(cid:2) Regulation of the Transcription Factor EB-PGC1 Axis by Beclin-1 Controls Mitochondrial Quality and Cardiomyocyte Death under Stress XiucuiMa,a,cHaiyanLiu,a,cJohnT.Murphy,aSarahR.Foyil,a,cRebeccaJ.Godar,a,cHaedarAbuirqeba,aCarlaJ.Weinheimer,a PhilipM.Barger,aAbhinavDiwana,b,c DivisionofCardiologyandCenterforCardiovascularResearch,DepartmentofInternalMedicine,WashingtonUniversitySchoolofMedicine,St.Louis,Missouri,USAa; DepartmentofCellBiologyandPhysiology,WashingtonUniversitySchoolofMedicine,St.Louis,Missouri,USAb;JohnCochranVAMedicalCenter,St.Louis,Missouri, USAc Incardiacischemia-reperfusioninjury,reactiveoxygenspecies(ROS)generationandupregulationofthehypoxia-induc- D ibleproteinBNIP3resultinmitochondrialpermeabilization,butimpairmentinautophagicremovalofdamagedmito- o chondriaprovokesprogrammedcardiomyocytedeath.BNIP3expressionandROSgenerationresultinupregulationof w n beclin-1,aproteinassociatedwithtranscriptionalsuppressionofautophagy-lysosomeproteinsandreducedactivationof lo transcriptionfactorEB(TFEB),amasterregulatoroftheautophagy-lysosomemachinery.Partialbeclin-1knockdown a d transcriptionallystimulateslysosomebiogenesisandautophagyviamTORinhibitionandactivationofTFEB,enhancing e removalofdepolarizedmitochondria.TFEBactivationconcomitantlystimulatesmitochondrialbiogenesisviaPGC1(cid:2)in- d f ductiontorestorenormallypolarizedmitochondriaandattenuateBNIP3-andhypoxia-reoxygenation-inducedcelldeath. ro Conversely,overexpressionofbeclin-1activatesmTORtoinhibitTFEB,resultingindeclinesinlysosomenumbersand m suppressionofPGC1(cid:2)transcription.Importantly,knockdownofendogenousTFEBorPGC1(cid:2)resultsinacompleteor h t partialloss,respectively,ofthecytoprotectiveeffectsofpartialbeclin-1knockdown,indicatingacriticalroleforbothmi- tp : tochondrialautophagyandbiogenesisinensuringcellularviability.Thesestudiesuncoveratranscriptionalfeedbackloop // m forbeclin-1-mediatedregulationofTFEBactivationandimplicateacentralroleforTFEBincoordinatingmitochondrial c autophagywithbiogenesistorestorenormallypolarizedmitochondriaandpreventischemia-reperfusion-inducedcardio- b . myocytedeath. a s m . o Preservation of healthy mitochondria is essential for energy todrivereformationofnewlysosomes(18–20).Thisisfacili- rg / generationandmaintenanceofcontractilefunctionincar- tated via a transcriptional induction of autophagy-lysosome o n diacmyocytes(1).Incardiacischemia-reperfusion(IR)injury, machinery proteins orchestrated by nuclear translocation of A mitochondrial permeabilization results in activation of pro- the basic helix-loop-helix (bHLH) transcription factor EB p grammed cell death pathways and cardiomyocyte loss (2). (TFEB)(21–25),amasterinduceroftheautophagy-lysosome ril Removal of damaged mitochondria by macroautophagy, a machinery (23), thereby sustaining autophagic flux. In con- 3 , lysosomaldegradativepathway,isessentialtopreventcardiomy- trast,lysosomenumbersprogressivelydeclinewithBNIP3-in- 2 ocytedeathandlimitmyocardialinfarctsize(3,4).Cardiomyo- ducedautophagy,withoutreplenishment(15),suggestingthat 01 cyteautophagyisupregulatedwithIRinjury(5),butautophago- 9 animpairmentinthistranscriptionalresponseengenders“in- some processing is impaired early after reperfusion, which b sufficient”cytoprotectiveautophagy. y preventsautophagicremovalofdamagedmitochondria(6).The Relevant to this discussion is our observation that upon g hypoxicinsultalsoprovokestranscriptionalinductionofBNIP3 u reperfusion/reoxygenation, a rapid reactive oxygen species e (Bcl2andnineteen-kilodaltoninteractingprotein3),aprodeath s (ROS)-induced increase in beclin-1 abundance paradoxically t Bcl2familyprotein(7,8)whichistargetedtoandpermeabilizes impairs autophagic flux in cardiomyocytes (6). Interestingly, mitochondria(9–11)andtriggerscardiomyocytedeathinIRin- whilebasalbeclin-1levelsplaycriticalrolesinautophagosome jury(12).WhileBNIP3hasbeensuggestedtofacilitatemitochon- drialautophagybyfunctioningasanadaptortosequesterdam- aged mitochondria within autophagosomes (13, 14), increased BNIP3expressionprovokesdeclinesinlysosomenumbers,with Received25August2014 Returnedformodification15September2014 Accepted30December2014 impairedautophagicflux,resultinginaccumulationofdamaged Acceptedmanuscriptpostedonline5January2015 mitochondriaandcardiomyocytedeath(15).Theseobservations CitationMaX,LiuH,MurphyJT,FoyilSR,GodarRJ,AbuirqebaH,WeinheimerCJ, implicateafailureoftheautophagy-lysosomemachinerytoclear BargerPM,DiwanA.2015.RegulationofthetranscriptionfactorEB-PGC1(cid:2)axisby damagedmitochondriaasacauseofcelldeathwithIRinjury,but beclin-1controlsmitochondrialqualityandcardiomyocytedeathunderstress. theunderlyingmechanismsremaintobedefined. MolCellBiol35:956–976.doi:10.1128/MCB.01091-14. Mitochondria are also targeted for degradation by starva- AddresscorrespondencetoAbhinavDiwan,[email protected]. tion, wherein autophagy is critical for cell survival (16, 17). Copyright©2015,AmericanSocietyforMicrobiology.AllRightsReserved. Interestingly,withstarvation,lysosomenumbersrapidlyplum- doi:10.1128/MCB.01091-14 met(18),butendogenousmechanismsarepromptlyrecruited 956 mcb.asm.org MolecularandCellularBiology March2015 Volume35 Number6 Beclin-1RegulatesMitochondrialQualityviaTFEB formation(26)andprotectionagainstcardiomyocytedeath(6),we Generationofadenoviralconstructs.Lentiviralparticlescodingfor observedthatincreasedbeclin-1abundanceissufficienttosuppress mCherry-GFP-LC3 expression have been described (6). Adenoviral transcriptionofautophagy-lysosomemachinerygenes(6).Taken delivery of constructs was employed to achieve a high efficiency of together with the in vivo observation that haploinsufficiency of transductionandpermitevaluationofdose-dependenteffectsinpri- beclin-1bytargeteddisruptionofaBECN1alleleconferscytopro- maryNRCMs,aspreviouslydescribed(6,15).Adenoviralparticlesfor expression of short hairpin RNAs (shRNAs) targeting rat TFEB, tectionincardiacIRinjury(5),thesedatasuggestthehypothesis BECN1,andPPARGC1(cid:2)weregeneratedwiththeBLOCKiTadenoviral thatROS-inducedupregulationofbeclin-1transcriptionallyim- system (Invitrogen). Specific oligonucleotide sequences employed pairs the lysosomal machinery to prevent removal of damaged were as follows (with targeted coding sequences underlined): (i) mitochondria and cause cell death with BNIP3 expression and shRNAtargetingratTFEB,5=-CACCGAATCAAGGAGCTGGGAATG hypoxia-reoxygenationinjury.Inthisstudy,weuncoveredanau- CTGATCGAAATCAGCATTCCCAGCTCCTTGATTC-3=(top-strand toregulatoryloopwherebybeclin-1levelsregulateTFEBactivity, oligonucleotide) and 5=-AAAAGAATCAAGGAGCTGGGAATGC which coordinates mitochondrial autophagy with biogenesis to TGATTTCGATCAGCATTCCCAGCTCCTTGATTC-3= (bottom-strand controlmitochondrialqualityandregulatestress-inducedcardi- oligonucleotide);(ii)shRNAtargetingBECN1(annotatedshBECN1-2), omyocytedeath. 5=-CACCGCTCAGTACCAGCGAGAATATCGAAATATTCTCGCTGG TACTGAGC-3= (top-strand oligonucleotide) and 5=-AAAAGCT D MATERIALSANDMETHODS CAGTACCAGCGAGAATATTTCGATATTCTCGCTGGTACTGA o GC-3= (bottom-strand oligonucleotide); and (iii) shRNA targeting rat w Invivoischemia-reperfusionmodeling.BECN1heterozygousnullmice PPARGC1(cid:2), 5=-CACCGAGCAAGTATGACTCTCTGCGAACAGAGAG n (BECN1(cid:3)/(cid:4);micewithhaploinsufficiencyofbeclin-1)(26)andwild- TCATACTTGCTC-3= (top-strand oligonucleotide) and 5=- lo type (WT) mice of the C57BL/6 strain were obtained from Jackson a AAAAGAGCAAGTATGACTCTCTGTTCGCAGAGAGTCAT d Laboratories and subjected to reversible left anterior descending e ACTTGCTC-3=(bottom-strandoligonucleotide). (LAD)coronaryarteryocclusiontoinduceischemiafor30min,fol- d Adenoviral particles for shRNAs targeting BECN1 (annotated lowedby4hofreperfusion,asdescribedpreviously(6).Briefly,mice fr shBECN1-1) (5) and LacZ, as a nontargeting control for studies with o were anesthetized with a mixture of ketamine (80 mg/kg of body m shRNA-mediatedknockdown,andforoverexpressionofLacZ(asacon- weight) and xylazine (5 mg/kg), surgically prepped, and ventilated. trol), green fluorescent protein (GFP)-tagged LC3, FLAG-hBNIP3, h Afterthoracotomy,theLADarterywasidentified,anda9-0polypro- t mBECLIN-1, and hemagglutinin (HA)-tagged hTFEB have been de- t pylenesuturewaspassedundertheLADartery.Aknotwastiedovera p scribed previously (15). Adenoviral particles for expression of FLAG- : 1-mmsectionofPE-10tubingplaceddirectlyoverthevesseltocreate PPARGC1(cid:2)wereengineeredwithataggingcodingsequenceforhuman //m theocclusion.Ischemiawasconfirmedbyanabsenceofbloodflow, PPARGC1(cid:2)withaFLAGtagattheNterminus,usingGatewaycloning c verifiedvisually,andbythepresenceofSTelevationsonelectrocar- b diogram (EKG). Reperfusion was induced to release the occlusion, technology(Invitrogen).Viralparticlesweregeneratedperthemanufac- .a whichwasconfirmedbyresolutionofSTsegmentelevation.Atsacri- turer’sinstructions.Inallexperiments,controladenoviralparticleswere s added to groups as necessary to ensure equal viral particle doses, i.e., m fice,theventriclesweresectionedintothreepieces;theapical1/3was multiplicitiesofinfection(MOIs),betweengroups. .o subjectedtobiochemicalanalysisasthe“injured”region,andthebasal 1/3wasprocessedasthe“remote”region.Sham-treatedmiceunder- Assessmentofcelldeath.Celldeathassayswereperformedin96-well rg wenttheentiresurgicalprocedurewithoutocclusionoftheLADar- plates(Nunc,Fisher)withaLive-Deadcytotoxicityviabilitykitformam- o/ tery. Autophagic flux was assessed in comparison to that of mice malian cells (Invitrogen), using a Tecan Infinite M200 Pro microplate n pretreatedwithchloroquine(CQ;40mg/kg,administeredintraperi- reader(Tecan)followingthemanufacturer’sinstructions,asdescribed A previously(6). p toneally[i.p.])30minpriortoIRmodeling,aspreviouslydescribed(6, r 27).AllanimalstudieswereapprovedbytheAnimalStudiesCommit- AssessmentofTUNELpositivity.Terminaldeoxynucleotidyltrans- il ferase-mediateddUTP-biotinnickendlabeling(TUNEL)wasperformed 3 teeattheWashingtonUniversitySchoolofMedicineandtheInstitu- , tionalAnimalCareandUseCommitteeattheJohnCochranVAMed- onfixedandpermeabilizedNRCMsbyusingtheDead-Endfluorometric 2 TUNEL system (Promega) following the manufacturer’s directions, as 0 icalCenter. 1 Cellculture.Isolationofneonatalratcardiacmyocytes(NRCMs) previouslydescribed(15). 9 wasperformedasdescribedpreviously(6).Heartswereremovedfrom CellularATPcontentanalysis.NRCMsweretransducedwithadeno- b 1-day-old Sprague-Dawley rats, the atria and great vessels were viralparticlesfor24handthentrypsinized,and5(cid:7)104cellswereplated y g trimmedoff,andtissuewasfinelyminced,followedbysequentialdi- ineachwellofa96-wellplate.CellularATPlevelswerequantifiedusinga u gestionwith0.5mg/mlcollagenase(WorthingtonBiochemical,NJ). luciferasereaction-basedassaykit(CellTiter-Gloreagent;Promega),and e s Ventricularcardiomyocyteswereseparatedfromfibroblastsbydiffer- readingswerenormalizedtothoseofviablecellsassessedbythetrypan t entialplatinginmediumcontainingDulbecco’smodifiedEagle’sme- blueexclusionmethodaspreviouslydescribed(28). dium(DMEM),10%horseserum,5%fetalcalfserum,100(cid:5)mol/liter Immunofluorescenceimaging.ImagingformCherry-GFP-LC3and bromodeoxyuridine, penicillin, streptomycin, and L-glutamine, fol- LysoTrackerRedwasperformedwithliveNRCMs,andimagingforGFP- lowedbytissuecultureingelatin-coatedplatesinmediumcontaining LC3,LAMP1,andTFEB(withimmunofluorescenceoftheHAtag)was modifiedDMEM,100(cid:5)Mbromodeoxyuridine,penicillin,streptomy- performedwithNRCMsfixedwith4%paraformaldehyde(20min)and cin, L-glutamine, 10 ng/ml insulin, 10 (cid:5)g/ml transferrin, and 0.5 thenpermeabilizedwith0.1%TritonX-100(5min),usinganAxioscap mg/mlbovineserumalbumin. uprightmicroscopefittedwithanAxioCamHRCcameraandPlanNeo- Nutrient deprivation was induced by culture in serum-free Hanks fluarobjectives(20(cid:7)[numericalaperture{NA}(cid:8)0.60],40(cid:7)[NA(cid:8) balancedsaltsolution(HBSS;Invitrogen).HEK293cellswereculturedas 0.75],and63(cid:7)[oil][NA(cid:8)1.25][Zeiss]),alongwithappropriatefilter describedpreviously(15). cubes,aspreviouslydescribed(6).NuclearlocalizationofTFEBwasas- Hypoxia modeling. Cells were subjected to hypoxia in vitro in an sessedin60cells/group.LAMP1-positivepunctain50cells/groupwere oxygen control cabinet (Coy Laboratories, Grass Lake, MI) mounted countedusingImageJsoftwareasdescribedpreviously(15),andresults withinanincubatorandequippedwithanoxygensensorforcontinuous are expressed as numbers of dots/nucleus. Imaging for BNIP3 and oxygenlevelmonitoring.Amixtureof95%nitrogenand5%CO was COX-IVwasperformedonfixedandpermeabilizedNRCMswithaZeiss 2 infusedtocreatehypoxia,andoxygenlevelsinthechamberweremoni- confocalLSM700laserscanningconfocalmicroscopeusing63(cid:7)Zeiss toredandmaintainedat(cid:6)1%,asdescribedpreviously(6). Plan-Neofluar 40(cid:7)/1.3 and 63(cid:7)/1.4 oil immersion objectives. Nuclei March2015 Volume35 Number6 MolecularandCellularBiology mcb.asm.org 957 Maetal. werestainedbluewithHoechstdye(forlive-cellimaging)(H3750;In- HEK293cellsweretransfectedwiththePGL3.Lucvector,drivenbythe vitrogen) or DAPI (4=,6-diamidino-2-phenylindole) (for fixed cells) humanPPARGC1(cid:2)promoterwithout(i.e.,wild-typepromoter)orwith (H1200;VectorLaboratories).Epifluorescenceandconfocalimageswere mutationsinthe“CLEARsequence,”located69bpupstreamofthetran- acquired and analyzed using Zeiss Axiovision and Zen 2010 software, scriptionalstartsite(i.e.,(cid:4)18CLEARsitemutant),togetherwithpRL- respectively. SV40forRenillaluciferaseexpression(ataratioof100:1).Inaddition, Flow cytometric assessment. NRCMs were incubated with Lyso- cellswerecotransfectedwithexpressionvectorscodingfortheconstitu- TrackerRed(1mmol/literfor15min)toassesslysosomeabundance,with tivelyactivetranscriptionfactorCREB,theCREBactivatorTORC2(i.e., nonyl-acridineorange(NAO)(acardiolipin-bindingdye;10nmol/liter CRTC2)(seebelowfordetails),TFEB(pAd-CMV/V5-hTFEB),orLacZ for15min)andMitotrackerGreen(200nmol/literfor45min)toassess (pAd-CMV/V5-LacZ)(asacontrol),andluciferaseactivitiesweremea- mitochondrialmass,withJC-1(10mg/mlfor10min)ortetramethylrho- sured48haftertransfection.Fireflyluciferasereadingswerenormalized damine,ethylester(TMRE;50nmol/literfor30min)toassessmitochon- tothoseforRenillaluciferasetocontrolfortransfectionefficiency. drialpolarization,andwithcarboxy-H DCFDA(acell-permeatingROS Subcellular fractionation. NRCMs were subjected to biochemical 2 indicator;10(cid:5)mol/literfor30min)toassessthelevelsofROS.Following fractionationtorecovernucleus-enrichedandcytoplasmicfractions, incubation with these compounds at 37°C in 5% CO , the cells were aspreviouslydescribed(23).Heartswerefractionatedintonucleus- 2 trypsinizedandsubjectedtoflowcytometryonaFACScaninstrument enrichedandcytoplasmicsamplesbyusingaCelLyticNuCLEARex- (Becton-Dickinson)aspreviouslydescribed(15).Cyflogicsoftware(Cy- tractionkit(Nxtract;Sigma).Expressionofproteinslocalizedtothe D Flo)wasemployedtoanalyze20,000eventsperrun. nucleus(histoneH3)andcytoplasm(glyceraldehyde-3-phosphatede- o Assessment of mitochondrial DNA content. Mitochondrial DNA hydrogenase [GAPDH]) was examined to confirm relative enrich- w contentwasassessedbyquantitativePCRanalysisaspreviouslydescribed ment. n lo (29).Briefly,DNAwaspreparedfromNRCMpellets,andreal-timequan- Coimmunoprecipitation studies. Murine embryonic fibroblasts a titativePCRwasperformedforthemitochondrialgeneNADH2(with (MEFs)fromC57BL/6wild-typemicewereadenovirallytransducedwith d primers5=-ATCACCACCATTCTCGCAAT-3=and5=-TCCTATGTGGG beclin-1–HA(MOI(cid:8)100)ortransfectedwithN-terminalHA-tagged e d CAATTGATG-3=)andthenucleargeneRCAN1(withprimers5=-GGTT TSC1(Addgene)(32).Threehundredmicrogramsofproteinwasincu- f r TGCTGAGCCTCGAAG-3=and5=-CTTCATCCCTCCTTTGTAAC-3=). batedwithanti-HA(H3663;Sigma)ornormalrabbitIgG,andimmuno- o m Theratioofcopiesofmitochondrialtonucleargenesrepresentstherela- precipitationwasperformedusingDynaBeads(Invitrogen). tivemitochondrialDNAcontent. Immunoblotting. Immunoblotting was performed on cellular ex- h t Assessmentofmitochondrialfragmentation.Mitochondrialmor- tracts by use of previously described techniques (15). Antibodies em- t p phologywasascertainedtobefragmentedortubularbyvisualinspection ployedwereasfollows:antibodiesforFLAG(F3165;Sigma),HA(H6908; : / / ofindividualcellsatahighmagnification,asdescribedpreviously(30). Sigma),LAMP1(AB24170;Abcam),beclin-1(ab16998[Abcam]andsc- m Fifty cells were evaluated per experimental group, and results are ex- 11427[SantaCruz]),p70S6K(2708;CellSignaling),p-p70S6K(9234;Cell c b pressedaspercentagesofcellsshowingpredominantlyfragmentedmito- Signaling),4-EBP1(9644;CellSignaling),p-4EBP1(2855;CellSignaling), . a chondria. p-mTOR(2974;CellSignaling),mTOR(2983;CellSignaling),histoneH3 s Assessmentofmitochondrialpolarization.Mitochondrialdepolar- (9715;CellSignaling),TFEB(MBS120432;employedtodetectadenovi- m izationwasassessedbyexpressionofTMREorwiththeratiometricdye rallytransducedHA-taggedhumanTFEBwhenHAdetectionwaspre- .o JC-1,whichaggregatesintoredfluorescentpolymersinnormallypolar- cludedforspecificity),GAPDH(ab22555;Abcam),peroxisomeprolifera- rg izedmitochondriabutispredominantlyobservedasgreenfluorescent tor-activated receptor gamma coactivator 1(cid:2) (PGC1(cid:2)) (ab106814; / o monomers in cells with depolarized mitochondria, as previously de- Abcam),tuberoussclerosiscomplex1(TSC1)(6935;CellSignaling),and n scribed(6,15). tuberoussclerosiscomplex2(TSC2)(3612;CellSignaling).MurineTFEB A TEM.NRCMswerefixedinmodifiedKarnovsky’sfixative(3%glu- was detected with a Bethyl Labs antibody (A303-673A). The multiple p r taraldehyde,1%paraformaldehydein0.1Msodiumcacodylatebuffer), immunoreactiveTFEBbandsobserved(seeFig.12CandD)likelyrepre- il followedbypostfixationin2%osmiumtetroxidein0.1Msodiumcaco- sent various TFEB isoforms (NP_001155194.1 and NP_035679.3 ) or 3 , dylatebufferfor1h.Thecellswerethenstainedwith2%aqueousuranyl posttranslationally modified forms of the protein in the myocardium. 2 acetatefor30min,dehydratedinaseriesofgradedethanolconcentra- Immunoblotting for (cid:2)-sarcomeric actin ((cid:2)SA) (ab52219; Abcam) was 0 1 tions,andembeddedinPolyBed(Polysciences).Blocksweresectionedat employedasaloadingcontrolunlessotherwiseindicated.ImageJsoftware 9 a90-nmthickness,poststainedwithVenable’sleadcitrate,andviewed wasemployedforquantitativeanalysis.Proteinabundancewasnormal- b with a JEOL model 1200EX transmission electron microscope (TEM) izedto(cid:2)-sarcomericactinproteinexpressionandreportedasthefold y g (JEOL,Tokyo,Japan).DigitalimageswereacquiredusinganAMTAd- changeversusthecontrol.Chemicalsemployedwereasfollows:3-methyl- u vantageHR(AdvancedMicroscopyTechniques,Danvers,MA)high-def- adenine(3MA;EMD4Biosciences),torin-1(Tocris),MG-132(Cayman e s initioncharge-coupleddevice(CCD)1.3-megapixelTEMcamera. ChemicalCompany),andMnTMPyP(Calbiochem).Equivalentquanti- t Assessmentofpromoter-drivenluciferaseactivity.Atotalof3(cid:7)104 ties of appropriate diluent were employed as controls in all studies in cells were plated per well of a 96-well plate and transfected with the whichthesechemicalswereemployed. PGL3.Lucvector,carryinga2,760-bpfragmentofthehumanPPARGC1(cid:2) QuantitativePCRanalysisformRNA.Real-timePCRwasperformed promoter(forfireflyluciferaseexpression),andthepRL-SV40vector(for asdescribedpreviously(6).Briefly,totalRNAwaspreparedfromNRCMs Renillaluciferaseexpression[31])ata100:1ratio,usingLipofectamine byuseofanRNA-easyminikit(Qiagen),andcDNAwassynthesizedwith 2000 (Invitrogen). Constructs coding for the human PPARGC1(cid:2) pro- 1(cid:5)goftotalRNAbyusingtheSuperScriptIIIfirst-strandsynthesissystem moter(GenBankaccessionnumberNG_028250.1)withindividualmu- (Invitrogen).OnemicroliterofcDNAtemplatewasmixedwith12.5(cid:5)lof tationsinthethreeCLEARsitesdetectedwithin(asdepictedinFig.9D) 2(cid:7)SYBRgreenPCRmastermix(Invitrogen)andsubjectedtoquantita- weregeneratedbysite-directedmutagenesisusingaQuikChangeLight- tivePCRintriplicateunderthefollowingconditions:50°Cfor2minand ningsite-directedmutagenesiskit(Stratagene)andverifiedbysequenc- 95°Cfor10minfollowedby40cyclesof95°Cfor15sand60°Cfor1min ing.Luciferaseactivitywasmeasuredwithadual-luciferaseassaykit(Pro- inanABI7500Fastreal-timePCRsystem.TheGAPDHgenewasalso mega) and a Tecan Infinite M200 Pro microplate reader (Tecan) amplifiedinparallelasareferenceforthequantificationoftranscripts. followingthemanufacturers’instructions.Fireflyluciferasevalueswere PrimersetsemployedareshowninTable1.Resultswerecalculatedusing normalizedtothoseforRenillaluciferasetocontrolfortransfectioneffi- the(cid:9)(cid:9)C methodandexpressedaspreviouslydescribed(6). T ciency.Toassesswhetherthebp(cid:4)18sitemutantconstructretainedac- ChIP assays. Chromatin immunoprecipitation (ChIP) was per- tivitytodrivetranscriptionalactivation(otherthanthatdrivenbyTFEB), formedaspreviouslyreported(25,33).Briefly,HEK293Acellsweretrans- 958 mcb.asm.org MolecularandCellularBiology March2015 Volume35 Number6 Beclin-1RegulatesMitochondrialQualityviaTFEB TABLE1PrimersequencesemployedforqPCRanalysisoftheindicatedgenes Primersequence(5=–3=) Targetgene Forward Reverse Ratgenes MAP1LC3B TTTGTAAGGGCGGTTCTGAC CAGGTAGCAGGAAGCAGAGG SQSTM1 GCTGCCCTGTACCCACATCT CGCCTTCATCCGAGAAAC LAMP1 TCTTCAGCGTGCAAGTCCAG ATGAGGACGATGAGGACCAG PPARGC1(cid:2) ATGAATGCAGCGGTCTTAGC AACAATGGCAGGGTTTGTTC BECN1 TTCAAGATCCTGGACCGAGTGAC AGACACCATCCTGGCGAGTTTC TFEB GTCCAGCAGCCACCTGAACGT ACCAGGGAAGCCGTGACCTG LAMP2A CCAAATTGGGATCCTAACCTAA TGGTGAAGCAGTGTTTATTAATTCC LAMP2B GGTGCTGGTCTTTCAGGCTTGATT ACCACCCAATCTAAGAGCAGGACT CTSB AAATCAGGCGTATACAAGCATGAA AGCCCAGAATGCGGATGG CTSD CTGAGTGGCTTCATGGGGAT CCTGACAGTGAAGAAGGAGC RAB7 TTACTTCGAGACCAGTGCCAAGGA TGTCCAGTTTGATGGGTTCAGGGA D GAPDH GGCCGAGGGCCCACTA TGTTGAAGTCACAGGAGACAACCT o RPS12 AAGGCATAGCTGCTGGAGGTGTAA AGTTGGATGCGAGCACACACAGAT w RPL32 CCTCTGGTGAAGCCCAAGATC TCTGGGTTTCCGCCAGTTT n lo a Mousegenes d MAP1LC3B CGTCCTGGACAAGACCAAGT ATTGCTGTCCCGAATGTCTC e d LAMP1 TCTTCAGTGTGCAGGTCCAG ATGAGGACGATGAGGACCAG f PPARGC1(cid:2) ATGAATGCAGCGGTCTTAGC AACAATGGCAGGGTTTGTTC ro BECN1 AATCTAAGGAGTTGCCGTTATAC CCAGTGTCTTCAATCTTGCC m TFEB GTCTAGCAGCCACCTGAACGT ACCATGGAGGCTGTGACCTG h LAMP2A CCAAATTGGGATCCTAACCTAA TGGTCAAGCAGTGTTTATTAATTCC tt p LAMP2B GGTGCTGGTCTTTCAGGCTTGATT ACCACCCAATCTAAGAGCAGGACT : / RAB7 TTACTTCGAGACCAGTGCCAAGGA TGTCCAGTTTGATGGGTTCAGGGA /m CTSB AAATCAGGAGTATACAAGCATGA GCCCAGGGATGCGGATGG c CTSD CTGAGTGGCTTCATGGGAAT CCTGACAGTGGAGAAGGAGC b . SQSTM1 GCTGCCCTATACCCACATCT CGCCTTCATCCGAGAAAC a s GAPDH ACTCCCACTCTTCCACCTTC TCTTGCTCAGTGTCCTTGC m RPS12 AAGACCGCCCTCATCCACGATG TTGGTGCTCAGCACAAAGTGCC . o RPL32 CCTCTGGTGAAGCCCAAGATC TCTGGGTTTCCGCCAGTTT r g / o n fectedwiththeemptypAAV-CMV-TFEB-IRES-GFPconstruct,described verified, following which statistical differences were assessed with un- A p earlier(34),orwithemptyvector(asacontrol)for48h.Cellswerecol- paired2-tailedStudent’sttestfortwoexperimentalgroups,one-wayanal- r lected,fixedwith1%formaldehydefor10min,andlysedonicewithChIP ysisofvariance(ANOVA)formultiplegroups,andtwo-wayANOVAfor il 3 lysisbuffer(50mMTris-HCl,pH7.5,100mMNaCl,1%TritonX-100, testingoftwovariablesacrossmultiplegroups,usingSPSSsoftware.Bon- , 1%Tween20)for20min.Thelysatewasdigestedwithmicrococcalnu- ferroni’sandDunnett’sT3posthoctestswereemployedafterANOVAfor 2 0 clease(Sigma)for15minat37°C,andthereactionwasterminatedusing testingforsignificantdifferencesbetweengroupsfordatawithequaland 1 EDTA(2mM)andsodiumdodecylsulfate(SDS;1%).SDS-Out(Pierce) unequalvariances,respectively.Nonparametrictestswereemployedfor 9 wasemployedtoprecipitatetheunboundSDS,andlysatesdiluted1:1 datathatwerenotnormallydistributed.Atwo-tailedPvalueof(cid:6)0.05was b y withChIPdilutionbuffer(50mMTris-HCl,pH7.5,100mMNaCl,0.5% consideredstatisticallysignificant. g TritonX-100,2mMEDTA)wereincubatedwithhigh-capacityNeutr- u Avidinagarose(Pierce).Biotinylatedanti-FLAGantibody(F9291;Sigma) RESULTS es or isotype control IgG1 (M9035; Sigma) was precoupled with Neutr- t BNIP3expressionincreasesbeclin-1abundancewithtranscrip- Avidinbeadsfor30minat4°C,andtheprotein-DNAcomplexeswere tionalsuppressionofautophagy-lysosomemachinery.BNIP3,a immunoprecipitated overnight at 4°C. After six washes, the DNA was elutedbyadditionof8mMbiotin,1%SDSinTris-EDTA(TE)bufferand Bcl-2familyprodeathprotein,istranscriptionallyinducedincar- precipitatedafterreversingthecross-linkagebyuseof200mMNaClat diacIRinjuryandprovokesmitochondrialpermeabilization(8, 65°Covernight.PCRwasperformedusingprimersflankingtheCLEAR 11,12).WehaveobservedthatBNIP3expressionprovokespro- site18bpupstreamofthetranscriptionalstartsite(forwardprimer,5=-C gressivedeclinesinlysosomenumbers,withaccumulationoffrag- GTCACGAGTTAGAGCAGCA-3=;andreverseprimer,5=-TCGCCCTTA mentedanddepolarizedmitochondria,leadingtocelldeath(15), AGCTTTTTCAA-3=)(204-bpamplicon).Anadditionalprimersetwithin and that restoring lysosome biogenesis by exogenous TFEB ex- an adjacent segment located between the CLEAR sites at bp (cid:4)18 and pressionreestablishesmitochondrialautophagytorescueBNIP3- (cid:4)469 (forward primer, 5=-CTGTCATGAAACAGGGAGCTTT-3=; and inducedcelldeath(15).Toexaminethemechanismsforimpaired reverseprimer,5=-GCTTTGAATGCCACAGACTCTA-3=)(125-bpam- autophagicremovalofBNIP3-damagedmitochondria,weevalu- plicon)didnotgenerateaproduct,demonstratingspecificity(datanot atedtheregulationoftheautophagy-lysosomemachinerybyad- shown). Statisticalanalysis.Resultsareexpressedasmeans(cid:10)standarderrors enoviraltransductionofNRCMswithBNIP3.Wehypothesized ofthemeans(SEM),withthesamplesize(n)pergroupindicatedinthe thatthedeclineinlysosomenumberisdrivenbyBNIP3-induced figurelegends.Assumptionsofnormalityandequalityofvariancewere autophagy,asalsoobservedearlyduringstarvation-inducedau- March2015 Volume35 Number6 MolecularandCellularBiology mcb.asm.org 959 Maetal. D o w n FIG 1BNIP3 expression results in transcriptional downregulation of autophagy-lysosome machinery. (A) Confocal images demonstrating LysoTracker lo fluorescence(top)andLAMP1expression(bottom)inNRCMstransducedwithBNIP3(green)orLacZ(24h),withorwithout3MA(7mmol/liter)andwith a quantitation of the number of LAMP1-positive dots/nucleus. *, #, and $, P (cid:6) 0.05 versus LacZ, BNIP3, and BNIP3 plus 3MA, respectively. (B and C) de Representativeflowcytometrictracings(B)andquantitation(C)ofLysoTrackerfluorescence(n(cid:8)3).*,P(cid:6)0.05versuscontrol(con)(whitebar).(DandE) d Representativeimmunoblot(D)andquantitation(E)forLAMP1inNRCMstreatedasdescribedforpanelA(n(cid:8)3).*,P(cid:6)0.05versuscontrol(whitebar).(F f r toH)Representativeimmunoblot(aspreviouslydescribed[15])(F)andquantitationofLAMP1protein(n(cid:8)3)(G)andLAMP1transcripts(n(cid:8)4to6)(H)in o m NRCMs transduced with BNIP3 or LacZ for the indicated durations. (I) Levels of representative autophagy-lysosome machinery transcripts in NRCMs transducedwithBNIP3orLacZ(24h;n(cid:8)8).AlltransductionswereperformedatanMOIof100/sample. h t t p : / / tophagy (18). However, BNIP3-induced declines in lysosome anism for induction of autophagosome formation (14), we m abundance (assessed with the acidophilic dye LysoTracker Red examinedtheeffectofBNIP3expressiononbeclin-1.Beclin-1 c b [Fig.1AtoC]andbyimmunostainingforLAMP1[acandidate protein abundance was increased early (at 12 and 24 h) after .a lysosomalproteinwhoselevelsareusedtotracklysosomeabun- BNIP3 transduction (Fig. 2A and B), and this was not due to s m dance{35}][Fig.1A])andinLAMP1proteinabundance(Fig.1D transcriptionalinduction(Fig.2C).Infact,BECN1transcript . o andE)wereonlypartiallyrestoredwith3MA(atypeIIIphospha- levelsweresignificantlyreducedcomparedwiththoseofcon- r g tidylinositol 3-kinase inhibitor which inhibits autophagosome trols at 24 h, coinciding with the suppression of other au- / formation)(Fig.1AtoE),to65%,59%,and72%,respectively,of tophagy-lysosome machinery transcripts (Fig. 1I), and only on thelevelsforsimilarlytreatedcontrols.Thisindicatesthatlyso- increased subsequently, in parallel with a decline in beclin-1 A some consumption in BNIP3-induced autophagy is only partly proteinabundance(Fig.2BandC)secondarytoconsumption p r responsiblefortheobserveddeclineinlysosomeabundance(15). withpersistentautophagy(datanotshown).Thissuggeststhat il Importantly, we observed progressive declines in LAMP1 tran- 3 a stabilization of beclin-1 protein results in its accumulation , scripts(Fig.1H)parallelingthedeclineinLAMP1proteinabun- 2 earlyafterBNIP3expression. 0 dance(Fig.1FandG).Thistranscriptionalsuppressionalsoaf- We next examined if ROS mediate the BNIP3-induced in- 1 fected multiple proteins (Fig. 1I) that participate in autophagy 9 creaseinbeclin-1abundanceobservedwithreperfusioninjury b (LC3, p62, and RAB7), constitute the lysosomes (LAMP2A, (6).BNIP3triggeredROSgenerationearlyafteritsexpression y LAMP2B,cathepsinB,andcathepsinD),andfunctionasthemas- g (at 12 h) (Fig. 2D and E), likely as a result of mitochondrial tertranscriptionalregulatoroftheautophagy-lysosomemachin- u depolarization (Fig. 2F and G). Scavenging of ROS with e ery(TFEB)butdidnotalterexpressionoftheunrelatedribosomal s MnTMPyP,acell-permeatingsuperoxidedismutasemimetic, t proteinsRPL32andRPS12(changesintranscript/GAPDHabun- dancesof0.95-(cid:10)0.02-fold[versus1.01-(cid:10)0.03-foldforLacZ] did not affect BNIP3-induced mitochondrial depolarization and0.95-(cid:10)0.03-fold[versus1.04-(cid:10)0.03-foldforLacZ],respec- (Fig. 2F and G) but prevented the increase in beclin-1 abun- tively; the P value was nonsignificant [NS]; n (cid:8) 8). Taken to- dance (Fig. 2H and I), indicating that BNIP3-induced mito- chondrialpermeabilizationisthecauseratherthantheconse- gether, these observations indicate that in contrast to the well- quenceofROSgeneration,whichprovokesincreasedbeclin-1 describedtranscriptionalstimulationoftheautophagy-lysosome machinery observed with starvation (21–24), BNIP3 expression abundance.TreatmentwithMnTMPyPinducedreductionsin resultsintranscriptionalsuppressionofthismachinerytoprevent LAMP1transcripts(Fig.2J)andproteinlevels(Fig.2KandL), itsreplenishment,whileautophagyisrobustlyinducedtoremove consistent with prior reports indicating that basal ROS levels BNIP3-damagedmitochondria(15). maydrivetranscriptionoflysosomalgenes(36).Importantly, We and others have observed a rapid increase in beclin-1 treatmentwithMnTMPyPpreventedBNIP3-induceddeclines abundance with reperfusion/reoxygenation injury (5, 6), and inLAMP1transcripts(Fig.2J)andprotein(Fig.2KandL)and elevated beclin-1 levels transcriptionally suppress autophagy- inlysosomes(Fig.2MandN)andattenuatedBNIP3-induced lysosomemachinerygenes(6).SinceBNIP3expressionispos- cardiomyocytedeath(Fig.2O).Takentogether,theseobserva- tulatedtodisplacebeclin-1fromitsbindingtoBcl2asamech- tions indicate that BNIP3-induced ROS mediate increased 960 mcb.asm.org MolecularandCellularBiology March2015 Volume35 Number6 Beclin-1RegulatesMitochondrialQualityviaTFEB D o w n lo a d e d f r o m h t t p : / / m c b . a s m . o r g FIG2BNIP3-inducedROSdriveincreasedbeclin-1proteinlevelsandsuppressionoflysosomeabundance.(AtoC)Representativeimmunoblot(A)and / quantitationofbeclin-1protein(n(cid:8)3)(B)andBECN1transcripts(n(cid:8)3or4)(C)inNRCMstransducedwithBNIP3orLacZfortheindicateddurations.(D o andE)Representativeflowcytometrictracings(D)andquantitation(E)ofROS(n(cid:8)3or4)inNRCMstransducedwithBNIP3orLacZfor12h.HO (500 n mmol/liter;4h)wasusedasthepositivecontrol.(FandG)Representativeflowcytometrictracings(F)andquantitation(G)ofTMREfluorescence(n2(cid:8)23)in A NRCMstreatedasdescribedforpanelD.(HandI)Representativeimmunoblot(H)andquantitation(I)ofbeclin-1(n(cid:8)3or4)inNRCMstransducedwith p [BnN(cid:8)IP43]o)rabLuacnZdapnlucessMinnNTMRCPMyPs(t5r0ea(cid:5)temdoals/lditeesrc;r2ib4ehd)f.o(rJptoanLe)lLHA.M(MP1antrdanNsc)rRipetp(rnes(cid:8)ent6a)ti(vJe)aflnodwpcryottoemine(trriecptrreasceinntgasti(vMe)imanmduqnuoabnlotitta[tKio]nan(Nd)qoufanLtyistoatTioranck[Le]r ril 3 fluorescence(n(cid:8)3).(O)CelldeathinNRCMstreatedasdescribedforpanelH(n(cid:8)7or8).AlltransductionswereperformedatanMOIof100/sample.*,P(cid:6) , 2 0.05versuscontrol(whitebars). 0 1 9 b y beclin-1abundanceandtheobservedtranscriptionalsuppres- therelativeabundanceofautolysosomesandreducedthelevelof g sionofthelysosomemachinery. autophagosomes (versus the shLacZ control) in BNIP3-trans- u e Partialbeclin-1knockdowntranscriptionallystimulatesau- ducedNRCMs(Fig.3GandH),pointingtoenhancedautophagic s t tophagic flux to attenuate BNIP3-induced cardiomyocyte flux. Partial beclin-1 knockdown also resulted in an increased death. We have observed that experimental modulation of abundanceofautophagyproteins(totalLC3andp62)(Fig.3I), beclin-1levelstranscriptionallyaffectsautophagy-lysosomema- which was transcriptional as we described earlier (6; data not chinery proteins in a reciprocal fashion (6). To determine if shown),andinLAMP1(Fig.3IandJ),parallelingtheincreased BNIP3-induced upregulation of beclin-1 contributes to the ob- lysosome abundance. Importantly, partial beclin-1 knockdown serveddeclineinLAMP1,weperformedapartialknockdownof attenuatedtheBNIP3-induceddeclineinLAMP1protein(Fig.3I BECN1 transcripts (with two different shRNA constructs) in andJ),reducedBNIP3-inducedTUNELpositivity(Fig.3KandL), BNIP3(andLacZ)-treatedNRCMs.Partialbeclin-1knockdown and prevented BNIP3-induced cell death (Fig. 3M), mimicking (reductioninBECN1transcriptsto(cid:11)69%ofcontrollevelandin the observations seen with exogenous expression of TFEB (15). beclin-1proteinto(cid:11)45to50%ofcontrollevel)(Fig.3AtoC) Interestingly, partial beclin-1 knockdown resulted in reduced stimulated LAMP1 transcription (Fig. 3D) and increased lyso- BNIP3protein,whichwaspreventedbyconcomitantinhibition someabundance(Fig.3EandF)topreventBNIP3-inducedde- ofautophagosomeformationwith3MA(Fig.3N)butnotbypro- clines in lysosome numbers (Fig. 3E and F). BNIP3 expression teasome inhibition with MG-132, suggesting an enhanced au- resulted in autophagosome accumulation, indicating impaired tophagicdegradationofBNIP3togetherwiththemitochondria, autophagicflux(15),andpartialbeclin-1knockdownincreased whereupon it is localized. Partial beclin-1 knockdown with the March2015 Volume35 Number6 MolecularandCellularBiology mcb.asm.org 961 Maetal. D o w n lo a d e d f r o m h t t p : / / m c b . a s m . o r g / o n A p r il 3 , 2 0 1 9 b y g u e s t 962 mcb.asm.org MolecularandCellularBiology March2015 Volume35 Number6 Beclin-1RegulatesMitochondrialQualityviaTFEB D o w n lo a d e d f r o m h t t p : / / m FIG4Nearlycompletebeclin-1knockdowninhibitsautophagytoincreaseBNIP3-inducedcelldeath.(A)BECN1transcriptlevelsinNRCMstransducedwith c shBECN1-1,shBECN1-2,orshLacZ(MOI(cid:8)10;72h).(B)Representativeimmunoblot(top)andquantitation(bottom)ofbeclin-1proteinabundancein b . NRCMstreatedasdescribedforpanelA(n(cid:8)4).*,P(cid:6)0.05versusshLacZ.(CandD)GFP-taggedLC3localization(magnification,(cid:7)630;representativeof3 a experiments)(C)andquantitationofpunctateGFP(D)inNRCMstreatedasdescribedforpanelAandcotransducedwithBNIP3orLacZ(24h)(n(cid:8)15to20 sm cells/group).*and#,P(cid:6)0.05versuscontrol(whitebars)andtheBNIP3-plus-shLacZgroup,respectively.(E)CelldeathinNRCMstreatedasdescribedforpanel . C(n(cid:8)7to15).*,P(cid:6)0.05versuscontrol(whitebar). o r g / o n secondshRNAconstruct(shBECN1-2)(Fig.3AtoD)recapitu- Partial beclin-1 knockdown activates TFEB to attenuate A latedthesefindings(datanotshown).Takentogether,thesedata BNIP3-inducedcardiomyocytedeath.Intriguingly,theeffectsof p indicatethatpartialbeclin-1knockdowntranscriptionallystimu- partial beclin-1 knockdown (Fig. 3) mimicked our observa- ril latesautophagicfluxtorestoreimpairedautophagosomeprocess- tions with TFEB activation (15). Therefore, we evaluated the 3 , ingwithBNIP3expression. effect of partial beclin-1 knockdown on TFEB activation. Re- 2 Notably, as we observed previously (6), a more complete centstudiesuncoveredatightlyregulatedmechanismforTFEB 0 1 knockdownofBECN1(with10-foldhigheradenoviralshBECN1 activation, whereby TFEB is phosphorylated and sequestered 9 transduction,to(cid:11)13%oftranscriptlevelswithshLacZ,resulting in the cytoplasm, in the unstressed state, and starvation-in- b inareductionofbeclin-1proteinabundanceto(cid:11)7%ofthecon- duced mTOR inactivation provokes dephosphorylation and y g trollevel)(Fig.4AandB)resultedininhibitionofautophagosome nuclear translocation of TFEB (21, 22, 24). Given the lack of u e formation (Fig. 4C and D) and increased BNIP3-induced cell suitableantibodiestodetectendogenousTFEBinratcells(24), s death (Fig. 4E), consistent with an obligate role for beclin-1 in weexaminedtheeffectofstarvationonsubcellulardistribution t initiationofautophagy(26). ofexogenousTFEBinNRCMs.ExogenousTFEBexpressedat FIG3Partialbeclin-1knockdownstimulateslysosomebiogenesisandinducesautophagicfluxtoattenuateBNIP3-inducedcelldeath.(A)BECN1transcript levelsinNRCMstransducedwithtwoshBECN1constructsorshLacZ(MOI(cid:8)1;72h).(BandC)Representativeimmunoblot(B)andquantitation(C)of beclin-1protein(n(cid:8)4)inNRCMstreatedasdescribedforpanelA.*,P(cid:6)0.05versusshLacZ.(D)LAMP1transcriptlevelsinNRCMstreatedasdescribed forpanelAandcotransducedwithBNIP3orLacZ(MOI(cid:8)100;24h)(n(cid:8)4to12).*and#,P(cid:6)0.05versuscontrol(whitebar)andtherespective shBECN1-treatedgroup,respectively.(EandF)Representativeflowcytometrictracings(E)andquantitation(F)ofLysoTrackerfluorescenceinNRCMs transducedwithshBECN1-1orshLacZandcotransducedwithBNIP3orLacZasdescribedforpanelD(n(cid:8)3).(GandH)mCherry-GFP-LC3localization (magnification,(cid:7)630;representativeof3experiments)(G)andquantitationofautophagosomes,autolysosomes,andboth(H)inNRCMstreatedasdescribed forpanelB(n(cid:8)20to40nuclei/group).*,#,and$,P(cid:6)0.05forautophagosomes,autolysosomes,andboth,respectively,versusshLacZ-plus-LacZcontrol.(Iand J)Immunoblotdepictingautophagy-lysosomeproteins(I)andquantitationofLAMP1(n(cid:8)3)(J)inNRCMstreatedasdescribedforpanelE.*,P(cid:6)0.05versus control(whitebar).(KandL)Representativeimages(magnification,(cid:7)200)(K)andquantitationofTUNELpositivity(greeninpanelK)(n(cid:8)4)(L).(M)Cell deathinNRCMstreatedasdescribedforpanelE(n(cid:8)20to24).*,P(cid:6)0.05versuscontrol(whitebar).(N)BNIP3expressioninNRCMstransducedwith shBECN1-1orshLacZ(MOI(cid:8)1;72h)andcotransducedwithBNIP3orLacZ(MOI(cid:8)100;24h),withorwithout3MA(7mmol/liter)orMG-132(10 (cid:5)mol/liter). March2015 Volume35 Number6 MolecularandCellularBiology mcb.asm.org 963 Maetal. D o w n lo a d e d f r o m h t t p : / / m c b . a s m . o r g / o n A p r il 3 , 2 0 1 9 b FIG5Partialbeclin-1knockdownactivatesTFEBtoattenuateBNIP3-inducedcelldeath.(A)SubcellulardistributionofTFEB(magnification,(cid:7)630)in y NRCMstransducedwithHA-TFEB(MOI(cid:8)1;24h),withorwithouttorin-1(250nmol/liter;1h),subjectedtostarvation(4h),ortransducedwithshBECN1-1, g shBECN1-2,orshLacZ(MOI(cid:8)1;72h),withquantitationofcellswithnuclearTFEB(numbersbelowthepanels).*and#,P(cid:6)0.05versusdiluentandshLacZ, u e respectively.(BtoD)ImmunoblotsdepictingTFEBandphosphorylationofS6K,4EBP-1,andmTORinNRCMstreatedasdescribedforpanelA.(EtoG) s ImmunoblotsdepictingTFEBinNRCMstreatedwithtorin-1,shBECN1-1,andshBECN1-2asdescribedforpanelA,followedbybiochemicalfractionationinto t cytoplasmic(GAPDH-expressing)andnucleus-enriched(histoneH3-expressing)fractions.Whitelinesseparatepartsofthesamegel.ThedataforpanelsAto Garerepresentativeof2experiments.(HandI)TFEB(H)andLAMP1(I)transcriptlevelsinNRCMstransducedwithshBECN1constructs(orshLacZ),with orwithoutshTFEB(MOI(cid:8)1;72h)(n(cid:8)4).(J)CelldeathinNRCMstransducedwithshBECN1-1(orshLacZ),withorwithoutshTFEB(MOI(cid:8)1;72h),and cotransducedwithBNIP3orLacZ(MOI(cid:8)100;24h)(n(cid:8)7or8).*,P(cid:6)0.05versuscontrol(whitebars). lowlevelslocalizedtothecytoplasminrestingcardiomyocytes nucleus-enrichedfractionincardiacmyocytes(Fig.5E),asob- and rapidly translocated to the nucleus with starvation and servedinothercelltypes(21,22,24). torin-1treatment(Fig.5A),viainhibitionofmTORactivity(as Partialbeclin-1knockdownalsoresultedinactivationofTFEB evidenced by a reduction in Thr-389 phosphorylation of S6 withincreasednuclearlocalization(Fig.5A)andinincreasesin kinase [S6K], Thr-37/46 phosphorylation of 4E-binding pro- faster-migratingforms(Fig.5C,D,F,andG)andnuclearTFEB tein1[4EBP-1],andSer-2481autophosphorylationofmTOR) levelscomparedtothoseofthecontrol(Fig.5FandG).Todeter- (Fig.5BtoD).Torin-1-inducedmTORinhibitionprovokedan minethemechanismforTFEBactivation,weexaminedmTOR increaseinfaster-migrating(i.e.,dephosphorylated)formsof activitywithpartialbeclin-1knockdown,whichrevealedreduc- TFEB(Fig.5B)andmarkedlyincreasedTFEBabundanceinthe tions in 4EBP-1 phosphorylation and mTOR autophosphoryla- 964 mcb.asm.org MolecularandCellularBiology March2015 Volume35 Number6 Beclin-1RegulatesMitochondrialQualityviaTFEB tion,withoutachange(orevenanincrease)inS6Kphosphoryla- knockdownrestoresnormalmitochondriainBNIP3-expressing tion(Fig.5CandD),suggestingthatmTORinactivationmaybe NRCMs. partial and/or S6K phosphorylation may be affected simultane- PartialBECLIN1knockdownconcomitantlystimulatesmi- ouslybymTOR-independentmechanisms(37).Indeed,complete tochondrialbiogenesisviaTFEBtorescueBNIP3-inducedcell inhibitionofmTORwithtorin-1resultedinfurtherTFEBactiva- death. The effects of partial beclin-1 knockdown (Fig. 7A to F) tioninshBECN1-treatedcells,asevidencedbytheappearanceof mimicked those of exogenous TFEB in BNIP3-expressing cells faster-migrating (dephosphorylated) TFEB bands (Fig. 5C and (15) and suggested a concomitant induction of mitochondrial D).Interestingly,TFEBproteinabundancewasmodestlyreduced biogenesis (Fig. 7E to G), as observed with TFEB activation in withpartialbeclin-1knockdownandstarvation-inducedactiva- noncardiomyocytes(25,42).Indeed,exogenousTFEBlocalized tion(butnotwithtorin-1)(Fig.5BtoG),suggestinganenhanced tothenucleiofNRCMsatincreasingdosesirrespectiveofanother degradation of activated TFEB, as observed previously (22, 38). stimulus,suchasstarvation(Fig.8A),resultinginincreasedau- Partialbeclin-1knockdownalsoresultedinamarkedincreasein tophagic structures and lysosomes, indicating stimulation of endogenousTFEBtranscripts(Fig.5H),consistentwiththeob- autophagy and lysosome biogenesis (Fig. 8B), and in increased servationthatactivatedTFEBinducesitsowntranscription(25). mitochondrialmass(Fig.8CtoF),indicatingthatTFEBissuffi- Importantly,simultaneousknockdownofendogenousTFEB(Fig. cienttostimulatemitochondrialbiogenesisinNRCMs. D 5H) prevented the transcriptional upregulation of LAMP1 (Fig. We observed that TFEB regulated the abundance of tran- o w 5I)andnegatedthesalutaryeffectsofpartialbeclin-1knockdown scripts for PGC1(cid:2) (a modulator of mitochondrial biogenesis n onBNIP3-inducedcardiomyocytedeath(Fig.5J),indicatingthat [1, 43]) in both resting and starved NRCMs (Fig. 9A to C) lo a theeffectsofpartialbeclin-1knockdownaretransducedviaacti- and that exogenous TFEB activated transcription from a d vationofendogenousTFEB. PPARGC1(cid:2) promoter-luciferasereporterconstruct(Fig.9D). e d Conversely, consistent with the observation that exogenous WeproceededtoindividuallymutatethethreeTFEB-binding f r beclin-1issufficienttosuppresstranscriptionofautophagy-lyso- E-boxes(termed“CLEAR”sites,withonlyonebasepairmis- o m someproteinsandinhibitautophagicflux(6),exogenousbeclin-1 match at a degenerate location compared with the ideal site provokedadeclineinlysosomeabundance(Fig.6AandB),witha annotated for maximal activation [33]) in the human h t marked reduction in nuclear TFEB (Fig. 6C) as well as in the PPARGC1(cid:2) promoter (Fig. 9D, left panel). Only mutations tp : abundance of total TFEB (Fig. 6D and E), driven by enhanced withintheCLEARsequencelocated18bpupstreamfromthe // m proteasomal degradation. This was likely the result of the transcriptionalstartsitecompletelyablatedtheresponsiveness c beclin-1-inducedincreaseinmTORactivation(Fig.6F).beclin-1 toTFEB(Fig.9D,rightpanel),andweconfirmedTFEBbinding b . interactswithTSC1(Fig.6G),aspreviouslydescribed(39),with atthissitebyuseofaChIPassay(withaprimerpairflanking a s increasedTSC1andreducedTSC2abundance(Fig.6HtoJ),sug- thissite)(Fig.9E).Importantly,thebp(cid:4)18mutantconstruct m gesting a mechanism whereby recruitment of TSC1 away from retained intact activity toward CREB (44) and TORC2 (45), .o TSC2increasesitsdegradation,drivingincreasedmTORactiva- two known inducers of PPARGC1(cid:2) transcription (Fig. 9F), rg tion via sustained Rheb activity (40, 41). Taken together, these confirming a specific effect of TFEB on PGC1(cid:2) transcription o/ findings indicate that beclin-1 levels reciprocally regulate TFEB viabindingtothissite. n A activity. MultipleobservationssuggestedanimpairmentofTFEBacti- p Partialbeclin-1knockdownrestoresnormallypolarizedmi- vationinthesettingofBNIP3-inducedautophagy,namely,reduc- r tochondria in BNIP3-expressing cells. BNIP3 expression re- tionsinautophagy-lysosomegeneandTFEBtranscripts(Fig.1I) il 3 sulted in mitochondrial fragmentation, and partial beclin-1 and the accompanying impairment of autophagic flux (Fig. 3G , 2 knockdown restored the filamentous appearance of the mito- andH)andarescueofBNIP3-inducedcelldeathwithexogenous 0 1 chondrial network in BNIP3-expressing cells (Fig. 7A). Ultra- TFEB(15)andwithpartialbeclin-1knockdown-mediatedTFEB 9 structuralexaminationofBNIP3-transducedcardiomyocytesre- activation(Fig.5).Indeed,weobservedareductioninthenuclear b vealedwidespreadmitochondrialswellingandfragmentationand TFEBlevelinBNIP3-expressingcells(by33%;P(cid:8)0.005;n(cid:8)3) y g effacement of cristae, with a marked increase in prevalence of (Fig.10A),accompaniedbymTORactivation(foldchangeinp- u autophagic structures, and concomitant partial beclin-1 knock- mTOR/mTORabundances,1.6(cid:10)0.1inBNIP3versus1.0(cid:10)0.1in es down restored structurally normal-looking mitochondria in control;P(cid:8)0.005;n(cid:8)4),asthepossiblemechanism(Fig.10B). t BNIP3-expressing cells (Fig. 7B). Concomitant partial beclin-1 WealsofoundamarkedreductionofPGC1(cid:2)proteinabun- knockdownalsosignificantlyreducedtheprevalenceofBNIP3- danceinBNIP3-expressingNRCMs(Fig.10CandD),whichwas depolarizedmitochondria(Fig.7CandD),consistentwiththeir drivenbyreducedPGC1(cid:2)transcription(Fig.10EandF)andres- increased autophagic removal, as observed with exogenous ex- cuedbyconcomitantTFEBexpression(Fig.10CandD).Toex- pressionofTFEB(15). amineifthebeclin-1proteinaffectsmitochondrialbiogenesisvia BNIP3expressionresultedinreducedmitochondrialmass,as theTFEB-PGC1(cid:2)axis,weevaluatedtheeffectofmodulatingbe- evidenced by reduced NAO fluorescence (Fig. 7E and F) and a clin-1levelsonPGC1(cid:2)transcriptionbyusinglossoffunctionand reducedmitochondrialDNAcontent(Fig.7G).Interestingly,par- gainoffunctionofbeclin-1.Partialbeclin-1knockdowninduced tialbeclin-1knockdownsignificantlyincreasedNAOfluorescence PPARGC1(cid:2) transcription in a TFEB-dependent manner (Fig. (Fig. 7E and F), with a trend toward increased mitochondrial 10G), and conversely, beclin-1 overexpression suppressed DNA(Fig.7G),inLacZ-treatedcontrols;restoredthemitochon- PPARGC1(cid:2)promoteractivity,whichcouldberescuedwithexog- drialmassinBNIP3-expressingcells(Fig.7EtoG);andprevented enous TFEB (Fig. 10H). Taken together, these findings suggest thedeclineincellularATPcontentwithBNIP3expression(Fig. thatBNIP3-inducedbeclin-1upregulationmayalsoimpairmito- 7H). Taken together, these data indicate that partial beclin-1 chondrial biogenesis via attenuation of TFEB activity and a de- March2015 Volume35 Number6 MolecularandCellularBiology mcb.asm.org 965