ORF2positivecellsweredetectedinDMSO treatedWTRNAtransfectedcells.Thapsigarginandtunicamycintreatedsamplescontained significantlyhigherpercentageofhelicaseandORF2positivecellsinWTHEV.Helicaseposi- tivecellswereabsentinthapsigarginandtunicamycintreatedGAAHEVsample,rulingout thepossibilityofincreasedORF1translationbythesecompounds.Wenexttestedwhether thapsigarginandtunicamycinenhancedthereplicationofg-3HEVusingaGaussialuciferase secretingrepliconofg-3HEV[16].Therewasnoincreaseinluciferaselevelupontreatmentof therepliconexpressingcellswiththapsigarginandtunicamycin(Fig1C),suggestingthatboth compoundshadastimulatoryeffectonlyong-1HEVreplication. Anovelproteinisexpressedfromanoverlappingreadingframelocated withinORF1ofg-1HEVinvitroandinvivo AssumingthatthemechanismunderlyingtheobservedstimulatoryeffectofERstressong-1 HEVreplicationisencodedintheviralgenome,weanalysedtheg-1HEVgenome(SAR55 strain,GenbankID:AF444002.1)using“ATGpr”,asoftwaretopredictpotentialopenreading frames[34].AllknownORFsofHEVwerepredicted.AnunknownORFof158aminoacids withinORF1,locatedin+1readingframe(withreferencetoORF1,2835–3308basesfrom5’) wasalsopredicted,whichwasnamedORF4(S1Table,Fig1D).AnORFcodingforatruncated ORF1proteinwasalsopredicted.Incontrast,sequenceanalysisofotherHEVgenotypesdid notrevealanyORFresemblingthatofORF4(S1Table).Next,weperformedabioinformatics analysisofseveralg-1HEVgenomicsequencesavailableinpublicdatabasetofindoutwhether openreadingframe4ispresentinallandwhethertheORF4proteinsequenceisconserved amongthevariousisolates.Additionally,weanalyzedtheviralgenomicsequencefromfive newcasesofg-1HEVinfection,recentlyisolatedbyusattheAllIndiaInstituteofMedicalSci- ences,NewDelhi,India(GenbankID:KU168733-KU168737,Fig1E).Allg-1HEVgenomes containanORFattheexpectedpositionofORF4,withasuboptimalKozaksequencestarting eitherat2832or2834nucleotides,from5’end(Fig1D).Threedifferentpatternswereobserved withrespecttoterminationoftheputativeORF4;in8cases,itterminatesat3311nucleotides (158aminoacids,fulllengthORF4protein),intwocases,at3277nucleotides(147amino acids)andinremaining9cases,itterminatesat3256nucleotides(139aminoacids,Fig1E). ClustalWanalysisoftheputativeORF4proteinsequenceoftheseisolatesrevealed~80%con- servationofaminoacids(Fig1E). ToverifyORF4and/orΔORF1expression,aninvitrotranscription-translationassaywas performedusingaTNTkit.Twobandscorrespondingtounprocessedandprobablypartially (cid:1)(cid:1) processedORF1protein( )weredetected(Fig2A,topandmiddle).Twobandscorrespond- (cid:1) ingto~20kDaand~40kDa( )werealsoobserved(Fig2A,top).Nosuchbandsweredetected inmock.MutatingtheinitiatormethioninecodonofORF1toLysine(ATG-AAAsubstitution, 26ATGmutORF1)resultedindisappearanceofORF1specificbandswithoutaffecting20kDa and40kDabands.Similarly,blockingORF1translationinitiationbyinsertingawellcharacter- isedstemloopformingsequence[35]upstreamoftheinitiatorcodonofORF1(SLinsORF1) PLOSPathogens|DOI:10.1371/journal.ppat.1005521 April1,2016 4/31 EndoplasmicReticulumStressPromotesGenotype-1HepatitisEVirusReplication Fig1.Tunicamycinandthapsigarginpromoteg-1HEVreplication.(A)QRT-PCRofwildtype(WTHEV)andreplicationdeficient(GAAHEV)HEVin Huh7cellstransfectedwithinvitrosynthesizedgenome.TG:thapsigargin,TUN:tunicamycin.Valuesaremean±SEM.(B)QuantitationofviralORF1 (Helicase)andORF2expressioninHuh7cells,transfectedwithwildtype(WTHEV)orreplicationdeficient(GAAHEV)HEVgenomicRNAandtreatedwith theindicatedcompounds.Tenrandomfieldsofapproximately30cellsineachfieldwerecountedforhelicase,ORF2,DAPI(nuclearstain)fluorescenceand percentage±SEMcalculated.(C)MeasurementofsecretedGaussialuciferaseactivityintheculturemediumofHuh7cellsexpressinginvitrotranscribed HEVgenotype-3repliconRNAandtreatedasindicated.Valuesaremean±SEM.(D)HEVgenomeorganisation.Numbersindicatenucleotidepositionfrom 5’-end.Mutatedbasesareinbold.(E)ClustalWalignmentofORF4proteinsequenceofindicatedg-1HEVisolates. doi:10.1371/journal.ppat.1005521.g001 PLOSPathogens|DOI:10.1371/journal.ppat.1005521 April1,2016 5/31 EndoplasmicReticulumStressPromotesGenotype-1HepatitisEVirusReplication Fig2.TunicamycinandthapsigargininduceORF4expression.(A)Top:AutoradiogramshowingTNTofindicatedplasmids.Mock:emptyvector,“**”: ORF1protein,“*”:unknownproteins.Middle:samplesfromtopresolvedby7%SDS-PAGE,followedbyautoradiography.Bottom:samplesfromtop resolvedby15%SDS-PAGEandwesternusinganti-ORF4.(B)ImmunofluorescenceofORF4inHuh-7cellstransfectedwithindicatedinvitrosynthesized RNA.Scale:20μm.Shownaremergedimagesofnuclei(blue)andORF4(green).“!”:positivestaining,“►”:unstained.(C)ImmunofluorescenceofHelicase andORF4inHuh-7cellstransfectedwithinvitrosynthesizedwildtypeHEVg-1(WTHEV)org-3(WTg-3HEV)genomicRNA.Scale:20μm.Shownare mergedimagesofnuclei(blue)andHelicaseorORF4(green).“!”:positivestaining. doi:10.1371/journal.ppat.1005521.g002 abolishedthebandscorrespondingtoORF1withoutimpacting20kDaand40kDabands(Fig 2A).Correlating“ATGpr”predictionwithabovedatasuggestedthat20kDabandmaycorre- spondtotranslationproductofORF4.40kDabandcouldbeadenaturationresistantdimeric formofORF4oranunrelatedprotein. PLOSPathogens|DOI:10.1371/journal.ppat.1005521 April1,2016 6/31 EndoplasmicReticulumStressPromotesGenotype-1HepatitisEVirusReplication Inagreementwiththeaboveproposition,TNTofORF4codingsequenceproduced20and 40kDabands(Fig2A,pSGIORF4).Apeptidebasedrabbitpolyclonalantibodywasgenerated againsttheputativeORF4proteininordertoidentifytheunknownbands.Functionalityand specificityoftheantibodywasvalidated(S2AandS2BFig)andaliquotsofTNTsampleswere westernblottedusingthisantibody.Onlythe20kDabandwasdetectablebyORF4antibodyin WTORF1,26ATGmutORF1,SLinsORF1andpSGIORF4(Fig2A,bottom). TwosuboptimalKozaksequencescontaininginitiationcodonsarepresentintheORF4 codingregion(Fig1D).BothweremutatedtoLysine(ATG-AAA)inHEVORF1construct (ORF4ATGDMORF1),followedbyTNTtoconfirmtheidentityof20and40kDabands. Bothbandswereabsentintheautoradiogramandwestern,withoutaffectingORF1level(Fig 2A).Asexpected,inhibitingbothORF1andORF4translationinitiationbystemloopinsertion andATG-AAAsubstitution,respectively,resultedindisappearanceofallbands(SLinsORF1 DMORF4). AnimmunofluorescenceassaywasconductedusingORF4antibodytodetectitsexpression inWTg-1HEVgenometransfectedHuh7cells.ORF4signalwassignificantlyhigherintunica- mycinandthapsigargintreatedcellscomparedtotheDMSOcontrol(Fig2B).Specificityofthe signalwascontrolledbyusingtunicamycintreatedDMHEV(mutantg-1HEVgenome,in whichORF4initiationcodonsaremutatedtoLysine)transfectedcells,whichfailedtoshow ORF4signal.Tunicamycintreated26ATGmutHEVorGAAHEVRNAtransfectedcellsalso expressedORF4,clearlyrulingoutanyinfluenceofORF1translationorreplicationonORF4 production,respectively(Fig2B). InordertoconfirmthatnoORF4likeproteinisexpressedingenotype-3HEV(g-3HEV), invitrotranscribedgenomeofaluciferaserepliconofg-3HEV(pSKHEVp6luc)orWTg-1 HEVwastransfectedintoHuh7cells,followedbythapsigargintreatmentandsubsequent immunofluorescencestainingusinganti-ORF4oranti-Helicaseantibodies.Helicaseexpression wasdetectableinbothsampleswhereasORF4expressionwasdetectableonlyinthecaseofg-1 HEV(Fig2C). Next,weanalysedORF4expressioninthefiveg-1HEVinfectedpatients,inwhichORF4 sequencewasconserved(KU168733-KU168737,Fig1E).ORF4expressionwasassessedindi- rectlybymonitoringthelevelofanti-ORF4antibody,ifany.PurifiedGST-ORF4proteinwas readilydetectedbyserumfromall5patients(KU168733-KU168737)whereasserumfromtwo healthy(CS1-CS2)individualswerenegative(Fig3A). ExpressionofORF4isessentialforbasalandtunicamycindependent increaseinHEVreplication AstablecelllineofHuh7constitutivelyexpressingFlag-taggedORF4wasgenerated(ORF4-- Huh7)toexploretheroleofORF4inHEVreplication(Fig3B).WTHEVorGAAHEV genomewastransfectedintoORF4-Huh7anditscontrol(pCDNA5-Huh7).Thelevelofsense andantisenseRNAofWTHEVwasapproximatelytwofoldhigherinDMSOtreatedORF4-- Huh7cellscomparedtocontrol(Fig3C).Asexpected,GAAHEVmutantwasunabletorepli- cate.TunicamycintreatmentincreasedsenseandantisenseRNAbytwofoldincontroland fourfoldinORF4-Huh7cells.DMHEVbehavedlikeGAAHEVincontrolcellsinthepres- enceandabsenceoftunicamycin.IncontrasttoGAAHEV,DMHEVproducedbothsense andantisenseRNAatlevelsequivalenttoWTHEVinDMSOtreatedORF4-Huh7cellsand remarkably,theselevelsremainedunalteredinthepresenceoftunicamycin(Fig3C).Similar patternwasobtainedinimmunofluorescenceanalysisofhelicaseandORF2positivecells(Fig 3D).Thapsigargintoodisplayedapatternsimilartotunicamycin(Fig3D). PLOSPathogens|DOI:10.1371/journal.ppat.1005521 April1,2016 7/31 EndoplasmicReticulumStressPromotesGenotype-1HepatitisEVirusReplication Fig3.ORF4antibodyisdetectedinHEVpatientsanditsoverexpressionenhancesviralreplication.(A)Top:PurifiedGST-ORF4stainedwith coomassieblue(leftmost)andwesternofequalaliquotsofthesameusinghealthy(CS1,CS2)andacuteHEVinfected(KU168733-KU168737)patientsera. Bottom:Topblotsreprobedwithanti-ORF4antibody.(B)WesternofwholecellextractfromindicatedcellsusingORF4andGAPDHantibodies.(C) QRT-PCRofsenseandanti-senseRNAinpCDNA5-Huh7andORF4-Huh7cellstransfectedwithinvitrosynthesizedwildtype(WT)ormutantHEVgenome PLOSPathogens|DOI:10.1371/journal.ppat.1005521 April1,2016 8/31 EndoplasmicReticulumStressPromotesGenotype-1HepatitisEVirusReplication andtreatedasindicated.(D)QuantitationofviralORF1(helicase)andORF2expressioninpCDNA5-Huh7andORF4-Huh7cells,transfectedwithwildtype (WTHEV)orORF4expressiondeficientmutant(DMHEV)HEVgenomicRNAandtreatedwiththeindicatedcompounds.Tenrandomfieldsof approximately30cellsineachfieldwerecountedforhelicase,ORF2,DAPI(nuclearstain)fluorescenceandpercentage±SEMcalculated. doi:10.1371/journal.ppat.1005521.g003 InternalinitiationofORF4translation,drivenbyanInternalribosome entrysite-like(IRESl)elementlocatedwithinORF1 ORF1translationiscap-dependent[1].However,ORF4couldbetranslatedintheabsenceof cap-dependenttranslation(SLinsORF1,Fig2A).ConsideringitslocationdeepinsideORF1, wewonderedwhetherORF4synthesiswasdrivenbyaninternaltranslationinitiationmecha- nism.BioinformaticsanalysisofviralRNAflankingORF4regionusing“RegRNA”[36]indi- catedthepresenceofaputativeIRES-likeelementbetween2701–2787bases(Fig1D,IRESl). Analysisofsamesequenceusing“IRESite”[37]predictedweakhomologywithEquineRhinitis Avirus-1IRES[38].Secondarystructureanalysisof2664–2845basesencompassingthepre- dictedIRES-likeelementusing“mfold”[39]revealedthepresenceofthreestemloopswithin 2701–2787bases(Fig4A,sequenceincyan).Increaseinsequencelength(315bases,2619– 2933bases)didnotalterthosestemloops,indicatingtheirstability(S3Fig).Adualluciferase reporterassaywasconductedtoevaluatethefunctionalityoftheIRES-likeelementbyplacing itbetweenRenillaandFireflycodingsequences(Fig4B).Threeconsecutivestopcodonswere introduceddownstreamoftheRenillacodingsequencetoensureterminationofcap-depen- denttranslationofRenillaluciferase.315basesfromHEVgenomeencompassingtheIRES-like element(HIRESl315)or468basesfrom3501–3968nucleotides(negativecontrolforback- groundFireflyactivity,HEVcRNA)wereinserteddownstreamofRenilla,precedingtheFirefly startsite(Fig4B).MeasurementoftheFireflyandRenillaluciferaseratiosrevealedasignifi- cantlyhigherFireflyactivityinHIRESl315sample(Fig4C).ThecoreIRES-likeelement (2701–2787bases,HIRESl87)alsodisplayedsimilaractivity(Fig4C).Next,severalmutant constructsweregeneratedinwhichindividualstemloopsweredestroyedbyalteringafew (cid:1) nucleotidesatatime.ImpairingstemloopsA,B,Corbulge(A )didnotaffectFireflyactivity. AmoderateandhighreductioninFireflyactivitywasseeninsamplescontainingdualmuta- tionsofbothA,CandB,Cstemloops,respectively(Fig4C). DualmutationsofbothBandCwereintroducedintoplasmidscontainingHEVORF1and HEVgenome(IRESlmutORF1andIRESlmutHEV,respectively).InTNTofIRESlmut ORF1construct,ORF4-specificbanddisappearedwithoutaffectingthatofORF1(Fig2A).No ORF4wasdetectedincellstransfectedwithIRESlmutHEVRNAupontunicamycintreatment (Fig2B).Expectedly,IRESlmutHEVgenomereplicationwassignificantlyreducedirrespective oftunicamycintreatmentinpCDNA5-Huh7cells,whichcouldberestoredinORF4-Huh7 cells,thoughinatunicamycininsensitivemanner(Fig3C). ORF4directlyandindirectlyassociateswithseveralviralproteinsand promotestheassemblyofamultiproteincomplex Toexplorethemechanism(s)bywhichORF4stimulatedviralreplication,weidentifiedits interactionpartnersamongviralproteins.ORF4directlyinteractedwithhelicase,XandORF3 proteinsofg-1HEV,evidentfromYeastTwoHybrid(Y2H)assay(Table1).Xproteinofg-3 HEValsointeractedwithORF4,howeverneitherg-3helicasenorg-3ORF3interactedwith ORF4(Table1).UsingoverlappingdeletionsofORF4,theinteractiondomainwasmappedto 54–122aminoacidsforXandORF3and1–124aminoacidsforhelicaseproteinofg-1HEV (Table2).Coimmunoprecipitation(CoIP)ofHuh7cellstransfectedwithplasmidsencoding ORF4andvariousg-1HEVproteinsconfirmeditsinteractionwithX,helicaseandORF3(Fig PLOSPathogens|DOI:10.1371/journal.ppat.1005521 April1,2016 9/31 EndoplasmicReticulumStressPromotesGenotype-1HepatitisEVirusReplication Fig4.AnIRESl(Internalribosomeentrysite-like)elementlocatedupstreamofORF4coding sequencedrivesitstranslationindependentofORF1.(A)PredictedsecondarystructureofIRESlusing “mfold”.CyanlettersindicatecoreIRESlsequence.A,B,C:stemloops,A*:bulge.Substitutionsthatimpair IRESlareinbold.(B)OrganizationofDualluciferasereporterplasmid.(C)Dualluciferasereporterassay. Valuesaremean±SEM. doi:10.1371/journal.ppat.1005521.g004 5A,5Band5C).Interestingly,CoIPalsodemonstratedthatORF4interactedwithg-1RdRpin Huh7cells(Fig5D).NootherviralproteinsinteractedwithORF4inCoIP(S4Fig).SinceX andORF3interactedwiththesameregionofORF4andhelicaseappearedtointeractwitha broaderregion/multipledomainsofORF4,wenextdeterminedwhetherXandORF3com- petedorcooperatedwithhelicaseforbindingtoORF4.InORF4-Huh7cellscoexpressing PLOSPathogens|DOI:10.1371/journal.ppat.1005521 April1,2016 10/31
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