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DNA replication stress triggers Rapid DNA Replication Fork Breakage by Artemis and XPF PDF

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Preview DNA replication stress triggers Rapid DNA Replication Fork Breakage by Artemis and XPF

RESEARCHARTICLE DNA replication stress triggers rapid DNA replication fork breakage by Artemis and XPF Re´myBe´tous1☯*,The´oGoulletdeRugy1☯,AlessandraLuizaPelegrini1,2,SophieQueille1, Jean-PierredeVillartay3,Jean-Se´bastienHoffmann1* 1 CRCT,Universite´deToulouse,Inserm,CNRS,UPS;Equipelabellise´eLigueContreleCancer,Laboratoire d’excellenceToulouseCancer,Toulouse,France,2 DepartmentofMicrobiology,InstituteofBiomedical Sciences,UniversityofSãoPaulo,SãoPaulo,Brazil,3 Laboratory“GenomeDynamicsintheImmune System”,INSERMUMR1163,Universite´ParisDescartesSorbonneParisCite´,InstitutImagine,Paris,France a1111111111 ☯Theseauthorscontributedequallytothiswork. a1111111111 *[email protected](RB);[email protected](JSH) a1111111111 a1111111111 a1111111111 Abstract DNAreplicationstress(DRS)leadstotheaccumulationofstalledDNAreplicationforks leavingafractionofgenomiclociincompletelyreplicated,asourceofchromosomalrear- rangementsduringtheirpartitioninmitosis.MUS81isknowntolimittheoccurrenceofchro- OPENACCESS mosomalinstabilitybyprocessingtheseunresolvedlociduringmitosis.Here,weunveilthat Citation:Be´tousR,GoulletdeRugyT,PelegriniAL, theendonucleasesARTEMISandXPF-ERCC1canalsoinducestalledDNAreplication QueilleS,deVillartayJ-P,HoffmannJ-S(2018) DNAreplicationstresstriggersrapidDNA forkscleavagethroughnon-epistaticpathwaysallalongSandG2phasesofthecellcycle. replicationforkbreakagebyArtemisandXPF. Wealsoshowedthatbothnucleasesarerecruitedtochromatintopromotereplicationfork PLoSGenet14(7):e1007541.https://doi.org/ restart.Finally,wefoundthatrapidchromosomalbreakagecontrolledbyARTEMISand 10.1371/journal.pgen.1007541 XPFisimportanttopreventmitoticsegregationdefects.Collectively,theseresultsreveal Editor:JulianE.Sale,MRCLaboratoryofMolecular thatRapidReplicationForkBreakage(RRFB)mediatedbyARTEMISandXPFinresponse Biology,UNITEDKINGDOM toDRScontributestoDNAreplicationefficiencyandlimitchromosomalinstability. Received:December29,2017 Accepted:July4,2018 Published:July30,2018 Authorsummary Copyright:©2018Be´tousetal.Thisisanopen accessarticledistributedunderthetermsofthe DNAreplicationisanessentialprocessthatneedstobeabsolutelyaccuratetopreventfix- CreativeCommonsAttributionLicense,which ationofmutationswhichcouldimpaircellularessentialfunctionsandpromotediseases permitsunrestricteduse,distribution,and suchascancers.DuringS-phaseDNAreplicationforksencountermanyobstaclesthat reproductioninanymedium,providedtheoriginal authorandsourcearecredited. blockthereplicativeDNApolymerasesandinduceforkstalling.Accumulationofstalled forksorexcessiveforkslowingisreferredtoasDNAreplicationstresswhichpromotea DataAvailabilityStatement:Allrelevantdataare DNAdamageresponseelicitedbyATRfromthestalledforkstopreservegenomestability. withinthepaperanditsSupportingInformation files. However,howcellsdealwithpersistentlystalledreplicationforksisnotfullyunderstood. IthasbeenshownthattheendonucleaseMUS81-EME1cancleavethestalledforksafter Funding:RB’ssalarywasprovidedbythe 24hoursofreplicationstress.HowevernormalS-phaselength,iscommonlyofabout8 FondationdeFrance,#201400051605(https:// www.fondationdefrance.org/fr)ALP’ssalarywas hours.Thusweaskedwhatcouldhappenifforksstallmoretransiently.Weuncovered providedbyFundac¸ãodeAmparoàPesquisado thatstalledDNAreplicationforkscanbreakrapidlyafterinductionofreplicationstress. EstadodeSãoPaulo–FAPESP(http://www. WeshowthatthisRapidReplicationForkBreakage(RRFB)isachievedbytwoendonucle- fapesp.br/).WorkinJSH’slaboratoryissupported ases,ARTEMISandXPF-ERCC1,whichworkindependentlyofeachothertoresume byfundingfromtheInstitutNationalduCancer (PLBIO2016)(http://www.e-cancer.fr/),the PLOSGenetics|https://doi.org/10.1371/journal.pgen.1007541 July30,2018 1/16 ArtemisandXPFmediateforkbreakage AgenceNationaledelaRecherche(ANRPRC 2016)(http://www.agence-nationale-recherche.fr/), DNAreplicationfromthestalledforksandtopreventmitoticsegregationdefects.Hence, andLaLiguecontreleCancer(Equipelabellise´e weidentifiednewpathwayspreservinggenomestabilityduringreplicationstress. 2017)(https://www.ligue-cancer.net/).Thefunders hadnoroleinstudydesign,datacollectionand analysis,decisiontopublish,orpreparationofthe manuscript. Introduction Competinginterests:Theauthorshavedeclared thatnocompetinginterestsexist. Genomestabilityisaffectednotonlybyexogenousaggressionssuchaschemicalcarcinogens andionizingradiationbutalsobyendogenouslyinducedDNAdamagegeneratedduringthe processofDNAreplicationwhentheDNAreplicationforksaresloweddownorstalledby diversenaturalreplicationbarriers,aphenomenonreferredasDNAreplicationstress(DRS) [1].Thishasbeenwelldocumentedduringcancerprogression,inwhichoncogene-drivencell proliferationinducesahighlevelofDRS,resultinginthegenomeinstabilitythatisahallmark ofcancercells[2].DRSgeneratesstalledreplicationforkscontaininglargeamountsofsingle- strandedDNAcoatedwiththeproteinRPA.TheseactivatethereplicationstresskinaseATR, whichphosphorylateshundredsofsubstratesinordertostabilizeandrestartthestalledDNA replicationforks[3].Ifthisreplicationstressresponsefails,DNAdouble-strandbreak(DSB)s arecreatedatthestalledreplicationforks[4],aphenomenonknownasreplicationforkbreak- age.Currently,themechanismsmediatingreplicationforkbreakagearepoorlyunderstood andhaveonlybeenreportedtooccurinresponsetoextensiveDRSwhereitrequiresMUS81 [5,6],thecatalyticsubunitofastructure-specificendonucleasewhichformsacomplexwith EME1orEME2[7]. DSBsareusuallyseenasthreatstogenomeintegrityandcellviability,soitisunclearwhy eukaryoteshaveevolvedmechanismsthatinduceDSBsduringDNAreplication.Arecent bodyofevidence,however,suggestsananswertothisconundrum.Twostudieshavefound thatDRScanleadtounder-replicatedregionsthatpersistintolateG2andMphaseofthecell cycle[8,9].Iftheseregionsremainedunresolvedinmitosis,thesecanleadtochromosomes segregationdefects,whichcanresultinuncontrolledchromosomebreaksthataretransmitted todaughtercellsuponcelldivision,thusaffectingthegenomicstabilityofthenextcellgenera- tion.Importantly,Mus81wasdemonstratedtopreventthesedetrimentalconsequencesof DRS[10,11]. Initially,MUS81dependentforkbreakagehasbeenobservedafterprolongedexposureto DRS(18–24hours)andhasbeenproposedtooccurinS-phasecells[5].However,eventhough MUS81exhibitsbasalactivitythroughoutthecellcycle,itsmainbiologicalfunctionseemsto berestrictedtomitosistopromotetheresolutionofunder-replicatedchromosomes,holliday junctionsorotherrecombinationintermediates[7]andmistargetingofMUS81toreplication factoriesduringS-phaseinduceschromosomepulverization[12].Therefore,whetherstalled replicationforksareactuallysubjectedtoendonucleolyticcleavageduringS-phaseremains unclear.Interestingly,activationoftheDNAdamageresponseandrecruitmentofDSBrepair proteinstostalledreplicationforksoccurasearlyas2hoursafterinductionofDRS[13]sug- gestingthatatleastsomestalledreplicationforksarebeingcleavedwithinthistimeframe. Thus,weinvestigatedifDNAreplicationforkscouldactuallybreakearlierthanpreviously reported,whenS-phaseischallengedbyreplicationinhibitors. Inthisstudy,weprovideevidencethatReplicationforkscanbreakquicklyinS-phaseupon DRSinductionbyanendonucleolyticmechanismindependentofMUS81.Wedemonstrate thattwonucleasesARTEMISandXPF-ERCC1areresponsibleforthisRapid-ReplicationFork Breakage(RRFB)whichtakesplaceduringSandG2phasesofthecellcycle.Weproposethat thisphysiologically-controlledDSBinductionisimportanttopreventgeneticinstabilityunder DRS. PLOSGenetics|https://doi.org/10.1371/journal.pgen.1007541 July30,2018 2/16 ArtemisandXPFmediateforkbreakage Results Replicativestressinducesrapidreplicationforkbreakage Toinvestigatethekineticsofreplicationforkbreakage,weusedthesensitiveneutralcomet assaytomonitortheoccurrenceofDSBsatvariouslevelsofreplicativestress.Wetreatedthe humancoloncarcinomacelllineRKOwith0.5,2and8mMhydroxyurea(HU),aninhibitor ofdNTPbiogenesis,for1–24hours.ThisDRSinducedDSBsdetectableasearlyas1hourafter HUtreatmentatthestrongestdoseofHU(Fig1A).DuringthefirstfourhoursofDRS,the amountofDSBsincreasedlinearlyandreachedaplateaubeforeincreasingagainfrom16–24 hours.DSBsobservedduringtheearliesttimepointsoftheassayappearedconcomitantwith activationofDNA-PK,whichisknowntobeactivatedbyDSBs,andtothephosphorylationof oneofitssubstrates,RPA,onSer4and8(S1AFig). TodeterminewhethertheobservedDSBswereinducedinS-phasecells,wecarriedoutquanti- tativeimage-basedcytometry(QIBC),ahigh-throughputmicroscopymethoddescribedinFig1B [14].QIBCallowedustoquantifyintheindividualcellsofapopulationtheamountsofseveral DNAdamagemarkersandtocorrelatethiswiththestageofthecellcycle.After4hoursofDRS inducedbyHU,weobserved,aspreviouslydescribed[14],astrong,dose-dependentaccumula- tionofγH2AX,thephosphorylatedformofthehistonevariantH2AX,whichisphosphorylated bythekinasesATR,ATMandDNA-PKinresponsetoDSBsbutalsotostalledforks(Fig1C).To quantifymorepreciselyDSB,weusedadirectmarkerofDSB,thephosphorylatedformof53BP1 atSer1778.Indeed,phosphorylationofthissitehasbeenshowntocorrelatewiththeamountof DSB[15].Wefoundthat53BP1isalreadysignificantlyphosphorylatedatmilddoseofHU(Fig 1C)andaccumulatesinfociinreplicatingcellsonly30minutesafterinductionofDRS(S1Band S1CFig).Importantly,becauseweextractedsolubleproteinsbeforecellfixation,weonlyquanti- fiedproteinsonchromatinandthereforeDSBboundp53BP1.Asimilarrapidaccumulationof p53BP1onchromatinofS-phasecellswasfoundinresponsetotreatmentwithaphidicolin,an inhibitorofthereplicativeDNApolymerases(S1DFig).Thisphosphorylationof53BP1andits recruitmenttochromatinwasstronglyinhibitedbyachemicalinhibitorofATM(KU55933), indicatingthatitisdependentuponDSBs(Fig1D).Together,thesefindingssuggestthatatleast somestalledDNAreplicationforksarerapidlyconvertedintoDSBsduringSphaseinresponseto DRS,aphenomenonthatwerefertoasrapidreplicationforkbreakage(RRFB). RapidreplicationforkbreakageoccursinaMus81-independentmanner ItwaspreviouslyreportedthattheformationofDSBsuponprolongedexposure(18–24hours) toreplicationinhibitorsrequiresMUS81[5].Thus,weaddressedifitsroleinRRFBcould havebeenoverlookedforexperimentalsensitivityreasons.DespitestrongdepletionofMUS81 byRNAinterference(Fig2A),wesawnodifferenceintheamountofγH2AXorp53BP1inS- phasecellsafterDRS,asdeterminedbyQIBC(Fig2Band2C).Toconfirmthisfinding,we assayedthegenerationofDSBsuponHUtreatmentdirectlybyneutralcometassay.Again, DSBsweredetectedatearlytimepointsbothincellsdepletedofMUS81andincontrolcells (Fig2D).After24hofDRS,however,Mus81depletionhadacleareffectontheamountof DSBs,confirmingpreviouslypublisheddata[5].Together,thesedatademonstratethatRRFB doesnotrelyontheendonucleaseMUS81. ARTEMISandXPF-ERCC1areinvolvedinRRFBthroughtwodistinct pathways ToinvestigatewhichotherendonucleasesmightbeinvolvedinRRFB,weconductedneutral cometassayinRKOcellsdepletedofanyoneofseveralcandidateendonucleasesthatmight PLOSGenetics|https://doi.org/10.1371/journal.pgen.1007541 July30,2018 3/16 ArtemisandXPFmediateforkbreakage Fig1.Briefreplicationstressresultsinrapidreplicationforkbreakage.(A)QuantificationbyneutralcometassayofDSBsinduced,in responsetotreatmentwithvariousdosesofHUforupto24hours.Representativeimagesofcellstreatedfor4hoursareshown.Eachdatapoint correspondstothemeantailmoment(%DNAintailxtaillength)anderrorbarsrepresentstandarddeviationsfrom3independentexperiments inwhichatleast150cometswerescored.(B)Schematicrepresentationofquantitativeimage-basedcytometry(QIBC).(C)Quantificationof nuclearγH2AX(left)orp53BP1(right)fluorescenceintensitybyQIBCin>2500S-phasecellstreatedwiththeindicateddosesofHUfor4hours. (cid:3)(cid:3)(cid:3)p<0.0001(Mann-Whitneytest).(D)Quantificationofnuclearp53BP1fluorescenceintensitybyQIBCin>2000S-phasecellseither untreated(NT)orpretreatedfor1hourwithanATMinhibitor(ATMi;KU5593310μM)andthentreatedwiththeindicatedconcentrationsof HUfor4hoursinthepresenceorabsenceoftheATMinhibitor.(cid:3)(cid:3)(cid:3)p<0.0001(Mann-Whitneytest). https://doi.org/10.1371/journal.pgen.1007541.g001 PLOSGenetics|https://doi.org/10.1371/journal.pgen.1007541 July30,2018 4/16 ArtemisandXPFmediateforkbreakage Fig2.Rapidreplicationforkbreakage(RRFB)isindependentofMUS81.(A)WesternblotofwholecellextractsofRKOcellsshowingdepletionof Mus81bysiMus81comparedtoacontrol,siLUC.Loading:nonspecificband.(B)RepresentativefieldsofQIBCimagesafterMUS81depletionand treatmentwith4mMHUfor4hours.(C)QuantificationofnuclearγH2AX(left)orp53BP1(right)fluorescenceintensitybyQIBCin>1500S-phase cellsdepletedofMUS81(siMUS81)ordepletedwithacontrolsiRNA(siLUC)andeithertreatedornottreatedwith4mMfor4hours.ns:notsignificant (Mann–Whitneytest).(D)QuantificationofDSBsincellsdepletedofMUS81(siMUS81;blue)ordepletedwithacontrolsiRNA(siLUC;gray)by neutralcometassay.Barscorrespondtothemediantailmoment(%DNAintailxtaillength).Errorbarsrepresentstandarddeviationsfrom3 independentexperimentsinwhichatleast150cometswerescored.ns:notsignificant,(cid:3)(cid:3)(cid:3)p<0.001(Student’sTtest). https://doi.org/10.1371/journal.pgen.1007541.g002 functionduringSphase(S2AFig).Whereasdepletionofmostofthemhadnoeffectonthe amountofDSBs,depletionofeitherARTEMISorXPFsignificantlyinhibitedDSBformation after4hourstreatmentwithHU(Fig3A).Similarly,incellsdepletedofeitherArtemisorXPF (Fig3B),wesawlessp53BP1onchromatinofSphasecellsbyQIBCwheneitherARTEMISor XPFwasdepletedthanwesawincontrolcells4hours(Fig3C)butalsoonly1hourafterHU addition(S2BFig)orafteraphidicolintreatment(S2CFig).Consistentwithourfindingswith thedepletedRKOcells,primaryfibroblastsisolatedfrompatientssufferingfromRS-SCIDand deficientforARTEMIS(Guetelcells)[16]orfromasevereformofXerodermaPigmentosum anddeficientforXPF[17]whentreatedwithHUhadlessp53BP1inductionthanhadwild- typeprimaryfibroblastsisolatedfromhealthydonor(Fig3D).Importantly,wefoundthesame effectsofARTEMISorXPFdepletioninnon-transformedRPEcells(S2DFig).Interestingly, PLOSGenetics|https://doi.org/10.1371/journal.pgen.1007541 July30,2018 5/16 ArtemisandXPFmediateforkbreakage Fig3.ARTEMISandXPFareinvolvedinRRFB.(A)QuantificationbyneutralcometassayofDSBsinducedinresponsetotreatmentwith4mMHUfor 4hoursincontrolcells(siLUC)andincellsdepletedofoneofvariousendonucleases.Theplotshowsmeantailmoment(%DNAintailxtaillength). ErrorbarsrepresentSEMs.Atleast150cometswerescored.(cid:3)p<0.05,(cid:3)(cid:3)(cid:3)p<0.0001(Mann–Whitneytest).(B)Westernblotsofwholecellextractsof RKOcellsshowingdepletionofArtemis(siARTEMIS),XPF(siXPF)andboth(siXPF+ARTEMIS).(C)Quantificationofnuclearp53BP1fluorescence intensitybyQIBCin>1500S-phaseRKOcellsdepletedofXPFand/orARTEMISandeitheruntreated(NT)ortreatedwith4mMofHUfor4hours,as indicated.(cid:3)(cid:3)(cid:3)p<0.0001(Mann–Whitneytest).(D)Quantificationofnuclearp53BP1fluorescenceintensitybyQIBCinArtemis-deficientRS-SCID patientcells(Guetelcells)andinXPF-deficientXPpatientcells(XPfibroblastsgroupF)comparedtoWTprimaryfibroblasts.Meanfoldchangecompared tountreatedcellsisshown.Errorbarsrepresentstandarddeviationsfrom3independentexperiments.(cid:3)p<0.05(Student’sTtest).(E)Quantificationby neutralcometassayofDSBsinuntreatedRKOcells(NT)andincellstreatedwith4mMHUfor4hoursafterdepletionofXPFand/orARTEMIS,as indicated.Theplotshowsmeantailmoment(%DNAintailxtaillength).ErrorbarsrepresentSEMs.Atleast150cometswerescored.(cid:3)(cid:3)(cid:3)p<0.0001 (Mann–Whitneytest). https://doi.org/10.1371/journal.pgen.1007541.g003 weobservedcumulativeeffectonDSBandchromatinboundp53BP1whenbothendonucle- asesweredepleted(Fig3Cand3E),stronglysuggestingthatARTEMISandXPFfunction independentlytoproduceDSBunderDRS. TodeterminewhetherARTEMISandXPFactdirectlyatstalledDNAreplicationforks,we performediPOND,amethodologywhichallowsthepurificationoffork-associatedproteins. HereweusediPONDinnativeconditionwhichhasshowntoimprovecaptureefficiencyand thereforesensitivity[18].Aspreviouslyreported[13],weobservedlessPCNAatreplication forksofcellstreatedwithHUcomparetountreatedcells,presumablybecausePCNAis unloadedfromOkazakifragmentsduringHUtreatment.ConverselymoreRad51wasfound atthestalledreplicationforks(Fig4A).Moreover,wefoundmoreXPFinsamplesfromcells treatedwithHUthanincontrolcells,suggestingthatXPFisrecruitedtostalledforks.We wereunabletodetectARTEMISbythenative-iPONDmethodprobablybecausetheantibody PLOSGenetics|https://doi.org/10.1371/journal.pgen.1007541 July30,2018 6/16 ArtemisandXPFmediateforkbreakage Fig4.RegulationofARTEMISandXPFdependentRRFB.(A)Purificationoffork-associatedproteinsbynative- iPONDinresponsetoHU(4mM–4hours).NoClick,negativecontrol;Chase,chromatinbehindtheforks.(B) WesternblotsofthesolubleandinsolublefractionsofRKOcellseitheruntreated(-)ortreatedwith4mMHUfor4 hours(+).BargraphshowsImage-JquantificationsofARTEMISandRAD51bandsnormalizedtoORC2intensity. (C)QuantificationbyneutralcometassayofDSBsincontrolcells(siLUC)andincellsdepletedofARTEMIS (siARTEMIS)andtreatedornotfor4hourswith4mMofHUand/or2.5μMofDNA-PKinhibitor(NU7441).Theplot showsmeantailmoment(%DNAintailxtaillength).ErrorbarsrepresentSEMs.Atleast250cometswerescored. (cid:3)(cid:3)(cid:3)p<0.0001(Mann–Whitneytest).(D)Quantificationofnuclearp53BP1fluorescenceintensitybyQIBCin>1500 S-phaseRKOcellsdepletedofXPF,SLX4and/orERCC1andtreatedwith4mMofHUfor4hours.(cid:3)(cid:3)(cid:3)p<0.0001 (Mann–Whitneytest). https://doi.org/10.1371/journal.pgen.1007541.g004 wasoftoolowaffinityandiPONDcapturesverylowamountofproteinseveninnativecondi- tion.However,wewereabletodetectitafterfractionationoflargeamountofcells(Fig4B). WefoundthatARTEMISaccumulatesonchromatin(insolublefraction)intheHU-treated cells,consistentwiththeideathat,likeXPF,ARTEMISmayalsoberecruitedtostalledDNA replicationforks.Takentogether,thesedatasuggestthatArtemisandXPFarerecruitedto stalledforksuponDRStoperformRRFB.IthasbeenshownthatDNA-PKactivityisrequired foratleastsomeARTEMISfunctionssuchasVDJrecombination[19].Therefore,wetestedby neutralcometassayifinhibitionofDNA-PKcouldphenocopyARTEMISdepletionafterHU treatment.WefoundthatcellstreatedwithDNA-PKinhibitoraccumulateDSBevenin absenceofreplicationstress(Fig4C).Moreover,weobserveasharpinductionofDSBupon DNA-PKinhibitionandHUtreatment.However,ARTEMISdepletionwasstillabletoinhibit DSBformationinthiscondition.Thus,weconcludedthatARTEMISfunctioninRRFBdoes PLOSGenetics|https://doi.org/10.1371/journal.pgen.1007541 July30,2018 7/16 ArtemisandXPFmediateforkbreakage notrelyonDNA-PKactivity.Moreover,XPFassociatestoERCC1toformanactiveholoen- zymeandinteractswiththescaffoldingproteinSLX4whichhasbeenshowntoregulate XPF-ERCC1duringreplicationstress[20].Thus,weassessedthecontributionofERCC1and SLX4toXPFdependentRRFBbyQIBC(Fig4D).WefoundthatERCC1orSLX4depleted RKOcellsexhibitlesschromatinboundp53BP1afterHUtreatmentthancontrolcells.More- over,doubledepletionofXPFandERCC1orXPFandSLX4didnotyieldtofurtherreduction ofchromatinboundp53BP1comparedtosinglesiRNAtransfectedcellsindicatingthatXPF, ERCC1andSLX4areallworkinginthesameRRFBpathway. ARTEMIS—AndXPF-ERCC1-dependentRRFBsupportsreplicationfork restartandpreventsanaphasesegregationdefects ToinvestigatewhetherRRFBinducedbyDRSaffectsreplicationresumptionuponrelease fromHUtreatment,weusedDNAfiberanalysistomonitorforkrestart.ARTEMIS—orXPF- depletedcellsandcontrolcellswereincubatedwithIdUfor20minutestolabelongoingrepli- cationforksandweresubsequentlyexposedfor4hoursto4mMHU.Thecellswerethen incubatedwithoutHUinmediumcontainingCldUtolabeltherestartedforksfor40minutes, whichwassufficienttoobserverestartof65%oftheforksincontrolcells(Fig5A).Incells depletedofARTEMISorXPF,however,replicationforkrestartwassignificantlyimpaired and,conversely,theproportionofforksthatremainstalledwashigherthaninthecontrols (Fig5A).Thisobservationsuggeststhatsomebrokenforkscouldberapidlyrepairedtosup- portforkrestart.Therefore,wefollowedbothbyQIBCandcometassaythebehaviorofXPF andARTEMISdependentDSBsuponreleasefromaHUblock(Fig5BandS3AFig).Consis- tentwithourreplicationrestartdataincontrolcells,weobservedthatmostoftheDRS inducedDSBswererapidlyrepairedwithin30min.However,someDSBsremainedunrepaired foratleast2hourswhichmightexplainwhynotallthestalledforksareabletorestartevenin controlcells,asobservedbyDNAcombing. NextweusedQIBCtosortcontrolandARTEMIS—orXPF-depletedcellsstainedwith EdUintoearlySphase,middleSphase,andlateSphaseaccordingtotheirDNAcontent. Then,weanalyzedtheamountofp53BP1onchromatininthevariousSphasepopulations afterHUtreatment(Fig5C).Weobservedincreasingp53BP1onchromatinfromearlytolate Sphasecells,suggestingthatthenumberofbrokenforksincreasedascellsprogressedthrough Sphase.IncellsdepletedofARTEMISorXPF,weobservedoveralllessp53BP1ateachphase thaninthecontrolcells,suggestingthatARTEMISorXPFdependentforkcleavageisnot restrictedtoearly,midorlateSphase.Interestingly,wesawstrongp53BP1fluorescenceinten- sityalsointheG2phasecellsafterHUtreatment,showingthatDRSinducesDNAdamage evenwhenmostofthegenomeisalreadyduplicated.Moreover,thep53BP1fluorescenceinten- sitywassignificantlylessinG2phasecellswhenARTEMISorXPFweredepleted(Fig5C),sug- gestingthatARTEMIS—andXPF-dependentRRFBalsooccursinG2phase. AlthoughG2phasecellshaveessentiallycompletedDNAreplicationandsoshouldsynthe- sizerelativelylittleDNA,RRFBoccurstoalevelcomparabletoearlyandmiddleS-phase.This observationsuggeststhatDNAreplicationforksaremorepronetobreakagewhencells approachmitosis.WehypothesizedthatefficientRRFBduringG2couldsupportthecomple- tionofDNAreplicationbeforethecellsentermitosisandthereforepreventtheaccumulation ofunresolvedstructuresduringchromosomesegregation.Totestthishypothesis,wetreated EdUlabeledRKOcellswith2mMHUfor2hours,adoseandtimethatinducesasignificant numberofbrokenforks(Fig1A).WethenremovedtheHUfor6hourstoallowSphasecells toreachmitosiswherewequantifiedtheproportionoflaggingchromosomesandDNAbrid- ges(henceforthreferredassegregationdefects)inEdU-positivecells(Fig5D).Wefoundthat PLOSGenetics|https://doi.org/10.1371/journal.pgen.1007541 July30,2018 8/16 ArtemisandXPFmediateforkbreakage Fig5.ARTEMISandXPFpromoteefficientreplicationrestartandpreventchromosomesegregationdefects.(A)Schematicrepresentationof theDNAfiberassaywithimagesoftypicalrestartedorstalledforks(top).Meansandstandarddeviationsofthepercentagesofrestartedorstalled forkswerederivedfromthreeindependentexperiments.(cid:3)p<0.05,(cid:3)(cid:3)p<0.01(Student’sTtest).(B)RKOcellstreatedfor4hourswith4mMHU andreleasedintofreshmediafortheindicatedtimesweresubjectedtocometassaytoquantifyDSBs.Theplotshowsmeantailmoment(%DNA intailxtaillength).ErrorbarsrepresentSEMs.Atleast250cometswerescored.(cid:3)(cid:3)(cid:3)p<0.0001(Mann–Whitneytest).(C)Quantificationof nuclearp53BP1fluorescenceintensitybyQIBCin>7500cellsdepletedofArtemis(siARTEMISs)orXPF(siXPF)ortreatedwithacontrolsiRNA (siLUC)andtreatedwithwith4mMHUfor4hours.ThecellsweresortedintothefiveindicatedphasesofthecellcyclebasedontheirEdUand DAPIcontent.ns:notsignificant,(cid:3)(cid:3)(cid:3)p<0.0001(Mann–Whitneytest).(D)Schematicrepresentationoftheexperimentperformedtoquantify aberrantanaphasesincellstreatedwithHUandtypicalimagesofDNAbridgesandlaggingchromosomesinanaphasecells.(E)Quantificationof aberrantanaphasesinuntreated(NT)orHU-treatedcellsdepletedofARTEMISorXPF.Errorbarsrepresentstandarddeviationsfrom3 independentexperiments.(cid:3)p<0.05,(cid:3)(cid:3)p<0.01(Student’sTtest). https://doi.org/10.1371/journal.pgen.1007541.g005 PLOSGenetics|https://doi.org/10.1371/journal.pgen.1007541 July30,2018 9/16 ArtemisandXPFmediateforkbreakage thisshortDRSresultedinasubstantialincreaseofsegregationdefectsinthesecells.Impor- tantly,priordepletionofeitherARTEMISorXPFfromthecellsaggravatedtheincidenceof thesedefects(Fig5E).ToevaluatetheincidenceofRRFBoncellviabilitywetreatedRKOcells depletedofARTEMISorXPFfor4hourswith4mMHUandassessedcellularviabilityby MTSassay3dayslater.BecauseHUcouldonlyimpacttheviabilityofcellsthatareinS-phase, wealsoevaluatedtheircellcycledistributionbyFACS.Interestingly,whilemostoftherepli- catingcontrolcellswerekilledbythetreatment,wefoundthatARTEMISorXPFdepletion conferresistancetoHU(S3BFig)Overall,thesefindingsdemonstratethatRRFBisimportant tosupportefficientDNAreplicationinSandG2phaseandtopreventchromosomalinstabil- ityduringmitosis.HoweveriftheamountofreplicationstressistoohighRRFBcouldtrigger celldeath. Discussion Inthisstudy,wedescribeaphenomenoninwhichDNAreplicationforksthatstallinresponse toDRSarerapidlyconvertedintoDSBs,whichwerefertoasrapidreplicationforkbreakage (RRFB).Weidentifytwoendonucleases,ARTEMISandXPF-ERCC1thatpromoteRRFBat stalledreplicationforksduringSandG2phasesinresponsetoDRStoensureefficientDNA replicationandpreventmitoticsegregationdefects. Interestingly,apreviousstudyfoundthatDSBsareinducedpoorlyinArtemis-deficient cellsbyprolongedHUtreatment[21].Thismightbeexplainedbytheincapacityofthesecells tocleavestalledreplicationforksearlyon.Similarly,anotherstudyfoundthatdepletionofthe endonucleasescaffoldingproteinSLX4,whichinteractswithXPF-ERCC1,preventstheforma- tionofreplication-associatedDSBsafterlongHUtreatment(24hours)[20];theauthorssug- gestedthatthisfunctionofSLX4partiallyreliesonXPF-ERCC1butalsoSLX1endonucleases. Here,earlierafterDRSinductionweclearlyshowthatforkbreakageisdependenton XPF-ERCC1andSLX4butnotSLX1. WhywouldthecelldevelopamechanismofforkrescuethatinvolveDSBisunclear.Our datademonstratethatRRFBisusedtoresumeDNAreplicationatpersistentstalledforksto preventmitoticsegregationdefects.WeshowthatRRFBalsooccursathighfrequencyinG2 phasecellstreatedwithHU.Thus,wespeculatethatRRFBmightbeusedbythecellasthe finalattempttorescuestalledforks.Indeed,severalmechanismshavebeendescribedthathelp stalledforksresumeDNAreplication[22]andextensiveforkremodelingsuchasforkreversal hasbeenshowntooccuruponDRS[23].Interestingly,arecentstudyhasshownthat SAMHD1promotesdegradationofnascentDNAatstalledreplicationforksbystimulating theexonucleaseactivityofMRE11whichfacilitatesforkrestart.Whetherendo-andexo- nucleolyticactivitiesworkinconcertatstalledreplicationforksneedfurtherattention.Impor- tantly,theauthorsshowedthatexo-nucleolyticdegradationofnascentDNAatstalledforks inducesexpressionofpro-inflammatorytypeIinterferons.AsweobservedthatRRFBcould triggercelldeathwhenreplicationstressisexcessive,bothendoandexo-nucleolyticactivities couldrepresentnewmechanismstoclearproblematiccellswhichexperiencehighreplication stressfromthetissuesinordertopreventaccumulationofmutationsandtherefore tumorigenesis. HowRRFBfacilitatescompletionofDNAreplicationunderDRSisstillunclear.Arecent studysuggestedthatreplicationforkbreakagemightbemanagedbybreak-inducedreplication (BIR)duringSphaseinyeast[24].Thistemplateswitch-mediatedrepairmightcouplerepair ofthesingle-endedDSBinducedbyRRFBtocompletionofreplication.Itwouldalsoprovide arationaleforthecoexistenceofMus81andRRFBnucleases.Indeed,MUS81couldresolve theD-loopinducedbyBIRinordertolimitthemutagenicsynthesisofPOLD3[24].Recent PLOSGenetics|https://doi.org/10.1371/journal.pgen.1007541 July30,2018 10/16

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Bars correspond to the median tail moment (% DNA in tail x tail length). Costantino L, Sotiriou SK, Rantala JK, Magin S, Mladenov E, Helleday T,
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