RESEARCHARTICLE The Smc5/6 complex regulates the yeast Mph1 helicase at RNA-DNA hybrid-mediated DNA damage JuanLafuente-Barquero1☯,SarahLuke-Glaser2,3☯,MarcoGraf2☯,SoniaSilva1,4, Bele´nGo´mez-Gonza´lez1,AriannaLockhart2,MichaelLisby4,Andre´sAguilera1*, BrianLuke2,3,5* 1 AndalusianCenterforMolecularBiologyandRegenerativeMedicine-CABIMER,UniversidaddeSevilla- CSIC-UniversidadPablodeOlavide,Avda.AmericoVespucio24,Seville,Spain,2 InstituteofMolecular a1111111111 Biology(IMB),Mainz,Germany,3 Zentrumfu¨rMolekulareBiologiederUniversita¨tHeidelberg(ZMBH), a1111111111 DKFZ-ZMBHAlliance,Heidelberg,Germany,4 DepartmentofBiology,UniversityofCopenhagen,Ole a1111111111 Maaloeesvej5,CopenhagenN,Denmark,5 InstituteofNeurobiologyandDevelopmentalBiology,JGU a1111111111 Mainz,Mainz,Germany a1111111111 ☯Theseauthorscontributedequallytothiswork. *[email protected](BL);[email protected](AA) Abstract OPENACCESS Citation:Lafuente-BarqueroJ,Luke-GlaserS,Graf RNA-DNAhybridsarenaturallyoccurringobstaclesthatmustbeovercomebytheDNArep- M,SilvaS,Go´mez-Gonza´lezB,LockhartA,etal. (2017)TheSmc5/6complexregulatestheyeast licationmachinery.IntheabsenceofRNaseHenzymes,RNA-DNAhybridsaccumulate, Mph1helicaseatRNA-DNAhybrid-mediatedDNA resultinginreplicationstress,DNAdamageandcompromisedgenomicintegrity.Wedem- damage.PLoSGenet13(12):e1007136.https:// onstratethatMph1,theyeasthomologofFanconianemiaproteinM(FANCM),isrequired doi.org/10.1371/journal.pgen.1007136 forcellviabilityintheabsenceofRNaseHenzymes.TheintegrityoftheMph1helicase Editor:FrancescaStorici,GeorgiaInstituteof domainiscrucialtopreventtheaccumulationofRNA-DNAhybridsandRNA-DNAhybrid- Technology,UNITEDSTATES dependentDNAdamage,asdeterminedbyRad52foci.Mph1formsfociwhenRNA-DNA Received:April5,2017 hybridsaccumulate,e.g.inRNaseHorTHO-complexmutantsandatshorttelomeres. Accepted:November28,2017 Mph1,howeverisadouble-edgedsword,whoseactionathybridsmustberegulatedbythe Published:December27,2017 Smc5/6complex.Thisisunderlinedbytheobservationthatsimultaneousinactivationof RNaseH2andSmc5/6resultsinMph1-dependentsyntheticlethality,whichislikelydueto Copyright:©2017Lafuente-Barqueroetal.Thisis anopenaccessarticledistributedundertheterms anaccumulationoftoxicrecombinationintermediates.Thedatapresentedheresupporta oftheCreativeCommonsAttributionLicense, model,whereMph1’shelicaseactivityplaysacrucialroleinrespondingtopersistentRNA- whichpermitsunrestricteduse,distribution,and DNAhybrids. reproductioninanymedium,providedtheoriginal authorandsourcearecredited. DataAvailabilityStatement:Allrelevantdataare withinthepaperanditsSupportingInformation Authorsummary files. Funding:Thisworkwassupportedbygrantsfrom DNAdamagecaneitheroccurexogenouslythroughDNAdamagingagentssuchasUV theSpanishMinistryofEconomyand lightandexposuretochemotherapeutics,orendogenouslyviametabolic,cellularpro- Competitiveness(BFU2013-42918-P&BFU2016- cesses.TheRNAproductoftranscription,forexample,canengageintheformationof 75058-P),http://www.mineco.gob.es/portal/site/ RNA-DNAhybrids.SuchRNA-DNAhybridscanimpedereplicationforkprogression mineco;JuntadeAndaluc´ıa(BIO1238),http:// andcausegenomicinstability,ahallmarkofcancer.ThemisregulationofRNA-DNA www.juntadeandalucia.es/index.html;theEuropean ResearchCouncil(ERC2014AdG669898 hybridshasalsobeenimplicatedinseveralneurologicaldisorders.Recently,ithasbecome TARLOOP),https://erc.europa.eu;theDanish PLOSGenetics|https://doi.org/10.1371/journal.pgen.1007136 December27,2017 1/25 TheroleofMph1inconcertwithSmc5/6atRNA-DNAhybrids CouncilforIndependentResearch,http://ufm.dk/ en/research-and-innovation/councils-and- evidentthatRNA-DNAhybridsmayalsohavebeneficialrolesandtherefore,thesestruc- commissions/the-danish-council-for-independent- tureshavetobetightlycontrolled.WefoundthatMph1(mutatorphenotype1),thebud- research;theVillumFoundation,http:// dingyeasthomologofFanconiAnemiaproteinM,counteractstheaccumulationofRNA- veluxfoundations.dk/da;EuropeanResearch DNAhybrids.TheinactivationofMPH1resultsinaseveregrowthdefectwhencombined Council(ERCStG,no.242905);BMBF-GerontoSys withmutationsinthewell-characterizedRNaseHenzymes,thatdegradetheRNAmoiety IInetworkAGENET(FKZ0315898),https://www. bmbf.de;CancerTelSys(01ZX1302)intheE:med ofanRNA-DNAhybrid.Basedonthedatapresentedhere,weproposeamodel,where programoftheGermanFederalMinistryof Mph1itselfhastobekeptincheckbytheSMC(structuralmaintenanceofchromosome) EducationandResearch(BMBF),http://www.sys- 5/6complexatreplicationforksstalledbyRNA-DNAhybrids.Mph1actsasadouble- med.de/de/;InstitutoCarlosIII(SpanishMinistryof edgedsword,asbothitsdeletionandtheinabilitytocontrolitshelicaseactivitycause Health)toJLB;ScientificFoundationoftheSpanish DNAdamageandgrowtharrestwhenRNA-DNAhybridsaccumulate. AssociationAgainstCancertoBGG;Fundac¸ãopara aCiênciaeaTecnologiatoSS;EMBO/MarieCurie co-fundfellowshiptoSLG(ALTF9-2010),http:// www.embo.org/funding-awards/fellowships; EuropeanUnion(FEDER).Thefundershadnorole Introduction instudydesign,datacollectionandanalysis, decisiontopublish,orpreparationofthe RNA-DNAhybridscanformduringtranscriptionwhenthenascentRNAbasepairswiththe manuscript. templatestrandoftheDNA.Thisresultsina3-strandedstructure,referredtoasanR-loop [1,2].R-loopsleadtoDNAreplicationstressandhenceincreasedratesofDNAbreakage, Competinginterests:Theauthorshavedeclared thatnocompetinginterestsexist. unscheduledrecombination,andgenomerearrangements[3,4].ItisunclearexactlyhowR- loopscausereplicationstress,butitmaybelinkedtotheirabilitytopromotelocalchromatin compaction[5].R-loopscanberemovedbytheRNaseHenzymes(RNaseH1andRNaseH2), whichcandegradetheRNAmoietyofanRNA-DNAhybridmolecule.Inyeast,RNaseH1is encodedbytheRNH1gene,whiletheRNaseH2enzymeisatrimericcomplexmadeupofthe geneproductsofRNH201(thecatalyticsubunit),RNH202,andRNH203[6,7].Mutationsin allthreesubunitsofRNaseH2havebeenlinkedtotheneurologicalauto-immunedisorder, Aicardi-Goutièressyndrome(AGS)[8]. InadditiontoRNaseH-mediatedhybriddegradation,theTHOcomplexcounteracts theaccumulationofRNA-DNAhybrids.TheTHOcomplexisatranscription-coupledRNA processingcomplexthatlimitstheformationofRNA-DNAhybridsinaco-transcriptional manner[9]by“capturing”thenascentRNAandensuringthatitgetsefficientlyexported.Fur- thermore,multiplehelicaseshavebeenimplicatedinRNA-DNAhybridremovalviadisplace- mentoftheRNAstrand,includingyeastPif1[10]andSen1[11],humanSETX(theequivalent ofyeastSen1)[12],AQR[13],DDX19[14],DDX23[15],DDX1[16]andDDX21[17].When R-loopremovalfactorsareinactivated,manyDNArepairgenes(namelythoseinvolvedin homologousrecombination)becomeessential,underliningthepropensityofR-loopstopro- moteDNAdamageasaresultofreplicationstress[1,2].RNA-DNAhybridsexistattelomeres inyeastandhumancellsandpromotehomology-directedrepair[18–20]demonstratingtheir involvementintelomeremaintenance.Astelomeresshorten,RNA-DNAhybridsaccumulate togetherwithincreasedlevelsofthelongnon-codingRNA,telomericrepeat-containingRNA (TERRA)[21–25],suggestingthattelomericRNA-DNAhybridsaremadeupofTERRA. TherecentobservationsthattheFanconiAnemiarepairpathway,whichisinvolvedinthe repairofDNAinter-strandcrosslinksandobstaclesthatimpedereplicationforkprogression, iscrucialtodissolveR-loopsthatmayblockreplicationforksinhumancells[26,27]suggesta relevantroleofthisDNArepairpathwayinR-looppreventionandremoval.HumanFANCM hastheabilitytobranchmigratereplicationstructures,resolveRNA-DNAhybridsinvitroas wellastopreventRNA-DNAhybridaccumulationinvivoinhumanandchickencells[27]. AlthoughbuddingyeastcellslackacanonicalFanconiAnemiapathway,yeastMph1helicase standsoutasahomologoftheFANCMprotein[28].Invitro,Mph1isabletodissociateD- loopsandpromotereplicationforkreversal,similarlytoFANCM[29].Boththedeletionand PLOSGenetics|https://doi.org/10.1371/journal.pgen.1007136 December27,2017 2/25 TheroleofMph1inconcertwithSmc5/6atRNA-DNAhybrids overexpressionofyeastMph1areassociatedwithincreasedreplicationstressandgenome instability[30,31],respectivelyindicatingthatitsactivityisimportantwhenfacingreplication stress,butmustbetightlyregulatedinordertopreventtoxicity.Interestingly,thelossofMph1 hasbeenreportedtoleadtoasyntheticgrowthdefectintheabsenceofRNH203[32],pointing toapossibleroleforMph1inR-loopregulation. SeveralstudieshavereportedthattheSmc5/6complexisanegativeregulatorofMph1[33– 35].TwoSMCsubunits(Smc5andSmc6)and6non-SMCelementsformthishighlycon- servedcomplex,whichstructurallyresemblesthecohesin,condensinandtheMRNcomplexes [36].ThedeletionofMPH1isabletorescuethetemperaturesensitivegrowthdefectofsmc5/6 mutantallelesaswellastheaccumulationofX-shapedrecombinationintermediatesafter treatmentwithDNAdamagingagents[33–35].Interestingly,theinactivationoftheSmc5/6 complex[37,38],aswellasoverexpressionofMph1[39],havebeendemonstratedtodrive yeastintoprematurereplicativesenescence. Giventheobservationsoutlinedabove,wesetouttoinvestigatetheroleofMph1andits establishednegativeregulator,Smc5/6atRNA-DNAhybridsinvivointhebuddingyeastSac- charomycescerevisiae.Inthisstudy,weshowthatMph1formsnuclearfociwhenRNA-DNA hybridsaccumulate,i.e.inrnh1rnh201mutantsandatshorttelomeres.Wedemonstratethat Mph1,andinparticularitshelicasefunction,suppressestheaccumulationofRNA-DNA hybrids,atRNAPII-transcribedgenesaswellasattelomeres,andthatintheabsenceofMph1, cellsaccumulaterecombinogenicDNAdamageinanRNA-DNAhybrid-dependentmanner. Accordingly,Mph1becomesessentialwhenRNA-DNAhybridremovalisstronglyimpaired, asseenbytheseveregrowthdefectofthernh1rnh201mph1triplemutants.However,when thefunctionalityoftheSmc5/6complexiscompromised,Mph1’shelicaseactivitybecomes deleteriousinsituationswhenRNA-DNAhybridsaccumulate.WeproposethatMph1plays animportantroleinRNA-DNAhybridmetabolismandthatitsactivityhastobetightlycon- trolledbytheSmc5/6complex. Results Mph1preventstheaccumulationofhybrid-inducedRad52foci GiventheinvolvementofthehumanFanconiAnemiaMproteininpreventingR-loop-medi- ateddamageandRNA-DNAhybridaccumulationinvivo,wedecidedtoaddresswhether yeastcellsdeletedfortheFANCMhomologMPH1orothercandidatehelicasesimplicatedin DNArepairarealsoinvolvedinR-loopmetabolism.DeletionmutantsofSGS1,SRS2,MPH1, RRM3wereassayedfortheaccumulationofRad52foci,amarkerforDNArepairatsitesof damage.GenotypeswereconsideredasspecificallyaccumulatingRNA-DNAhybrid-induced damagewhentheincreasednumberofRad52fociwasabolisheduponRNaseH1overexpres- sion.ThedeletionoftheRNaseHenzymes(rnh1rnh201)andHPR1,amemberoftheTHO complex,whereR-loopaccumulationhasbeendemonstratedtoaccountforthemajorityof DNAdamage[9],servedaspositivecontrols.ItisworthnoticingthatRad52fociwerenot fullysuppressedinrnh1rnh2cells,whichsuggeststhathybridsnoteasilyaccessibletoRNase H1mayaccumulateinthesedoublemutants.Althoughallfoursinglegenemutantstestedled toasignificantincreaseinRad52focicomparedtowildtype,onlyMPH1deletedcellsshowed anRNaseH1-sensitiveincrease(Fig1A).Therefore,wefocusedonachievingamorecomplete understandingofMph1anditsroleatRNA-DNAhybrids.Toruleoutyeastgeneticback- groundspecificeffects,weconfirmedtheaccumulationofRad52fociinmph1mutantsinthe W303geneticbackground(Fig1B).Weperformedawesternblotonanendogenouslytagged Rad52strain(Rad52-TAP)withandwithoutRNaseH1overexpressiontoruleoutaneffecton Rad52proteinlevels(S1AFig).ThisindicatesthatMph1hasaroleinthepreventionof PLOSGenetics|https://doi.org/10.1371/journal.pgen.1007136 December27,2017 3/25 TheroleofMph1inconcertwithSmc5/6atRNA-DNAhybrids PLOSGenetics|https://doi.org/10.1371/journal.pgen.1007136 December27,2017 4/25 TheroleofMph1inconcertwithSmc5/6atRNA-DNAhybrids Fig1.Mph1helicasedomainpreventstheaccumulationofRad52foci,andisrequiredintheabsenceofRNaseH1and RNaseH2.A.QuantificationofspontaneousRad52-YFPfociformationinWTandcandidatemutanthelicasestrainsas wellasthedoublemutantrnh1rnh201(ySLG428)andtriplemutantrnh1rnh201mph1(ySLG611)(BY4741background). CellsweretransformedwithpWJ1314,thatcarriestheRad52-YFPfusion,andtheemptyplasmidpCM189(-RNH)or pCM189::RNH1(+RNH).AverageandSDofthreetosixindependentexperimentsareshown.B.Rad52-GFPfoci accumulationinWT(W303.1A)andmph1(WMPH.2B)mutantintheW303background,withandwithoutover- expressionofRNH.(cid:3)P<0.05;(cid:3)(cid:3)P<0.01;(cid:3)(cid:3)(cid:3)P<0.001;(cid:3)(cid:3)(cid:3)(cid:3)P<0.0001,(Student’st-test).Blueasterisksindicatesignificant differencescomparedtoWTandredasterisksindicatestatisticalsignificancebetween-/+RNHconditionsforeachmutant. AverageandSDofthreeindependentexperimentsareshown.C.Leftpanel:RepresentativeimageofMph1-GFPfoci accumulatinginrnh1rnh201mutants.Arrowheadsindicatefoci.Scalebar,3μm.RightPanel:Mph1-GFPfociwere quantifiedinexponentiallygrowingwildtype(ySLG636),rnh1(ySLG639),rnh201(ySLG640),andrnh201rnh1(ySLG642) cells(OD =0.3)at25˚C.CellsweredividedintobuddedcellsintheSorG2phaseofthecellcycleorintoun-budded, 600 G1-cells.Tworeplicatesof200–600cellswereexamined.Errorbarsindicate95%confidenceintervals.Significancerelative tothewildtypedeterminedbyFisher’sexacttest((cid:3)(cid:3)P<0.05).D.Theheterozygousdiploidstrain(ySLG605,BY4741 background)wassporulatedandmicromanipulatedontoYPDagarplatestogeneratehaploidoffspring.Sporeswere incubatedfor3daysat30˚Cbeforeimaging(leftpanel).E.yAL296wasarrestedinG1withα-factorandreleasedintoYPD mediaat25˚C.Proteinextractswerepreparedattheindicatedtimepoints(minutespostG1release)andsubjecttowestern blotting.F.yAL404wassporulatedanddissectedontoYPDmediaandimageswereacquiredfollowing3daysofincubation at30˚C.StrainsweregenotypedbyselectablemarkersandPCRtechniques.G.ThestatusofRad53phosphorylation(up- shift)wasanalyzedbywesternblottingwithanti-Rad53specificantibodies.Rnr3proteinlevelswereassessedbyprobing withananti-Rnr3antibody.Ponceaustainingservedasaloadingcontrol.H.Wildtype(WT)(top)andmph1rnh1rnh201 cells(bottom)weretransformedwithanMph1wildtypeexpressingplasmidorwithhelicase-defectiveMph1variants (E210QandQ603D).Serialdilutionswerespottedontoselectivemedia.Picturesweretakenaftergrowingcellsfor3daysat 30˚C. https://doi.org/10.1371/journal.pgen.1007136.g001 RNA-DNAhybridformationorinminimizingthedamageinducedbyRNA-DNAhybrids alreadyformed. InordertogetanindicationofwhetherMph1maybeactingdirectlyatRNA-DNAhybrids, wetestedwhetheritformsfociinmutantsthatareknowntoaccumulatehybrids.Weobserved anincreasedfrequencyofendogenouslyexpressedMph1-GFPfociinrnh1rnh201double mutantcells,wherehybridsaccumulatetohighlevels(Fig1C).Mph1-GFPfocispecifically accumulatedinrnh1rnh201doublemutantcellsintheS-orG2phaseofthecellcycleandnot inG1(Fig1C),suggestingthatMph1playsaroleatRNA-DNAhybridsduringDNAreplica- tiontopreventtheaccumulationofDNAdamage. MPH1isessentialintheabsenceofRNaseH1andRNaseH2 AsMph1formsfociwhenRNA-DNAhybridsaccumulate,wenextinvestigatedwhetherits functionbecomesessentialwhenknownRNA-DNAhybridregulatingfactorsareimpaired. Indeed,ithasbeenreportedthatthelossofMPH1leadstogrowthimpairmentintheabsence ofRNH203intheS288Cbackground[32].IntheBY4741andW303geneticbackgrounds,the mph1rnh1rnh201triplemutantswereeitherseverelygrowthcompromisedorcompletely inviable,respectively(Fig1DandS1BFig,fordetailedgrowthcurvesandpopulationdoubling timesseeS1CFig).InordertotestifthisessentialfunctionofMph1occursduringSphase,we createdanalleleofRNH1(S-RNH1)thatisspecificallyexpressedinSphase,byplacing RNH1-TAPundertheClb6promoterandfusingittoaClb6degronsequence[40](Fig1E, S1DFig).Comparedtothernh1rnh201mph1triplemutant,theexpressionofRnh1inSphase didnothaveagrowthdefectinrnh201mph1mutants(Fig1F).ConsistentwithMph1prevent- ingR-loop-induceddamage,theslowgrowthofthernh1rnh201mph1mutantswasassociated withaslightlyincreasedphosphorylationofRad53aswellasinducedexpressionofRNR3(Fig 1G),bothbeingestablishedmarkersforactivationoftheDNAdamagecheckpoint.Totest whetherMph1’shelicaseactivityisessentialtorestorethegrowthofrnh1rnh210mph1triple mutants,wereintroducedhelicase-compromisedMph1mutants,mph1-E210Qandmph1- Q603D[34],onaplasmidbyexpressingthemfromtheendogenousMPH1promoter. WhereaswildtypeMph1fullysuppressedthegrowthdefectandcheckpointactivation,neither PLOSGenetics|https://doi.org/10.1371/journal.pgen.1007136 December27,2017 5/25 TheroleofMph1inconcertwithSmc5/6atRNA-DNAhybrids ofthehelicasemutantswasabletorescuethesyntheticinteraction(Fig1HandS1EFig), despitebeingexpressedatsimilarlevels(S1FFig). AsRNaseH2activityiscapableofremovingsingleribonucleotidesthathavebeenmisin- corporatedintoDNAhelixbythereplicatingDNApolymerase[41,42],aswellasconsecutive RNA-DNAhybrids(i.e.thoseformedinanR-loop),wewantedtodetermineatwhichtypeof RNA-DNAhybridMph1wasfunctioning.Therefore,weemployedtheRNH201-P45D-Y219A mutant,whichisspecificallydefectiveinmono-ribonucleotideexcisionrepair(RER),butis proficientinremovinglongerhybridstretches(hereaftercalledRNH201-REDforribonucleo- tideexcisiondefective)[43,44].Wetransformedthisplasmidintothernh1rnh201mph1cells andobservedthatitsexpressioncomplementsthesyntheticgrowthdefecttothesameextent aswildtypeRNH201(S1GFig).Consistently,thecheckpointactivation,asmonitoredbyRnr3 expression,wasalsoalleviateduponexpressionofbothwildtypeRNH201andRNH201-RED (S1HFig).WeverifiedthattheRNH201-REDalleleisRER-defectiveinvivobydemonstrating thattheexpressionofthismutantcouldnotsuppressthehydroxyurea(HU)sensitivityof pol2M644Grnh201doublemutants,whichharborshighlevelsofmisincorporatedribonucleo- tides[45],whereaswildtypeRNH201wasabletocomplement(S1IFig).Insummary,these dataindicatethatMph1’shelicaseactivitybecomesessentialduringDNAreplicationwhen consecutiveRNA-DNAhybrids(suchasthosepresentinR-loops)accumulateandmaynotbe requiredatmisincorporatedribonucleotideinsertions. AsMph1’sactivityisrequiredinrnh1rnh201doublemutantswetestedwhetherMph1is alsoessentialinothermutantsthathavebeenreportedtoaccumulateRNA-DNAhybrids. UnlikethelossofbothRNaseH1andH2functions,wefoundthatdeletingMPH1doesnot resultingrowthimpairmentwheneitheroftheTHOcomponents,THP2(S2AFig)or HPR1,aredeleted(S2BFig),orincombinationwiththetemperature-sensitivesen1-1allele (S2CFig).Consistently,wealsodidnotseeevidenceofDNAdamagecheckpointactivation asshownbybothlackofdetectableRad53phosphorylationandRNR3induction,inmph1 hpr1doublemutantsintheBY4741background(S2DFig).Nonetheless,Mph1fociwere observedinhpr1mutantsandthesefociweresuppressedbyRNaseH1overexpression(S2E Fig),consistentwiththenotionthatMph1fociareenrichedatR-loops.Theseresultssug- gestthatMph1mayonlybecomeessentialwhenRNA-DNAhybridsreachveryhighlevels asinRNaseH-deficientdoublemutantcells(seeFig2Aright).Alternatively,Mph1maybe requiredtoactonasubsetofRNA-DNAhybridsthatisdistinctfromthoseaffectedbythe THOandSen1proteins. Mph1preventstheaccumulationofRNA-DNAhybrids Thecombinedresultsofthesyntheticgrowthdefectbetweenmph1andrnh1rnh201mutants togetherwiththefactthatRad52fociaccumulateinmph1cellsinanRNaseH1-sensitiveman- nerledustospeculatethatRNA-DNAhybridsmayaccumulateinmph1mutants.SinceR- loopsfrequentlyleadtohyper-recombination,wesoughttostudyrecombinationinthe absenceofMph1.Forthat,weusedpreviouslydeviseddirect-repeatrecombinationassays basedontwotruncatedcopiesoftheLEU2gene[46].UnlikemutantsoftheTHOcomplexor sen1-1mutants,whereR-loopsaccumulate,deletionofMPH1resultsinonlyconservative changes,ornochangesatall,inrecombination,dependingontheassayused(S3AFig,S3B Fig).Thesedata,togetherwiththeRNaseH-sensitiveincreaseofRad52foci(Fig1A)suggest thatintheabsenceoftheMph1helicaseactivity,thedamagecausedbyRNA-DNAhybridsis notefficientlyresolvedintodetectablerecombinationproductsandhenceresultsintheaccu- mulationofRad52foci. PLOSGenetics|https://doi.org/10.1371/journal.pgen.1007136 December27,2017 6/25 TheroleofMph1inconcertwithSmc5/6atRNA-DNAhybrids Fig2.AccumulationofRNA-DNAhybridsinmph1cellsdependonMph1’shelicasedomain.A.S9.6focidetectedbyindirectimmunofluorescenceon yeastchromosomespreadsinWT(W303.1A),mph1(WMPH1-2B),hpr1(HPBAR1-R)andrnh1rnh201(RNH-R)strainscarryingtheemptyplasmid pCM189(-RNH)orpCM189::RNH1(+RNH).Representativespreadsareshown,DNAisstainedinblue(DAPI),redfocirepresentRNA-DNAhybrids detectedbytheS9.6antibody.Scalebar=5μm(leftpanel).QuantificationofnucleicontainingS9.6fociisshown.DatarepresentmeanandSDofthreeto fourindependentexperimentsinwhich150–200nucleiwerecountedforeachreplicate.Statisticalanalysiswasperformedwiththetotalnumberofsignals foreachmutantwithrespecttoWTvalue(rightpanel).B.DRIPwithS9.6antibodyinWT(W303-1A),mph1(WMPH1-2B),mph1-Q603D(T597-1)and mph1-E210Q(T617)strainsinasynchronousculturestreated(+)ornot(-)invitrowithRNaseHintheGCN4andPDC1genes(leftandrightpanel respectively).DatarepresentmeanandSDoffourindependentexperiments.(cid:3)P<0.05;(cid:3)(cid:3)P<0.01;(cid:3)(cid:3)(cid:3)P<0.001(two-tailedStudent’st-test).Blackbar depictstheapproximateprimerbindingregionforamplificationoftherespectivelocus. https://doi.org/10.1371/journal.pgen.1007136.g002 ToassayforthepresenceofRNA-DNAhybrids,weperformedindirectimmunofluores- cenceonchromosomespreads.WedetectedanincreaseinthenumbercellswithS9.6fociin mph1mutantcells,indicatingincreasedlevelsofRNA-DNAhybrids(Fig2A).Cellscontaining morethan3foci,wereespeciallyprevalentwhenMPH1wasdeleted.hpr1andrnh1rnh201 cellsservedaspositivecontrols,wherehybridsareknowntoaccumulate(Fig2A,rightpanel). ToconfirmtheaccumulationofRNA-DNAhybridsinmph1mutantsweusedDNA-RNA PLOSGenetics|https://doi.org/10.1371/journal.pgen.1007136 December27,2017 7/25 TheroleofMph1inconcertwithSmc5/6atRNA-DNAhybrids Fig3.AccumulationofRNA-DNAhybridsinthetriplemutantmph1rnh1rnh201.DRIPwiththeS9.6antibodyinWT(yBL7),mph1(ySLG2),rnh1rnh201 (ySLG428)andmph1rnh1rnh201(ySLG611)strainsinasynchronousculturestreated(+)ornot(-)invitrowithRNaseHintheGCN4andPDC1genes(top,left andrightpanelsrespectively)andTEL06RandrDNA18Sloci(bottom,leftandrightpanelsrespectively).DatarepresentmeanandSDoffourindependent experiments.(cid:3)P<0.05;(cid:3)(cid:3)P<0.01;(cid:3)(cid:3)(cid:3)P<0.001(two-tailedStudent’st-test).Blackbardepictstheapproximateprimerbindingregionforamplificationofthe respectiveloci. https://doi.org/10.1371/journal.pgen.1007136.g003 immunoprecipitation(DRIP)topulldownRNA-DNAhybridsaspreviouslydescribed[26, 47].Inagreementwiththeimmunofluorescencedata(Fig2A),RNA-DNAhybridsaccumu- latedsignificantlywithintheproteincodinggenes,GCN4(Fig2B,leftpanel)andPDC1(right panel)inmph1mutants.TheRNA-DNAhybridssignalcouldbestronglyreduceduponin vitroRNaseH1treatment,therebydemonstratingthespecificityoftheDRIPsignal.Toinvesti- gatewhetherMph1’shelicaseactivityisneededtopreventtheaccumulationofRNA-DNA hybrids,wealsoperformedDRIPonhelicase-deadMph1mutants(mph1-E210Qandmph1- Q603D)[36],whichaccumulatedRNA-DNAhybridsattheGCN4(Fig2B,left)andthePDC1 (right)locisimilarlytothecompletedeletion. TobetterunderstandhowMph1isinvolvedinRNA-DNAhybridregulation,weexpanded ourDRIPanalysistotelomeres(telomere6R)andtherDNAloci(Fig3).Whereaslossof PLOSGenetics|https://doi.org/10.1371/journal.pgen.1007136 December27,2017 8/25 TheroleofMph1inconcertwithSmc5/6atRNA-DNAhybrids Mph1functiondidnotaffecthybridlevelsatthe18srDNAlocus,itledtoanincreaseattelo- mere6R,suggestingthatMph1mayactpreferentiallyatRNApolymeraseIItranscribedloci. WhenDRIPwasperformedinthemph1rnh1rnh2mutants(onlyviableinBY4741back- ground,Fig1),wedidnotobserveanyfurtherincreaseinRNA-DNAhybridswithrespectto thesinglemph1ordoublernh1rnh2mutants(Fig3).Asimilarepistasiswasobservedfor Rad52foci(Fig1A),suggestingthatMph1mayremoveRNA-DNAhybridsviaRNaseH. Mph1accumulatesatshorttelomeresinresponsetoincreasedTERRAand R-loops TheoverexpressionofMph1drasticallyincreasestherateofreplicativesenescenceincellshar- boringshorttelomeresfollowingthelossoftelomeraseactivity[39],implyingthatitmaybe functionallyrelevantattelomeres.Levelsofthenon-codingtelomericrepeat-containingRNA (TERRA)increaseastelomeresshorteninyeastandhumancells[22,23,48].Moreover, RNA-DNAhybrids(presumablyinvolvingTERRA)canbedetectedattelomeresandaccumu- lateintheabsenceoftheRNaseHenzymes[18–20,49].Weallowedwildtypeandtelomerase negative(tlc1)cellstoundergoapproximately60populationdoublingsand,asexpected, observedanincreaseinTERRAlevelsatalltestedtelomeres(Fig4A).UponperformingDRIP onwildtypeandtelomerasenegativecellstomonitorhybridlevels,weobservedanincreasein telomerichybridsdespitethefactthattheywereshorter(Fig4B).Importantly,inanindepen- dentexperiment,weobservedthattheoverexpressionofRNaseH1abolishedtheincreased DRIPsignalintlc1cells(S4AFig),demonstratingthespecificityoftheRNA-DNAhybridsig- nalshowninFig4B.ToverifythatMph1wasactingatshorttelomeresinanRNA-DNA hybriddependentmanner,wemonitoredMph1-YFPfociformationastelomeresshortenin telomerasenegativecells(est2).Importantly,weobservedthatMph1-YFPfociaccumulateas telomeresshorten(Fig4Cand4D).Atthepeakofsenescencemorethan50%ofMph1focico- localizewithCdc13(whichrepresentdysfunctionaltelomeres)andRad52foci,therebyindi- catingthattheyaccumulateatcriticallyshortanddysfunctionaltelomeres(Fig4C–4E)[50]. Importantly,Mph1’sabilitytoformfociwasgreatlyreducedwhenRNaseH1wasoverex- pressed(Fig4Cand4D).Strikingly,thenumberofCdc13fociwasalsodecreaseduponRNase Hoverexpression,suggestingthathybridsmaybeasourceofDNAdamageattelomeresupon shortening.ByChIPanalysiswecouldseethatlossoftheC-terminaldomainofMph1,which hasbeenshowntointeractwithRfa1andMte1[30,51],preventedMph1fromlocalizingto telomeresintelomerasepositivecells(S4BFig)indicatingthatMph1locationattelomeres maydependonitsinteractionwithreplicationproteinA(RPA).Takentogether,weconclude thatMph1accumulatesatshorttelomeres,inanRNA-DNAhybrid-dependentmanner. TheSmc5/6complexnegativelyregulatesMph1atRNA-DNAhybrids PreviousdataindicatesthattheSmc5/6complexisimportanttolimittheaccumulationof toxicrecombinationintermediatesinthepresenceofMMS(methylmethanesulfonate),andat naturalpausesites[34,35,52–54].Anegativegeneticinteractionbetweenthesmc6mutants andrnh201aswellasrnh202waspreviouslydescribedinahigh-throughputSGAscreen[55]. Furthermore,thereisampleevidencethattheSmc5/6complexisimportantfortheaccurate replicationoftherDNAlocus,arepetitivegenomicregionrichinRNA-DNAhybrids[56,57]. Basedontheseobservations,wehypothesizedthattheSmc5/6complexmightberequiredfor theaccurateprocessingofDNAreplicationintermediatesthatarisewhenRNA-DNAhybrids areencounteredbythereplisome.Totestthisnotion,weintroducedthesmc6-9andsmc5-6 temperaturesensitiveallelesintostrainsdefectiveforeitherRNaseH1(rnh1)orRNaseH2 (rnh201)activity,aswellasinrnh1rnh201doublemutants.TheabsenceofRNH201,butnot PLOSGenetics|https://doi.org/10.1371/journal.pgen.1007136 December27,2017 9/25 TheroleofMph1inconcertwithSmc5/6atRNA-DNAhybrids Fig4.Mph1formsfociattelomeresduringsenescence,whenRNA-DNAhybridsaccumulate.A.Bothwildtypeandtlc1cellswerederivedfromtheTLC1/tlc1 heterozygousdiploidyAL95andgrownforapproximately60populationdoublings(PD)beforeRNAwasextractedfromexponentiallygrowingcells.Followingreverse transcriptionwithatelomericsequence,TERRAlevelswereanalysedattheindicatedtelomeresviaqPCRwithsubtelomericspecificprimerpairs(seemethodsandS1 Tablefordetails).Threebiologicalreplicateswereusedforeachgenotype.Errorbarsindicate95%confidenceintervals.(cid:3)representssignificancerelativetowildtype determinedbyStudent’st-test(P<0.05).B.Bothwildtypeandtlc1cellsweregrownforapproximately60populationdoublings.ChIPwiththeS9.6antibodythat specificallyrecognizesRNA-DNAhybridsfollowedbyqPCR.Errorbarsrepresent95%confidenceintervals,(cid:3),significancerelativetowildtypeasdeterminedbya Student’st-test(P<0.05).C.Representativeimagesforsenescingcellsshowingco-localizationbetweenMph1-YFP,Rad52-yEmRFPandCdc13-CFP.Scalebar,3μm. QuantificationofMph1(D.)andCdc13-foci(E.).RNaseH1wasexpressedfromaplasmid(pBB39). https://doi.org/10.1371/journal.pgen.1007136.g004 RNH1,resultedinaseveregrowthdefect,wheneitherSMC6(Fig5A)orSMC5(S5AFig)func- tionwasreduced. Next,wetestedwhetherthedeletionofMPH1wouldrescuetheabovedescribedsynthetic growthdefectbetweensmc5/6mutantsandrnh201.Weobservedthatgrowthdefectsofboth smc6-9rnh201andsmc5-6rnh201cellswerealleviatedintheabsenceofMPH1(Fig5B,and S5BFig).Inaccordancewiththesyntheticgrowthdefectoccurringasaresultofreplication stress,weobservedthatsmc6-9rnh201culturesaccumulatedcellswitha2NDNAcontentin comparisontobothwildtypeandtherespectivesinglemutants(S5CFig).Importantly,the PLOSGenetics|https://doi.org/10.1371/journal.pgen.1007136 December27,2017 10/25