RESEARCHARTICLE DNA strand breaks and TDP-43 mislocation G93A are absent in the murine hSOD1 model of amyotrophic lateral sclerosis in vivo and in vitro DianePenndorf☯,VedranaTadić☯,OttoW.Witte,JulianGrosskreutz‡,AlexandraKretz‡* HansBergerDepartmentofNeurology,JenaUniversityHospital,Jena,Thuringia,Germany a1111111111 ☯Theseauthorscontributedequallytothiswork. a1111111111 ‡Theseauthorsalsocontributedequallytothiswork. a1111111111 *[email protected] a1111111111 a1111111111 Abstract MutationsinthehumanCu/Znsuperoxidedismutasetype-1(hSOD1)genearecommonin familialamyotrophiclateralsclerosis(fALS).Thepathophysiologyhasbeenlinkedto,e.g., OPENACCESS organelledysfunction,RNAmetabolismandoxidativeDNAdamageconferredbySOD1 Citation:PenndorfD,TadićV,WitteOW, malfunction.However,apartfrommetabolicallyevokedDNAoxidation,itisunclearwhether GrosskreutzJ,KretzA(2017)DNAstrandbreaks andTDP-43mislocationareabsentinthemurine severegenotoxicityincludingDNAsingle-strandbreaks(SSBs)anddouble-strandbreaks hSOD1G93Amodelofamyotrophiclateralsclerosis (DSBs),originatesfromlossoffunctionofnuclearSOD1enzyme.Factorsthatendoge- invivoandinvitro.PLoSONE12(8):e0183684. nouslyinterferewithDNAintegrityandrepaircomplexesinhSOD1-mediatedfALSremain https://doi.org/10.1371/journal.pone.0183684 similarlyunexplored.Inthisregard,uncontrolledactivationoftransposableelements(TEs) Editor:EmanueleBuratti,InternationalCentrefor mightcontributetoDNAdisintegrationandneurodegeneration.Theaimofthisstudywasto GeneticEngineeringandBiotechnology,ITALY elucidatetheroleofthefALS-causinghSOD1G93AmutationinthegenerationofsevereDNA Received:June2,2017 damagebeyondwell-characterizedDNAbaseoxidation.Therefore,DNAdamagewas Accepted:August9,2017 assessedinspinaltissueofhSOD1G93A-overexpressingmiceandincorrespondingmotor Published:August23,2017 neuron-enrichedcellculturesinvitro.OverexpressionofthehSOD1G93Alocusdidnot changethethresholdforsevereDNAdamageperse.WefoundthatlevelsofSSBsand Copyright:©2017Penndorfetal.Thisisanopen accessarticledistributedunderthetermsofthe DSBswereunalteredbetweenhSOD1G93Aandcontrolconditions,asdemonstratedinpost- CreativeCommonsAttributionLicense,which mitoticmotorneuronsandinastrocytessusceptibletoreplication-dependentDNAbreak- permitsunrestricteduse,distribution,and age.Analogously,parametersindicativeofDNAdamageresponseprocesseswerenotacti- reproductioninanymedium,providedtheoriginal authorandsourcearecredited. vatedinvivoorinvitro.Evidenceforamutation-relatedelevationinTEactivationwasnot detected,inaccordancewiththeabsenceofTARDNAbindingprotein43(TDP-43)protei- DataAvailabilityStatement:Allrelevantdataare withinthepaperanditsSupportingInformation nopathyintermsofcytoplasmicmislocationornuclearloss,asnuclearTDP-43issupposed files. tosilenceTEsphysiologically.Conclusively,thesuperoxidedismutasefunctionofSOD1 Funding:ThisworkwassupportedbytheMinistry mightnotberequiredtopreserveDNAintegrityinmotorneurons,atleastwhenthefunction forEconomics,SciencesandDigitalSocietyof ofTDP-43isunaltered.Ourdataestablishafoundationforfurtherinvestigationsaddressing Thuringia(TMWWDG),intheframeworkofthe functionalTDP-43interactionwithALS-relevantgeneticmutations. ProExcellenceInitiativeRegenerAging (RegenerAging-FSU-I-03/14toAK),andbythe InterdisciplinaryCenterforClinicalResearch(IZKF) Jena(ProjectFF01toAK).JGreceivedfunding fromaBMBF(theBundesministeriumfu¨rBildung PLOSONE|https://doi.org/10.1371/journal.pone.0183684 August23,2017 1/22 DNAdamageinthehSOD1G93AmousemodelofALS undForschung)grantintheframeworkoftheE- Introduction RAREprogram(PYRAMID),JPND(OnWebDUALS Amyotrophiclateralsclerosis(ALS)representsthemostfrequentlethaldisorderofthemotor andSOPHIA)oftheEuropeanUnionandthe GermanAssociationforNeuromuscularDiseases systemandischaracterizedbyarelentlessandprogressivelossofupperandlowermotorneu- (DGMe.V.).Thefundershadnoroleinstudy rons(MNs)ofthemotorcortex,brainstemandMNsofthespinalcord.Theprovenanceis design,datacollectionandanalysis,decisionto complexandyetuntargetedbyefficienttherapeuticstrategies.Clinically,devastatingsymp- publish,orpreparationofthemanuscript. tomsmanifestwithprogressivespasticandatrophicparalysis,impairmentsinspeechand Competinginterests:Theauthorshavedeclared swallowingandfinallyleadtorespiratoryfailure3–5yearsaftertheonset[1].Amongthe thatnocompetinginterestsexist. approximately20causativegenelociandabout30disease-modifyinggeneticfactorsidentified todate[2],numerousmutationsinthehumanCu/Znsuperoxidedismutase1(hSOD1)gene areaccountingforapproximately20%offamilialALS(fALS)and1–2%ofsporadicALS (sALS)cases[1,2].SOD1mutationsinvolvingallfiveexonsarepredominantlysingle-base- pairsubstitutions,whicharecommonlylinkedtoanaggressivecoursewithrapidclinicaldete- rioration,includingthosevariantsimplicatingap.G93Amutation[2].Thoughdiseasepatho- genesisgenerallyimplicatescellular,molecularandmetabolicalterations,theunderlying etiologyisstilldebated.Likewise,theroleofsevereDNAdamageandendogenousDNArepair strategiesinALSinitiationandprogressionareill-defined.Thistopicimpliesanotablerolefor ventralhornspinalMNs,theneuronalpopulationthatismostafflictedinthediseasepathol- ogy,whichmustcopewithnumerousDNAdamagingagents,suchasoxidizingmolecules,in casesofbothfALSandsALS[3,4].Reactiveoxygenspecies(ROS)areamongthemostcrucial noxiousmetabolitesimpactingMNsduetotheirimmenseenergeticrequirementsandmeta- bolicturnover.IntracellularROSconcentrationsareincreasedinhSOD1-dependentfALSand maycontributeconsiderablytogenomicinstability[5,6].ROSpreferentiallytargetDNAbases orsugarresidues,resultinginDNAsingle-strandbreaks(SSBs).Theycanalsoinducethefor- mationofDNAdouble-strandbreaks(DSBs),e.g.,ifthetranscriptionapparatusisaffectedat locationswhereROS-mediatedlesionseventuateinanarrowsequence. AccountingforthetoxicgainoffunctionassumedtooriginatefrommutanthSOD1 togetherwithalossoffunctionofnaïveSOD1enzymeinthenucleus[7],clinicalseverity mightthusarisefromoxidativestress-inducedsevereDNAdamage.ThismayincludeDNA SSBsandDSBs,inparticulariftheyfailtobecomerepaired,orremainmis-repaired.Inaccor- dancewiththisnotion,thelevelsof8-hydroxy-deoxyguanosine,amarkerofoxidativeDNA demise,areincreasedinspinalcordofsALSandfALSpatients[8].Likewise,DNAdamageis risingduringROSexposureinculturedNSC34cellscarryingahSOD1G93Amutationcom- paredwithwildtypetransfectants[7].However,whetherthismutationcausesapredisposition toDNAstrandbreaksunderALS-likeconditionsinvivo,apartfromartificiallyhighROSlev- els,hasremainedunexplored. AsidefromROS-inducedDNAdamage,theroleofendogenouslygeneratedDNAdemise inhSOD1-mediatedfALS,inparticularinnon-dividingMNslackingreplicationstressasa considerablephysiologicalsourceofDNAbreakagehasbeensimilarlyuninvestigated.Uncon- trolledactivationoftransposableelements(TEs)andtheirprogressivede-repressionarethus discussedascriticallyinvolvedinDNAdamageandcentralnervoussystem(CNS)neurode- generation[9–11].ThereareindicationsofacontributionofcertainTEstothepathologyof ALS,atleastinsporadiccases[12].However,whetherTEactivationisimplicatedinhSOD1- relatedMNdegenerationhasremainedanopenquestion.TEsrepresentrepetitiveDNAele- mentsthataccountforapproximately30%-50%ofthemammaliangenome[13].Theyare activelymobilewithintheDNAstrandandexhibitthehighestactivationinneuronaltissue, forreasonsthatstillhavetobedefined[14,15].GenomicTEintegrationiscapableofdisturb- inggenefunctionandcausingDNAstrandbreaks[16]ifnotproperlyprohibited,e.g.,byTE DNAmethylation,histonemodificationsandpost-transcriptionalsilencing[9].Regardingthe PLOSONE|https://doi.org/10.1371/journal.pone.0183684 August23,2017 2/22 DNAdamageinthehSOD1G93AmousemodelofALS latter,thereisevidencethatnucleartransactiveresponseDNA-bindingprotein43(TDP-43) targetsTE-derivedtranscriptsandthusplaysaphysiologicalroleinsilencingTEtransposition [10].Pathologicalalterations,e.g.,nuclear-to-cytoplasmictranslocations,oftheRNA/DNA- bindingproteinTDP-43areawell-acceptedhallmarkofbothfALSandsALS[17].However, asoneexceptionalentity,hSOD1-relatedfALSisassumedtobedevoidofcytoplasmicTDP-43 aggregation[17].Intheabsenceofacytoplasmicproteinopathy,anuclearlossofTDP-43 mightcriticallyimpairitssuppressorfunctionontheactivationofTEmoieties.Todate,itis unknownwhetherTDP-43stabilizationofDNAintegrityisalteredinMNscarryingahSOD1 mutationinspiteoftheputativeabsenceofaTDP-43mislocationorwhethertheextentofthe hSOD1mutationimpactsongenomicintegrityingeneral. Hence,theaimofthisstudywastoelucidatetheroleoftherapidlyprogressivefALS-caus- ingp.G93AhSOD1mutationinthegenerationofsevereDNAdamage.Toallowanin-depth evaluationbeyondwell-characterizedDNAbaseoxidation,e.g.,causedbyROSoverload, DNASSBandDSBeventswereexaminedinthehSOD1G93Amurinemodelinvivoasafunc- tionofthediseasestage,aswellasinMNsinvitro.ApartfromoverallDNAdamage,the occurrenceofDNAbreakagewasspecifiedfornon-replicativeMNsanddividingastrocytesin MN-enrichedcellcultureswithrespecttothehSOD1G93Amutation.Moreover,theDNAinteg- rityandDNAdamageresponse(DDR)wereassessedinlightoftheDNA-stabilizingfunction ofnuclearTDP-43,mediatedbyitsinteractionwithTEtranscripts,particularlyinspinalMNs. Despiteitswell-establishedtoxicgainoffunctiononSOD1enzymeactivity,ourresults indicatethatthep.G93AmutationatthehSOD1locusdoesnotchangethethresholdforsevere DNASSBsorDSBsperse,atleastwhenassessedinamurinecontext.Thiswasdemonstrated inpost-mitoticMNsandinastrocytessusceptibletoreplication-dependentDNAbreakage. Analogously,parametersindicativeofDDRprocesseswerenotactivatedinvivoorinvitro. TheabsenceofTDP-43proteinopathyintermsofcytoplasmicmislocationornuclearlossin thehSOD1G93Amodel,irrespectiveofthediseasestage,mightunderscoretheroleofTDP-43 inDNAstabilization.ConsistentwiththelackofTDP-43decompartmentalizationandnuclear loss,wedidnotobtainevidenceofelevatedTEactivationduringtheseverediseasestage. WeconcludethatthesuperoxidedismutasefunctionofSOD1mightnotberequiredtopre- serveDNAintegrityinMNs,atleastwhenthefunctionofTDP-43isunaltered.Ourdata mightestablishthefoundationforfurtherinvestigationsaddressingtheinteractionofthe DNAstabilizingfunctionofTDP-43withALS-relevantgeneticmutations. Materialsandmethods Mice TransgenicmiceoverexpressingmutanthSOD1G93A(B6.Cg-Tg(SOD1(cid:3)G93A)1Gur/J;Jackson Laboratory,BarHarbor,ME,USA;stocknumber004435)wereusedtomimicALS-likecondi- tions[18]priortoandaftertheonsetofdisease-relatedsymptoms.Thediseasestagewas assessedbyageinparallelwithaclinicalscoreasdetailedinS1Tableincludingthedefinition ofhumaneendpoints.Clinicalstatewasexaminedatleastweekly.Asassessedfromathree- yearscharacterizationofapproximately200malehSOD1G93Amiceinourfacility,theonsetof diseasemanifestationbyhindlimbparesisoccurredatanaverageageof18.8±0.1weeks.In thisstudy,exclusivelymaleanimalswereincludedanddesignatedas‘diseased’assoonasa clinicalscoreof1–2wasreached,usuallyoccurringatanageof19–23weeks.Presymptomatic micewerephenotypicallynormalandwereincludedat8–9weeksofage.Sincetheywerebred onanidenticalbackground,11-13-week-oldmaleC57BL/6Jmiceservedascontrols.Forin vitroexperiments,B6.Cg-Tg(SOD1(cid:3)G93A)1Gur/Jtransgenicandnon-transgenicembryosat E13wereusedascelldonors.GenotypingwasperformedbygenomicPCRimmediatelybefore PLOSONE|https://doi.org/10.1371/journal.pone.0183684 August23,2017 3/22 DNAdamageinthehSOD1G93AmousemodelofALS cellplating.ConditionsofcellreplicationandimpairedDNArepairweregainedinbraintis- suefromadultNOD.CB17-Prkdcscid/NCrHsdmicedisplayingdefectiveDDRresponsesand repairofDSBs,withorwithoutfronto-corticalxenograftingofhighlyproliferativeLN229 humanglioblastomacells(kindlyprovidedbyJ.Walter,DepartmentofNeurosurgeries,Jena UniversityHospital).Micewerehousedandmatedunderstandardized,pathogen-freecondi- tionswithunlimitedaccesstostandarddietandwaterandexposedtoa14/10-hourslight/dark cycle.AllanimalinterventionswereconductedincompliancewiththeDirectivesofthePro- tectionofAnimalsActandwereapprovedbytheanimalwelfareauthoritiesofThuringia (accreditationnumber:02-046/14). Cometassay AdultmicedeeplyanesthetizedwithvaporizedIsoflurane(IsolfuraneCP1,CPPharma,Burg- dorf,NI,Germany)inaspecializedchamberweretranscardiallyperfusedwithice-coldPBS anddecapitated.Topreparesinglecellsuspensions,thecervicalandthoracicspinalcordswere micro-dissectedandincubatedincalcium-freeHibernate1A(BrainBitsLLC,Springfield,IL, USA)supplementedwith0.5mMGlutaMAX™(Gibco™/ThermoFisherScientific,Waltham, ME,USA),0.132MD-(+)-trehalosedihydrate(Sigma-Aldrich,Munich,BY,Germany),310 U/mlDNaseI(Sigma-Aldrich)and1mg/mlcollagenasetypeIA(Sigma-Aldrich)for30min at37˚Cundergentleagitation.Theworkingsolutionwasthenreplacedwithasolutioncon- taining2mg/mlpapain(Worthington,Lakewood,NJ,USA)insteadofcollagenase.Celldis- seminatesweremaintainedat37˚Cfor30minunderrepeatedtriturationusingafire-polished Pasteurpipettetoobtainasinglecellsuspension.Enzymaticdigestionwithpapainwasfinally blockedbytheadditionofice-cold0.1%ovomucoid(Sigma-Aldrich)inHibernate1Awork- ingsolution,inwhichtheenzymeswerereplacedwith0.1%BSA(Serva,Heidelberg,BW,Ger- many).ThissuspensionwassequentiallypassedthroughFalcon™cellstrainerswithamesh sizeof100μmand40μm(ThermoFisherScientific,Waltham,ME,USA)beforebeingcentri- fugedat500xgfor5min.Asapositivecontrol,corticalcellsfromtheNOD.CB17-Prkdcscid/ NCrHsdstraindevoidofLN229xenograftswereused.Thecellpelletwasresuspendedinice- coldPBSanddilutedtoafinalconcentrationof100,000cells/ml.Thecometassaywasper- formedusingtheOxiSelect™CometAssayKit(3-wellslides;CellBiolabs,SanDiego,CA, USA),andallstepswereperformedaccordingtothemanufacturer’smanual.Briefly,the dilutedsinglecellsuspensionwasmixedata1:10ratiowithOxiSelect™Cometagarose,plated onpre-coatedslidesandincubatedfor15minat4˚C.Allstepspriortosinglecellgelelectro- phoresiswereperformedinthedarktoavoidadditionalUVlight-inducedDNAdamage.For celllysisandDNAunwinding,theslidesweretransferredto4˚Cconditions,incubatedinlysis bufferfor50minandthenimmersedinalkalinesolutionfor30min.TodetectbothDNA SSBsandDSBs,singlecellgelelectrophoresiswasperformedunderalkalineconditions(15V, 300mA,30min).Theslideswererinsedinwater,dehydratedin70%ethanolfor5minand thenstainedwith1xVistaGreenDNA-dyesolutionfor15min.Randomimagesofatleast60 cometsoutofapproximately2,250cellsdistributedamong3separatedwellsperanimalwere obtainedusinganAxioplan2Imagingmicroscope(20xairobjective;Zeiss,Oberkochen,BW, Germany)coupledtoanAxioCamHRccamera(Zeiss).Forsemi-automatedcometanalysis, theCASPsoftwarewasemployed[19].Forcometscoring,thefeatures‘PercentofTailDNA’ (%TailDNA),whichrepresentstherelativetailintensity,andthe‘TailMoment’wereselected ascomparativeparameters.The‘TailMoment’providesinformationonthelengthofthe comettail,whichismultipliedwiththe%TailDNA.Althoughthe‘TailMoment’isfrequently used,theapplicationof%TailDNAbearstheadvantagethatitislinearlycorrelatedwiththe breakfrequencyandallowsforavisualcometscoringgradationasdescribedbyCollins(2004) PLOSONE|https://doi.org/10.1371/journal.pone.0183684 August23,2017 4/22 DNAdamageinthehSOD1G93AmousemodelofALS [20].Basedonthisvisualcometscoringalgorithm,cometswereclassifiedbytheir%TailDNA accordingtothefollowingcategories:category0,0–20%TailDNA;category1,20–40% TailDNA;category2,40–60%TailDNA;category3,60–80%TailDNA;andcategory4,80– 100%TailDNA.Intotal,cometsfrom3animalspergroupwereinvestigated. Motorneuron-enrichedcellculture Pregnantmiceweresacrificedbycervicaldislocationwithsubsequentdecapitation.MNs derivedfromspinalcordsofE13mouseembryoswereculturedonanastrocyticfeederlayeras previouslydescribed[21,22].Briefly,spinalcordsoftransgenicandnon-transgenicembryos weredissected,cutintopiecesandpooledinHBSS(Gibco™/ThermoFisherScientific)contain- ing1%penicillin-streptomycin(Gibco™/ThermoFisherScientific)and1MHEPES(Roth, Karlsruhe,BW,Germany),accordingtothegenotype.Thetissuewasdigestedin0.1%trypsin inHBSSfor15minat37˚Candtrituratedwithafire-polishedPasteurpipettesubsequentto DNase(AppliChem,Darmstadt,HE,Germany)treatmenttoobtainasinglecellsolution.The MNsandglialcellswereseparatedbycentrifugationina6.2%OptiPrepdensitygradientsolu- tion(Axis-Shield/AlereTechnologiesAS,Oslo,Norway)dilutedinL-15medium(Sigma- Aldrich).Separatedastrocytes(50,000cells/coverslip)wereseededonpoly-D-lysinehydrobro- mide(Sigma-Aldrich)-coated12-mmcoverslips(MarienfeldGmbH&Co.KG,Lauda-Ko¨nig- shofen,BW,Germany)tocreateafeedermonolayer.Duringthefirstweek,theastrocytic feederlayermediumwascomposedofL-glutamine-freeDMEM/Ham’sF-12medium (Gibco™/ThermoFisherScientific)ata1:1ratiosupplementedwith1%penicillin-streptomy- cinand10%fetalcalfserum(PANBiotech,Aidenbach,BY,Germany).Thefetalcalfserum wasthenreplacedwithequalamountsofhorseserum.Afterconfluencewasreached,astro- cyticcelldivisionwasblockedbyadditionof5μM1-β-D-Arabinofuranosylcytosine(Calbio- chem1/MerckChemicals,Darmstadt,HE,Germany),whichwasremovedbywashingafter24 h.MNs(15,000–30,000cells/coverslip)wereseededonthepreparedfeedermonolayerofthe matchinggenotype.MNsweregrownfor14DIVinL-glutamine-freeNeurobasalmedium (Gibco™/ThermoFisherScientific)supplementedwith2%50xB271Supplement(Gibco™/ ThermoFisherScientific),0.2%100xN-2Supplement(Gibco™/ThermoFisherScientific),1 mML-glutamine(Gibco™/ThermoFisherScientific),2%horseserum(Gibco™/ThermoFisher Scientific),1%penicillin-streptomycinand2ng/mlhumanrecombinantBDNF(PeproTech, RockyHill,NJ,USA).Forallculturingsteps,the5%-CO -humidifiedincubatorwassetat 2 37˚C. Immunofluorescence AdultmiceweredeeplyanesthetizedwithvaporizedIsofluraneinaspecializedchamber,trans- cardiallyperfusedwithice-coldPBSandwithfreshlyprepared0.1Msodiumcacodylatetrihy- drate(Sigma-Aldrich)buffercontaining4%PFA(pH7.3)andsubsequentlydecapitated.The cervicalspinalcordsweremicro-dissectedandkeptovernightintheperfusionsolutionat4˚C forpost-fixation.Theywerethencryoprotectedin15%sucrose(Roth)for48hat4˚Candfro- zenin2-methylbutane.Tissuesliceswerecut(25μmforcervicalspinalcord;16μmforbrain) withacryotome(LeicaBiosystems,Wetzlar,HE,Germany),driedat37˚Candsubjectedtoan antigenretrievalstepbyincubatingthetissueslicesin10mMsodiumcitratedihydrate (Sigma-Aldrich)buffer(pH9.0)at80˚Cfor30minorincubatingtheMN-enrichedculturesin 1%SDS(Serva)inPBSfor10minsubsequenttocellfixationin4%PFA/PBSfor20min.Non- specificepitopebindingwasblockedbyincubationin10%NDS(MerckChemicals)orNGS (Gibco™/ThermoFisherScientific)in3%BSA/PBScontainingpermeabilizing0.3%TritonX- 100foratleast2h. PLOSONE|https://doi.org/10.1371/journal.pone.0183684 August23,2017 5/22 DNAdamageinthehSOD1G93AmousemodelofALS Primaryantibodiescomprisedmouseanti-SMI32(1:500intissue,1:1,000inMNculture; monoclonal;Covance,Princeton,NJ,USA,RRID:AB_2564642)asaMNmarkerandrabbit anti-βIII-tubulin(1:200intissue,1:250inMNculture;polyclonal;Sigma-Aldrich,RRID: AB_262133)asageneralneuronalmarker.Apolyclonalrabbitanti-TDP-43wasusedinvivo andinvitro(1:1,000intissue,1:100inMNculture;polyclonal;AcrisAntibodies,Herford, NW,Germany,RRID:AB_615042).Rabbitanti-53BP1(1:1,000intissue,1:8,000inMNcul- ture;polyclonal;Abcam,Cambridge,ENG,UK,RRID:AB_722497)andrabbitanti-γH2AX (1:500inMNculture;polyclonal;Abcam,RRID:AB_303388)weretakenasindicatorsof DSBs.Mouseanti-PCNA(1:500intissue,1:100inMNculture;monoclonal;Covance,RRID: AB_663239)servedasamarkerforcellreplicationandDNArepair.Primaryantibodieswere dilutedin2%NDSorNGS/PBSin3%BSAcontaining0.3%TritonX-100.Tissuespecimens andMN-enrichedcellcultureswereincubatedwithprimaryantibodysolutionfor2nightsat 4˚C.AfterwashinginPBS,thesampleswerekeptinthedarkandincubatedintheappropriate secondaryantibodysolutionfor2h.Afterawashingstep,thecellnucleiwerecounterstained with40,6-Diamidino-2-phenylindoledihydrochloride(DAPI;Sigma-Aldrich)for5min, washedagainwithPBSandmountedwithFluoromount-G(SouthernBiotech,Birmingham, AL,USA). Foranalyses,thesampleswereimagedasz-stacksusingconfocallaserscanningmicroscopy (LSM710;Zeiss)with40xand63ximmersionoilobjectivesforthetissuespecimensandthe MNcultures,respectively.Forthecervicalspinalcordspecimens,thefocuswassetontheven- tralhorn,whichwasidentifiedaccordingtoitstypicalmorphology.Forimageprocessing, includingadjustmentsofgammasettings,ZEN2012software(Zeiss)wasused.Z-stackimages oftheventralhornwereoverlaidas“maximumintensityprojection”.Forquantitativeanalysis ofnuclearγH2AXfociinculturedastrocytesofthefeederlayer,astrocyteswereselected accordingtotheirsizeandmorphology,andtheirnucleiwerediscriminatedastheregionof interest(ROI)bytheDAPIsignal.TheextentoftheγH2AXsignalwithintheROIwascalcu- latedas‘integrateddensitypernucleus’usingImageJsoftware[23]andispresentedinarbi- traryunits(AU)±SEM. Quantitativereal-timePCR(qPCR) AdultcontrolandhSOD1G93AtransgenicmicewereanesthesizedwithvaporizedIsofluranein aspecializedchamberandsacrificedbydecapitation.Thespinalcordwasmicro-dissectedand theextractedtissuesweresnap-frozeninliquidnitrogen.RNAwasisolatedaccordingtostan- dardprotocolsusingQIAzollysisreagent(Qiagen,Hilden,NW,Germany).TheRNAsolution wasthentreatedwiththeTURBODNA-free™Kit(Invitrogen™/ThermoFisherScientific)to removeputativegenomicDNAcontamination.TheRNAconcentrationandpuritywere determinedbyspectrophotometry(NanoDrop2000c;Peqlab/VWR,Darmstadt,HE,Ger- many).Meanratiosof2.02±0.002and2.04±0.004forthe260nm/280nmand260nm/230 nmabsorbancevalues,respectively,revealedtheabsenceofproteinandphenolcontamination. TheabsenceofDNAcontaminationandtheRNAintegrity,assessedbytheRNAIntegrity Score,weredeterminedusingtheQIAxcelRNAQCKitv2.0(Qiagen)viatheQIAxcel Advancedsystem(Qiagen).Afterdilutionto100ng/μl,RNAwastranscribedintocDNAuti- lizingtheRevertAidFirstStrandcDNASynthesisKit(ThermoFisherScientific). Real-timeqPCRwasperformedwithBrilliantIISYBRGreenQPCRMasterMix(Agilent Technologies,SantaClara,CA,USA).AfinalcDNAconcentrationof25ngper20μlofsample volumeincluding500nMspecificprimerswasused.Theprimersequencesweredesignedto exclusivelyrecognizespecifictargetsequencesusingthePrimer-BLASTOnlinetool[24].The PLOSONE|https://doi.org/10.1371/journal.pone.0183684 August23,2017 6/22 DNAdamageinthehSOD1G93AmousemodelofALS primerspecificityandpredictedtargetsizewereconfirmedbycapillaryelectrophoresis,and thesequenceswereasfollows: L1 (GenBank:D84391.1;ampliconsize:131bp): orl 5’-AGTCTGTACCACCTGGGAAC-3’;5’-GGCAAGCTCTCTTACAGGGAA-3’ L1 (GenBank:AF016099.1;ampliconsize:123bp): spa 5’-ATTGAAGCTCACGGCACATTTC-3’;5’-GATGACCACTTATTCTGCATGTCTT-3’ MusrsL1r(GenBank:J02793.1;ampliconsize:133bp): 5’-CCGCAAGCTGGAAGTTCATTAG-3’;5’-AATGGTGGCAGTAGGAGCACA-3’ Piwil1(NM_021311.3;ampliconsize:93bp): 5’-CACGACGATCAGGGAGTGACC-3’;5’-TTCCAGTCAGCTCAGGTGTTC-3’ ArgonauteRISCcatalyticsubunit2(Ago2)(NM_153178.4;ampliconsize:100bp): 5’-ACGCTCTGTGTCAATACCCG-3’;5’-TCCTTCAGCGCTGTCATGTT-3’ Ki67(NM_001081117.2;ampliconsize:80bp): 5’-TGGTCACCATCAAGCGGAG-3’;5’-AATACTCCTTCCAAACAGGCAG-3’ Glyceraldehyde-3-phosphate dehydrogenase(Gapdh)([25];ampliconsize:164bp): 5‘-GGAAGTGTCAGGGGAGGAGA-3‘;5‘-GGCTACTTGGCGGTGTACAT-3‘. ForqPCR,thefollowingparameterswereapplied:heatingto95˚C(10min),DNAdenatur- ationat95˚C(15s),annealingat60˚C(30s)andproductelongationat72˚C(30s),withthe lastthreestepsbeingrepeatedfor40cycles.Attheterminationofeachrun,ameltcurveanaly- siswasperformedtoevaluatetheproductspecificity.DatawereobtainedusingRotor-GeneQ SeriesSoftware2.3.1(Qiagen).Therelativetranscriptfoldchangeswereassessedaccordingto Pfaffletal.[26]usingthedelta-deltathresholdcycle(ΔΔC).Thevalueswerenormalized t againstthehousekeepinggeneGapdh,whichwasco-amplifiedinthesamerun.Biologicalrep- licateswereassessedastechnicalduplicatesthatincludeda‘no-templatecontrol’ineachrun. Relativetranscriptfoldchangeswereassessedfromthemeanvalueoftwoduplicates. Subcellularproteinfractionationandwesternblotanalysis Adultmiceweresacrificed,theventralcervicalandthoracicspinalcordsweremicro-dissected, andproteinswereisolatedwithrespecttotheirsubcellularlocalizationusingtheSubcellular ProteinFractionationKitforTissues(ThermoFisherScientific),accordingtothemanufactur- er’srecommendations.Theproteinconcentrationsofthedifferentsubcellularfractionswere analyzedbyBradfordAssayusingQuickStart™BradfordDyeReagent(Bio-Rad,Hercules,CA, USA).Forthewesternblotanalysis,10μgofadistinctsubcellularproteinfractionwassub- jectedtostandardSDS-PAGEandblottedontoaHybond-PPVDFmembrane(GEHealth- care,LittleChalfont,ENG,UK).Toblocknon-specificepitopes,themembranewasincubated in5%low-fatpowderedmilk(Roth)inTBScontaining0.1%Tween120for1hpriortothe applicationofprimaryantibodysolution.Thefollowingprimaryantibodieswereused:rabbit anti-TDP-43(1:2,500;polyclonal;AcrisAntibodies,RRID:AB_615042),rabbitanti-NF-κB p65(1:1,000;polyclonal;SantaCruzBiotechnology,Dallas,TX,US,RRID:AB_632037)and mouseanti-NF-κBp65-activesubunit(1:1,000;monoclonal;MerckChemicals,RRID: AB_2178887).Primaryantibodieswereincubatedin2%low-fatpowderedmilk(Roth)inTBS PLOSONE|https://doi.org/10.1371/journal.pone.0183684 August23,2017 7/22 DNAdamageinthehSOD1G93AmousemodelofALS containing0.1%Tween120overnightat4˚C.AfterwashingwithTBScontaining0.1% Tween120,themembraneswereincubatedwiththeappropriateHRP-conjugatedsecondary antibodies(1:5,000;SantaCruzBiotechnology).Afterawashingstep,bandswererevealedby chemiluminescenceusingImmobilonWesternHRPSubstratesolutions(MerckChemicals) anddocumentedusingtheLAS3000(Fujifilm,Du¨sseldorf,NW,Germany)withthecorre- spondingsoftware.Thesolubleandchromatin-boundnuclearfractionswerequantifiedusing ImageJsoftware[23].TDP-43proteinlevelswerenormalizedtop65levels,andallvalueswere relativizedtomeancontrolvalues. Statisticalanalyses Allvaluesareexpressedasthemean±SEM,withtheexceptionofthetranscriptleveldata, whicharepresentedasthegeometricmean±SEM.Formultiplecomparisonsofnormallydis- tributeddatasets,one-wayANOVAandtwo-wayANOVAfollowedbytheposthocHolm- Sˇ´ıda´ktestwereperformedaccordingtotheparametersaddressed.Fornon-parametricsingle andmultiplecomparisons,theMann-WhitneyUandKruskal-Wallistestswereapplied, respectively.Apvalueof0.05wasdefinedasthethresholdforsignificance.Statisticswerecon- ductedwithSigmaPlot13.0softwaresystems(Systat). Results ThehSOD1G93Amutationdoesnotincreasespinalcordsusceptibility towardsDNAstrandbreaks ToassesstheimpactofthehSOD1G93Amutation,implicatingatoxicgainofSOD1activity,on DNAintegritybeyondbasepairoxidation,theamountofdeleteriousDNASSBsandDSBs wasinvestigatedinthespinalcordofcontrolandseverelydiseasedhSOD1G93Amice.Cell nucleifromventralpartsofthecervicalandthoracicspinalcordweresubjectedtothe‘comet assay’,inwhichvoltage-basedremovalofnuclearDNAintoaso-called‘comettail’isconsid- eredtobedirectlyproportionaltotheamountofDNAstrandbreaks.Theextentofnuclear DNAdistortionwasdeterminedas‘TailMoment’andasthe‘percentofTailDNA’(% TailDNA)andclassifiedaccordingtotheseverityofDNAdamage.Themean‘TailMoment’ didnotdifferbetweencontrol(9.44±0.98)anddiseased(6.58±0.51)hSOD1G93Atransgenic mice(Fig1A,leftbars;p=0.429;control:n=282comets,hSOD1G93A:n=425comets,quanti- fiedfrom3animalspergroup).Similarly,themean%TailDNAremainedlowandaccounted for13.39±0.9%and11.59±0.57%inthecontrolanddiseasedhSOD1G93Atransgenicgroups, respectively,therebyexhibitingnoobviousdifferences(Fig1A,rightbars;p=0.778;control: n=282comets,hSOD1G93A:n=425comets,quantifiedfrom3animalspergroup).Toassess gradualeffectsonDNAintegrityandexcludeapossiblemaskingeffectarising,e.g.,fromthe mutualequilibrationofverystrongandweakDNAdamage,the%TailDNAresultswerefur- therclassifiedintocategoriesrangingfrom0to4accordingtotheseverityofDNAdisintegra- tion,asrecentlysuggestedbyCollins[20](Fig1B).Bothundercontrolanddiseaseconditions, cometsdedicatedtocategory0(0–20%TailDNA)representedthelargestfraction,accounting for79.38±2.31%and81.31±1.01%oftheisolatedcells,respectively(p=0.618).Accordingly, themeanvaluesof%TailDNAwerealsoallocatedtothiscategory.Ofallcometsanalyzed, 13.38±2.53%inthecontrolspecimensand15.88±1.09%inthehSOD1G93Atransgenicspeci- menswerefurtherattributedtocategory1ofmildDNAdamageandwerethusnotsignifi- cantlydifferentfromeachother(p=0.520).Similarly,incategories2and3,whichcollectively comprisedamarginalportionwithinthecomet-positivecellpopulation(category2: 4.64±0.2%inthecontrolgroupversus2.09±0.28%inthetransgenicgroup,p=0.512; PLOSONE|https://doi.org/10.1371/journal.pone.0183684 August23,2017 8/22 DNAdamageinthehSOD1G93AmousemodelofALS Fig1.AssessmentofDNASSBsandDSBsinspinalcordtissueusingthecometassay.(A)Theextent ofoverallDNAdamage,asexpressedbyTailMoment(leftbars)and%TailDNA(rightbars)incervicaland thoracicspinalcordtissues,wassimilarbetweencontrol(ctrl)anddiseasedhSOD1G93Atransgenicmice.(B) Specificationofcometmorphologybyattributiontosubclasses0–4,accordingtoincreasing%TailDNA values(seeMethodsfordetails),revealedsimilarproportionsofcometsdedicatedtoeachcategorybetween controlanddiseasedhSOD1G93Atransgenicmice.AdistinctpatternofDNAdamage,however,wasallocated tocorticalcellsfrommurineNOD.CB17-Prkdcscid/NCrHsdspecimensdisplayingdefectiveDNArepair (positivecontrol;rightbar),thusconfirmingassaysensitivity.n.s.,notsignificant. https://doi.org/10.1371/journal.pone.0183684.g001 category3:2.6±0.2%inthecontrolgroupversus0.72±0.18%inthetransgenicgroup, p=0.627),nodifferencesweredetectedbetweencontrolandALS-likeconditions.Ineither group,cometsfulfillingcategory4criteria,indicatingthatalmosttheentireDNAcontenthad shiftedtothecomettail,werenotpresent.Thesuitabilityofthe‘cometassay’tocategorize DNAdamageinCNStissuewasconfirmedbyco-analysesofcorticalneuralcellsderivedfrom murineNOD.CB17-Prkdcscid/NCrHsdspecimensexhibitingsevereDNArepairdeficits.The overallpatternofcometsdedicatedtotheDNAdamagecategoriesinthisreferencetissue clearlydifferedfromthecontrolandhSOD1G93Atransgenicspecimens(Fig1B,rightbar),as reflectedbyareducedproportionofcellsthatweredevoidofDNAdamageconcomitantwith anincreasedportionofcometsassignedtoDNAdamagecategories1–4.Thisfindingdemon- stratesthatthesensitivityofthe‘cometassay’wassufficienttosubtlydetectanddiscriminate thedemiseofDNA. Hence,usingthe‘cometassay,’whichissensitivetobothDNASSBandDSBwhenper- formedunderalkalineconditions[27],weobtainednoevidenceforincreasedDNAdamage underconditionsofhSOD1G93A-relatedALS-likepathology.SincethehSOD1G93Amutationis presentinallsomaticcellsandislikelytoinfluenceeithercelltypeofthenervoussystem, cometsampleswerenotselectedforneurons.Indeed,althoughMNsarelikelytodisplaythe strongestvulnerability,ALS-relatedpathomechanismsarenotrestrictedtothiscellentity[28]. DNAdamageresponseisnotactivatedinmotorneuronscarryingthe hSOD1G93Amutation SinceitisnotpossibletodiscriminatebetweenSSBsandDSBsinDNAbythecometproce- dure,atleastinanalkalinemilieu[27],wehypothesizedthatanequalizingshiftinthepropor- tionofeitherentityofDNAdamagemightmaskDNAinstability.Toexcludethispossibility andtoexploretheactivationofDDRresponsesunderhSOD1G93A-relatedALSconditions,the PLOSONE|https://doi.org/10.1371/journal.pone.0183684 August23,2017 9/22 DNAdamageinthehSOD1G93AmousemodelofALS appearanceofnuclear53BP1-positivefociwasanalyzedbyimmunofluorescenceasafunction ofdiseaseprogression.The53BP1multi-domainmarkeroperatesasanearlycomponentof theDDRcascadebycontributingtotheprocessingofandsignalingfromsitesofDNAdamage [29].Additionally,itservesasarobustmarkerspecificallyforDNADSBs[29].Therefore, 53BP1activationwasassessedinthecervicalspinalcordtissueofcontrol(n=5),presymptom- atic(n=2)andseverelydiseased(n=4)hSOD1G93Amice,aswellasinanα-MN-enrichedcell culturesystem(Fig2;n=90cells/preparation,3preparations).Ingeneral,the53BP1foci remainedassingleeventsbothinvivo(Fig2A–2C’)andinvitro(Fig2Dand2E’),andthey werenotincreasedinhSOD1G93AMNs.SimilarresultswereobtainedforγH2AX(Fig2F–2I; n=90cells/preparation,3preparations),anotherwell-establishedmarkerforDNADSBsand DDRactivationthatco-localizesandinteractswithseveralDDRmediators[30].Again, γH2AX-positivefociremaineddiscreteinculturedMNsderivedfrombothcontrolandtrans- genicmice(Fig2Fand2G’).However,inreplication-competentfeederlayerastrocytes,there wasagreaterabundanceofγH2AX-positivefoci(Fig2Hand2I).Quantificationofnuclear γH2AXfocibyassessmentoftheintegrateddensityofγH2AX-positivesignalfrequenciesper nucleus(Fig2J)revealed19.55AU±2.00AUand16.35AU±0.59AUinthecontrol(n=600 cells/preparation,3preparations)andtransgenic(n=600cells/preparation,3preparations) astrocytecultures,respectively,andwerethussimilaramongthegroups(p=0.216). Takentogether,wecouldnotidentifyevidenceforalterationsintheratioofSSBs:DSBs(Fig 2)inthehSOD1G93AanimalmodelofALS,eitherunderinvivoorinvitroconditions.More- over,eventsindicatingtherelocationofDDRproteinssuchas53BP1tonuclearfociandthe generationofγH2AXpositivenuclearfoci,e.g.,toalignbrokenDNAstrands,werenot increased. DNArepairisnotincreasedinthespinalcordofhSOD1G93Amutants TofurtherexcludethattheproportionbetweenSSBsandDSBsisinfluencedbymolecular strategiesthatcompensateforDNAdamage,whichareevenbeyondDDRmediatorprocesses, weanalyzedproliferatingcellnuclearantigen(PCNA)asapotentmarkerforongoingDNA damagerepair[31,32].PCNAactsasaslidingclamp,whichprovidesaplatformforthe recruitmentoffactorsnecessaryforDNAreplicationandrepairandisinvolvedinthemedia- tionofDNAdamagetolerancepathways[32,33].Ingeneral,inimmuno-stainedcells,PCNA activationisindicatedbytheappearanceofnuclearfoci.Thus,inquiescentcells,asneurons thataredevoidofSphaseactivity,positivePCNAfociareindicativeofactiveDNArepairpro- cesses[32].Regardingthisfeature,weanalyzedtheformationofnuclearPCNA-positivefoci intheventralcervicalhornofcontrol,presymptomaticandseverelydiseasedhSOD1G93Amice. ThesedatawereassessedtodeterminewhetherDNArepairinthistransgenicstrainwas alteredgenericallyorwhetheritchangedeitherbeforeoraftertheonsetofsymptoms.Inboth controltissue(n=6)andcervicalspinalcordscarryingthehSOD1G93Amutation(presymp- tomatic:n=3;diseased:n=5),non-replicativeneuronsdisplayedanuclearPCNAsignal devoidofanyfoci,indicatingthattherewerenoactiveDNArepairprocesses(Fig3A–3C’). Correspondingobservationswereobtainedinvitro(Fig3Dand3E’;n=90cells/preparation,3 preparations).SimilartranscriptlevelsoftheproliferationmarkerKi67undercontrolanddis- easeconditions(S2Fig)furtherprovedthelackofSphaseinduction.Toconfirmthecapability ofthePCNAantibodytogeneratefoci-likesignals,eitherinSphaseorasasignofDNArepair, humanLN229cellline-derivedbrainglioblastomacellsxenograftedintoNOD. CB17-Prkdcscid/NCrHsdmicewerestainedwithanidenticalantibodydirectedagainst PCNA(Fig3Fand3F’).Thus,highlyreplicativetumorcellsshowedstrongnuclearPCNA foci.ConsistentwiththedefectintheDDRapparatusinthismousemodel,cellsintumor-free PLOSONE|https://doi.org/10.1371/journal.pone.0183684 August23,2017 10/22