Rapamycin Exerts Antifungal Activity In Vitro and In Vivo against Mucor circinelloides via FKBP12-Dependent Inhibition of Tor RobertJ.Bastidas,aCeceliaA.Shertz,aSooChanLee,aJosephHeitman,a,b,candMariaE.Cardenasa DepartmentsofMolecularGeneticsandMicrobiology,aMedicine,bandPharmacologyandCancerBiology,cDukeUniversityMedicalCenter,Durham,NorthCarolina,USA ThezygomyceteMucorcircinelloidesisanopportunisticfungalpathogenthatcommonlyinfectspatientswithmalignancies, diabetesmellitus,andsolidorgantransplants.Despitethewidespreaduseofantifungaltherapyinthemanagementofzygomy- cosis,theincidenceofinfectionscontinuestoriseamongimmunocompromisedindividuals.Inthisstudy,weestablishedthat thetargetandmechanismofantifungalactionoftheimmunosuppressantrapamycininM.circinelloidesaremediatedviacon- servedcomplexeswithFKBP12andaTorhomolog.Wefoundthatspontaneousmutationsthatdisruptedconservedresiduesin FKBP12conferredrapamycinandFK506resistance.DisruptionoftheFKBP12-encodinggene,fkbA,alsoconferredrapamycin D o andFK506resistance.ExpressionofM.circinelloidesFKBP12(McFKBP12)complementedaSaccharomycescerevisiaemutant w strainlackingFKBP12torestorerapamycinsensitivity.ExpressionoftheMcTorFKBP12-rapamycinbinding(FRB)domain n conferredrapamycinresistanceinS.cerevisiae,andMcFKBP12interactedinarapamycin-dependentfashionwiththeMcTor lo a FRBdomaininayeasttwo-hybridassay,validatingMcFKBP12andMcTorasconservedtargetsofrapamycin.Weshowedthatin d e vitro,rapamycinexhibitedpotentgrowthinhibitoryactivityagainstM.circinelloides.InaGalleriamellonellamodelofsystemic d mucormycosis,rapamycinimprovedsurvivalby50%,suggestingthatrapamycinandnonimmunosuppressiveanalogshavethe f r o potentialtobedevelopedasnovelantifungaltherapiesfortreatmentofpatientswithmucormycosis. m h t Comparativegenomicstostudycloselyrelatedorganismshas manfungalpathogens,suchasCryptococcusneoformans,Aspergil- tp : / emergedasanimportanttoolforunderstandingphenotypic lusfumigatus,Fusariumoxysporum,andseveralpathogenicPeni- /e differences,suchaspathogenicity,andallowsforidentificationof cillium species (13, 58), and it was later found to have potent c . a conservedmolecularpathwaysthatcanbetargetedinthedevel- immunosuppressiveactivity(35).Inyeastandmammaliancells, s opmentofbroad-spectrumantimicrobialdrugs.Conservedpro- rapamycin inhibits Tor through its association with the prolyl m teinkinasescontrollinggrowthandproliferationoffungalpatho- isomeraseFKBP12,formingabinarycomplexthatbindstothe .o r gensrepresentattractivedrugtargets,bothbecausetheyarelikely highly conserved FRB (FKBP12-rapamycin binding) domain of g / tobeessentialforfungalpropagationanddevelopmentandbe- Tor.Thismechanismofactionissupportedbytheidentification o causetheseenzymesarelikelytobeconservedamongfungalspe- n ofmutationsintheFRBdomainthatconferrapamycinresistance cies, allowing the use of inhibitors of these kinases as broad- A byblockingFKBP12-rapamycinbindingtoTorandbystructural p spectrumantimicrobialtherapeuticagents. r Among the repertoire of conserved protein kinases essential sbtiutidoinesodfeTfionrin(5g,t1h1e,m23o,le3c4u,l5a2r,d5e9ta).ilsofFKBP12-rapamycininhi- il 1 forcellularphysiology,theTorproteinkinaseisthefocusofin- 4 FKBP12 catalyzes cis-trans peptidyl-prolyl isomerization, a , tenseinvestigation,givenitsroleasacentralelementofnutrient- 2 rate-limiting step in protein folding (reviewed in reference 27). 0 regulatedcellgrowthpathways.InSaccharomycescerevisiae,Tor 1 Remarkably,FKBP12alsoservesasthereceptorfortheantimicro- inhibitionbythenaturalproductrapamycinelicitsmanyofthe 9 bial and immunosuppressive drug FK506. Both rapamycin and b cellularresponsesthataretriggeredbynutrientstarvation,suchas y inhibition of protein synthesis, downregulation of amino acid FK506 bind to the active site of FKBP12 and inhibit its prolyl g permeases,proteindegradation,autophagy,andcellcyclearrest isomeraseactivity.ThetargetofFKBP12-FK506iscalcineurin,a u Ca2(cid:1)-calmodulin-regulated serine-threonine-specific protein e (reviewedinreference45).Theseeffectsaremediatedlargelyby s phosphataseconsistingofacatalyticA(CnA)andaregulatoryB t theactivityofTorinpromotingtheexpressionofgenesencoding tRNAs, ribosomal proteins, rRNAs, and amino acid permeases (CnB)subunit(32).Inhumans,calcineurinregulatesnuclearlo- andsuppressingnitrogencataboliterepressionandtheaminoacid calizationofthetranscriptionfactorNFATduringtheresponseto generalcontrolresponse(4,6,10,22,29,41).InS.cerevisiae,two antigen presentation (32). In S. cerevisiae, calcineurin regulates Torproteins,Tor1andTor2,formtwodistinctmultiproteincom- cationhomeostasisandcellintegrityviathetranscriptionfactor plexes, named TORC1 and TORC2 (33, 57). Collectively, these Crz1(46).InC.neoformans,mutantslackingcalcineurinarevia- complexescontrolproteinsynthesis,mRNAsynthesisanddegra- dation, ribosome biogenesis, nutrient transport, and autophagy (TORC1), as well as actin polarization and cell wall integrity Received2November2011 Accepted22December2011 (TORC2)(reviewedinreference60). Publishedaheadofprint30December2011 TheTorkinasehasalsoreceivedwideattentionasanantifun- AddresscorrespondencetoMariaE.Cardenas,[email protected]. galtargetduetoitsinhibitionbythenaturalproductrapamycin. Supplementalmaterialforthisarticlemaybefoundathttp://ec.asm.org/. Rapamycin was first identified as an antimicrobial with potent Copyright©2012,AmericanSocietyforMicrobiology.AllRightsReserved. activityagainstCandidaalbicans(1,56).Subsequently,rapamycin doi:10.1128/EC.05284-11 wasshowntohaverobustantifungalactivityagainstseveralhu- 270 ec.asm.org 1535-9778/12/$12.00 EukaryoticCell p.270–281 RapamycinActivityagainstMucorcircinelloides TABLE1Strainsusedinthisstudy Strain Genotype Referenceorsourcea Phycomycesblakesleeanusstrain NRRL1555((cid:3)) Wildtype SantiagoTorres-Martinez Rhizopusoryzaestrain FGSC9543 Wildtype SantiagoTorres-Martinez Mucorcircinelloidesf.lusitanicusstrainsb R7B((cid:3)) leuA(cid:3)((cid:3)) SantiagoTorres-Martinez NRRL3631((cid:1)) Wildtype((cid:1)) SantiagoTorres-Martinez SM2 NRRL3631((cid:1))fkbA-1(A316G) Thisstudy SM4 R7B((cid:3))fkbA-2(L91P) Thisstudy MU402 R7B((cid:3))pyrG(cid:3) 36 RBM1 MU402fkbA::pyrG Thisstudy RBM2 MU402fkbA::pyrG Thisstudy D o Saccharomycescerevisiaestrains w JK9-3da MATahis4HMLaleu2-3,112rme1trp1ura3-52 23 n JHY3-3B JK9-3dafpr1::URA3 23 lo a CHY251 MATahis3(cid:4)200leu2-3,112trp1(cid:4)101ura3-52vph6(cid:4)::TRP1 25 d CHY516 MATahis3(cid:4)200leu2-3,112trp1(cid:4)101ura3-52vph6(cid:4)::TRP1fpr1::ADE2 25 e d SMY4-1 MATatrp1-901his3leu2-3,112ura3-52ade2gal4gal80URA3::GAL-lacZ 34 f LYS2::GAL-HIS3TOR1-3fpr1::ADE2 ro m aTheindicatedstrainswerekindlyprovidedbySantiagoTorres-Martinez,DepartamentodeGenéticayMicrobiología,FacultaddeBiología,UniversidaddeMurcia,Murcia,Spain. bMatingtypeforMucorstrainsisindicatedby“(cid:3)”or“(cid:1)”. h t t p : / / bleat24°Cbutinviableat37°C,andtheyareavirulentinanimal circinelloides,acommonetiologicalagentofhumanzygomycosis. e c modelsofcryptococcosis(18,39). We found that rapamycin’s antifungal action is mediated via . a Whilethemechanismofrapamycinactionhasbeenconserved FKBP12-rapamycininhibitionofTor,basedontheisolationand s m inbothascomyceteandbasidiomycetefungalspecies(3,13,15), characterization of spontaneous FKBP12 mutations that confer . littleisknownaboutitsactivityinbasalfungallineages,suchasthe resistance to rapamycin. We also demonstrate that M. circinel- o r zygomycetes.OnegroupwithinthezygomycetesistheorderMu- loidesTor(McTor)andFKBP12interactinthepresenceofrapa- g / corales, which arose early during fungal radiation and has mycin and that disruption of the FKBP12-encoding gene, fkbA, o n emerged as an increasingly important cause of infection in hu- confers rapamycin and FK506 resistance. Finally, we show that A mans.ThemajorityofzygomyceteinfectionsarecausedbyRhi- rapamycintreatmentimprovessurvivaloftheinvertebrateGalle- p zopus,Mucor,Rhizomucor,Cunninghamella,andAbsidiaspecies riamellonellainamodelofsystemicmucormycosis,suggestinga ril andareprevalentamongpatientswithdiabetesmellitusandneu- therapeuticeffectofrapamycin.Insummary,thisstudydemon- 1 4 tropeniaandalsoamongorganandhematopoieticstemcelltrans- stratesthehighconservationofrapamycinactionamongfungal , plantrecipients(43,50).Mortalityratesofzygomycosis(alsore- pathogens, providing insights for novel therapeutic vantage 2 0 ferredtoasmucormycosis)canexceed65%and90%,especially points. 1 9 amongtransplantpatients,withanestimatedannualincidenceof MATERIALSANDMETHODS b 1.7infectionspermillionindividualsintheUnitedStatesalone y (42,51).Infectionsareacquiredbyinhalationofinfectiousspores Strains,media,drugs,andgrowthconditions.Strainsusedinthisstudy g arelistedinTable1.Strainsweregrownat30°Corroomtemperatureon u fromsoilordustand,lessfrequently,throughbreachesorinjuries e totheskin.Clinicalmanifestationsofzygomycosisincludesevere YPD (1% yeast extract, 2% Bacto peptone, and 2% dextrose), potato s dextroseagar(PDA),andRPMI(RPMI1640liquidmediumwithglu- t necrosisofnasal,facial,andsubcutaneoustissues,aswellasrhi- tamineandwithoutsodiumbicarbonate[Gibco],supplementedwith2% nocerebral,pulmonary,anddisseminateddisease(44). dextroseandbufferedwith0.165MMOPS[morpholinepropanesulfonic Treatment of zygomycosis relies on early detection of infec- acid][pH7])media.Strainsweregrowneitheronsolidmediacontaining tion,surgicalremoval(debridement)ofnecrotictissue,andag- 2%agarorinliquidcultures.Rapamycin(LCLaboratories)wasdissolved gressiveantifungaltherapy.Primaryantifungaltherapyhasrelied in90%ethanol-10%Tween20.FK506(Prograph)wasobtainedfromthe mostlyonmonotherapywithpolyenesandlipidformulationsof DukeUniversityMedicalCenterpharmacy.RapamycinandFK506stock amphotericin B. Whereas most azoles, including fluconazole, solutionswereaddedtomediaattheindicatedconcentrations. voriconazole,anditraconazole,exhibitunreliableactivityagainst Antifungaldrugtesting.Druginteractionswereassessedbyacheck- erboardtitrationfollowingtheguidelinesestablishedbytheClinicaland zygomycosis,posaconazolehasemergedasanoptionforsalvage LaboratoryStandardsInstitute(CLSI)(11a)forantifungalsusceptibility therapyinpatientswhoarerefractorytopolyenetreatment(44, testingofmolds.InvitrotestingwasperformedinRPMI1640medium. 51, 53). Despite aggressive surgical and antifungal therapies for Aliquotsof50(cid:1)lofeachdrugata4(cid:2)concentrationweredispensedto treatmentofzygomycosis,themortalityrateassociatedwithin- wellsofa96-wellmicrotiterplatetoprovide77drugcombinations.Ad- fectionsbythesepathogenshasremainedhigh,warrantingnovel ditionalrowswereusedtodeterminetheMICofeachagentaloneandfor strategiesforthetreatmentofzygomycosis. thegrowthcontrolwell(drug-free).Finaldrugconcentrationstestedwere HereweidentifytheFKBP12andTorhomologsfromMucor asfollows:rapamycin,200(cid:1)g/mlto3.12(cid:1)g/ml(6dilutions);andFK506, March2012 Volume11 Number3 ec.asm.org 271 Bastidasetal. 25.0(cid:1)g/mlto0.1(cid:1)g/ml(9dilutions).Toeachwell,aninoculumof5(cid:2) homokaryoticmycelialgrowthwasobserved.Sporesuspensionswerecol- 104sporangiospores/mlwasadded,andmicrotiterplateswereincubated lectedandtestedforrapamycinresistanceonYPDsolidmediumcontain- at35°Cwithoutshakingfor24h.Growthinhibitiondeterminationswere ing100(cid:1)g/mlrapamycin.TotalDNAwasisolatedfromM.circinelloides performedwiththeaidofaconcavemirror.TheMICandMIC ofdrugs myceliagerminatedinliquidYPDmediumat30°Cbyharvestingmycelia 80 weredefinedasthelowestdrugconcentrationsinthewellsproducinga overMiracloth(Calbiochem,LaJolla,CA)andvacuumdryingmyceliaby completeabsenceofvisualgrowthandan80%reductionofgrowth,re- lyophilization.Driedmyceliaweretrituratedwithglassbeadsbymanual spectively. agitationandresuspendedin1mlCTABextractionbuffer(100mMTris- Identification of M. circinelloides FKBP and Tor homologs. M. HCl[pH8.4],1.4MNaCl,25mMEDTA,2%cetyltrimethylammonium circinelloidesFK506bindingproteinswereidentifiedbysearchingtheMu- bromide[CTAB]).Astandardphenol-chloroformextractionprocedure corcircinelloidesCBS277.49genomedatabase(http://genome.jgi-psf.org wasused,followedbyDNAprecipitationusinga1/10volumeof3M /Mucci2/Mucci2.home.html) for genes encoding proteins containing sodium acetate and 2 volumes of 100% ethanol. The DNA pellet was predicted FK506 binding domains with high homology to the FK506 resuspendedin1mlofTris-EDTAbuffer(10mMTris-HCl,1mMEDTA, bindingdomainofS.cerevisiaeFKBP12(ScFKBP12;encodedbyFPR1) pH7.0).GenomicDNAwasusedtoamplify700-bpfragmentsbyPCR, (seeFig.2).PercentidentityandsimilarityweredeterminedbyBLAST including1-kbsequencesupstreamanddownstreamofthefkbAcoding protein sequence alignments utilizing bl2seq from NCBI. Protein do- sequence,andeachfragmentwassequenced.DNAanalysiswascompared mainswereidentifiedusingthePrositedatabaseofproteindomains,fam- bygenomicDNABLASTsearchesagainsttheM.circinelloidesgenomic D ilies,andfunctionalsites(http://prosite.expasy.org/).TheTorhomolog databasesequences. o wasidentifiedbysearchingtheMucorcircinelloidesCBS277.49genome Geneexpressionanalyses.M.circinelloidesculturesweregrownin w databaseforproteinscontainingaTorFRBdomainwithhighhomology liquidYPDmediumat30°C,andmyceliumpowderextractswerepre- n totheS.cerevisiaeTorFRBdomain.Phylogeneticreconstructionswere paredasdescribedabove.TotalRNAwasisolatedusingTRIzolreagent lo a performedwiththeGeneious(Biomatters)platformforsequencealign- (Invitrogen, Carlsbad, CA) following the manufacturer’s instructions, d ment,utilizingtheBlosum62costmatrixandtheJukes-Cantormethod and30(cid:1)goftotalRNAwasloadedontoa1%formaldehydeagarosegel. e d forgeneticdistancemodeling. Followingtransfer,membraneswerehybridizedtoradioactivefkbAand f Plasmidconstruction.ThefkbAopenreadingframewasPCRampli- actADNA-basedprobes.Hybridizedprobesignalsweredetectedusinga ro fiedfromanR7BcDNAlibrarybyuseofprimerscontainingahemagglu- phosphorimager.cDNAwassynthesizedfrom1.5(cid:1)goftotalRNAbyuse m tinin(HA)epitopesequence(directlyupstreamofthefkbAcodingse- ofanAffinityScriptmultiple-temperaturereversetranscriptasekit(Strat- h quence)andPstIandSalIrestrictionsites.Theampliconwasdigestedwith agene). tt p PstI and SalI and cloned into PstI/SalI-digested pCu415CUP1 (30) to Westernblotanalyses.M.circinelloidesproteinextractsweregener- : / generateplasmidpCu415-HA-FKBP12.TheFRBdomain-encodingre- atedfromculturesgrowninYPDmediumat30°Cbyharvestingmycelia /e gionoftorAwasamplifiedfromR7BgenomicDNAbyuseofprimers overMiracloth(Calbiochem,LaJolla,CA)andvacuumdryingmyceliaby c . containingaMycepitopesequence(directlyupstreamoftheFRBdomain lyophilization.Driedmyceliaweretrituratedwithglassbeadsbymanual a s sequence)andEcoRIandPstIrestrictionsites.Theampliconwasfirst agitation,and20mgwasresuspendedin200(cid:1)lofsamplebuffer(1% m digested with EcoRI, blunted with T4 DNA polymerase, and digested SDS, 9 M urea, 25 mM Tris-HCl, pH 6.8, 1 mM EDTA, 0.7 M beta- .o with PstI. The digested amplicon was cloned into SmaI/PstI-digested mercaptoethanol) supplemented with phenylmethylsulfonyl fluoride r g pCu414CUP1(30)togenerateplasmidpCu414-Myc-FRB.Theyeasttwo- (PMSF)andtheindicatedconcentrationofRocheCompleteEDTA-free / o hybridconstructpGBKT7-FRBwasgeneratedbyfirstamplifyingtheFRB proteaseinhibitorcocktail.Sampleswereboiledfor2min,vortexedfor1 n domain sequence of torA from R7B genomic DNA by use of primers min,andboiledagainfor1min.Anadditionalcentrifugationstepwas A containing NcoI and BamHI restriction sites. The amplicon was then carriedoutfor15minat16,000rpm,andsupernatantswerecollected.For p digestedwithNcoIandBamHIandligatedinframewiththeGAL4DNA Westernblotting,0.3mgoftotalproteinextractwasloadedona4to20% ril binding domain (BD) into NcoI/BamHI-digested pGBKT7 (Clontech SDS-PAGE gel and transferred to a polyvinylidene difluoride (PVDF) 1 4 LaboratoriesInc.).ThepGADT7-FKBP12plasmidwasgeneratedbyam- membrane(AmershamBiosciences,Piscataway,NJ).Blotswereblocked , plifyingthefkbAcodingsequencefrompCu415-HA-FKBP12byuseof with5%nonfatmilk-0.05%Tween20inTris-bufferedsaline,andmem- 2 0 primerscontaining30bpofpGADT7ADsequence(ClontechLaborato- braneswereincubatedovernightat4°Cwitha1:1,000dilutionofantise- 1 riesInc.)directlyupstreamoftheEcoRIsite(includingtheEcoRIsite)and rum against ScFKBP12, raised in rabbits (7). Horseradish peroxidase 9 30bpofpGADT7ADsequencedirectlydownstreamoftheBamHIsite (HRP)-conjugatedanti-rabbitIgGantibodywasusedasthesecondary b y (including the BamHI site). The amplicon was cotransformed with antibody,atadilutionof1:2,000.Equalloadingofsampleswasmonitored g EcoRI-digestedpGADT7ADintoS.cerevisiaestrainSMY4-1(Table1)by bystrippingandincubatingmembranesfor1hwitha1:2,000dilutionof u astandardlithiumacetatetransformationmethod.Strainsinwhichthe aratanti-alpha-tubulinantibody(SantaCruzBiotechnology,SantaCruz, e s fkbAcodingsequencewasclonedinframewiththeGAL4activationdo- CA).HRP-conjugatedanti-ratIgGantibodywasusedasthesecondary t main(AD)inpGADT7ADbyhomologousrecombinationwereselected antibody, at a 1:2,000 dilution. Proteins were visualized by using ECL oncompletesyntheticmediumlackingleucine(CSM(cid:3)Leu).Thepres- Westernblottingsubstrate(PierceBiotechnology,Rockford,IL)follow- enceoftheclonedfkbAcodingsequencewasconfirmedbycolonyPCR. ingthemanufacturer’sprotocol. TotalgenomicDNAwasextractedfrompositivetransformants,and2(cid:1)l S.cerevisiaetotalproteinextractswerepreparedbydisruptingcells ofthisDNAwastransformedintoEscherichiacoliDH5(cid:2)cells(Invitrogen withglassbeadsinlysisbuffer(20mMTris-HCl,pH7.5,100mMKCl,0.1 Corporation)torecoverpGADT7-FKBP12plasmids. mMEDTA,100(cid:1)MNa VO,25mMbeta-glycerophosphate,25mMNaF) 3 Yeasttwo-hybridassay.Thetwo-hybridstrainSMY4-1(Table1)was supplemented with PMSF and the indicated concentration of Roche cotransformedwiththetwo-hybridfusionplasmidspGBKT7-FRBand CompleteEDTA-freeproteaseinhibitorcocktail.Fiftymicrogramsofto- pGADT7-FKBP12,cellsweregrownonCSM(cid:3)Leu(cid:3)Trp,and(cid:3)-galacto- talproteinextractwasusedforWesternblottingasdescribedabove. sidaseactivitywasassayedusingthechlorophenol-(cid:3)-D-galactopyranoside DisruptionoftheM.circinelloidesfkbAgene.AnR7BfkbAdisrup- (CPRG)substrateaspreviouslydescribed(8). tioncassettewasgeneratedbyoverlapPCRamplificationofanamplicon Molecular analysis of spontaneously drug-resistant M. circinel- containing1,000bpoffkbAgenomicDNAsequencedirectlyupstreamof loides isolates. Spontaneously FK506 and rapamycin cross-resistant theATGcodon,withanaddedXbaIrestrictionsite;a2,000-bppyrGgene strainswereisolatedbyspreading500M.circinelloidessporangiosporeson amplicon;andanampliconwith1,000bpoffkbAgenomicDNAsequence YPD solid medium containing 1 (cid:1)g/ml FK506 and passaging FK506- directlydownstreamofthefkbAcodingsequencestopcodon,withan resistantmycelialoutgrowthsonFK506-containingsolidmediumuntil addedXmaIrestrictionsite.TheresultingfkbA::pyrGdisruptioncassette 272 ec.asm.org EukaryoticCell RapamycinActivityagainstMucorcircinelloides TABLE2Radialcolonydiametersofzygomycetespeciesgrowninthe presenceofYPD,rapamycin,andFK506a Mean(SE)colonydiam(cm)b YPD(cid:1) Strain YPD rapamycin YPD(cid:1)FK506 MucorcircinelloidesR7B 6.8(0.065) 5.0(0.061) 0.4(0.053) Mucorcircinelloides 7.2(0.077) 4.9(0.080) 0.6(0.042) NRRL3631 Rhizopusoryzae 8(0) 3.7(0.086) 0.5(0.030) FGSC9543 Phycomycesblakesleeanus 8(0) 4.0(0.061) 0(0) NRRL1555 aSpores(500sporesperplate)fromrepresentativezygomycetespeciesweregerminated onYPDagarcontainingeither100nMrapamycinor1(cid:1)g/mlFK506.Sporeswere germinatedfor72hatroomtemperature,andcolonydiametersweremeasured. bStandarderrorswerecalculatedfor8replicates. D o w n mus) and FK506 (tacrolimus) have been established for several lo a ascomycetous and basidiomycetous fungal pathogens, little is d known about the activities of these antifungal agents and their e d FIG1Growthofrepresentativezygomycetespeciesiscompromisedwhen mechanismsofactioninbasalfungallineages,whichincludesev- f organismsareexposedtorapamycinandFK506.Spores(500sporesperplate) r eralfungalpathogensofclinicalandenvironmentalimportance. o fromrepresentativezygomycetespeciesweregerminatedonYPDagarcon- m tainingeither100nMrapamycinor1(cid:1)g/mlFK506.Sporesweregerminated Tofurtherassesstheactivitiesofthesenaturalproductsamong for72hatroomtemperature. basalfungalspecies,growthassaysofthezygomycetespeciesM. h t t circinelloides,Rhizopusoryzae,andPhycomycesblakesleeanuswere p : performedinthepresenceofbothrapamycinandFK506.Growth // wasdigestedwithXbaIandXmaIandligatedintopJAF12,yieldingplas- ofM.circinelloidesstrainsR7B((cid:3)matingtype)andNRRL3631 ec mid pJAF12/fkbA::pyrG. The disruption plasmid was linearized with ((cid:1)matingtype)andofR.oryzaeandP.blakesleeanusstrainswas .a XhoIanddephosphorylatedwithcalfintestinalphosphatase(CIP;New s EnglandBioLabs),and50(cid:1)gofdigestedplasmidwastransformedinto evaluated on rich agar media containing rapamycin or FK506. m twoindependentMU402(R7BpyrG(cid:3)strain)(Table1)cultures.Trans- Whileallfourstrainsexhibitedreducedradialmycelialgrowthin .o formationwasperformedasdescribedinreference55,withamodified thepresenceofrapamycin,P.blakesleeanusgrowthexhibitedthe rg protoplastpreparationstepasdescribedinreference37,inwhich2.5(cid:2) highest sensitivity to rapamycin, with a clear reduction in both / o 108germinatedsporeswereincubatedwith5mg/mlchitosanase(molec- radialmycelialgrowthandapicalsporangiophoreformation(Fig. n ulargrade;U.S.BiologicalsRD)and0.5mg/mllysingenzymes(Sigma)for 1andTable2).Asobservedwithrapamycin,FK506stronglyin- A 90minat30°C.fkbAdisruptionwasverifiedbyPCR(seeFig.6B)utilizing hibited the growth of all zygomycete species tested (Fig. 1 and p r primersP1(JOHE20967;5=-GAAAATAAGAAAAGAATAAATTAGATT Table2). il AC-3=),P2(JOHE20968;5=-AAGCACCTATTATATGGAGATAGAAC- 1 In addition, we also determined the rapamycin and FK506 4 3=),P3(JOHE20965;5=-AAAGTATATTAAAGGCAATAAAGTACAAT- , MICs for inhibition of growth of all three zygomycete species, 3=),andP4(JOHE20966;5=-AATAGACAATAATTCTTTCTTTGTAGT 2 followingCLSI’sguidelinesforantifungalsusceptibilitytestingof 0 AAC-3=)andbySouthernblotanalysis(datanotshown). 1 Galleriamellonellamodelofsystemiczygomycosis.M.circinelloides molds by broth microdilution (11a). We found that rapamycin 9 inoculumswerepreparedinphosphate-bufferedsaline(PBS)bysuspend- inhibitedupto80%ofgrowthatconcentrationsabove6.26(cid:1)g/ b ingsporangiosporesharvestedfrommyceliallawnsgrownonPDAfor5 ml,12.5(cid:1)g/ml,and100(cid:1)g/mlforP.blakesleeanus,R.oryzae,and y g daysatroomtemperature,andsporetitersweredeterminedbyhemocy- M.circinelloides,respectively(Table3).Asexpected,P.blakesleea- u tometercounting.Drugstockswerepreparedbydilutionin90%ethanol- nusgrowthinhibitionrequiredlowerconcentrationsofrapamy- e s 10%Tween20.Measurementsofthehemolymphvolumeof20larvaeof cin, while surprisingly, M. circinelloides growth inhibition re- t variousweightsanddeterminationofthemeanhemolymphvolume/kgof quired high concentrations of rapamycin during liquid culture bodyweightbylinearregressionanalysiswereusedtodeterminethedrug growth(Table3).Interestingly,growthofR.oryzaeexhibitedthe dosesadministered.LarvaeinthefinalinstarwereobtainedfromVander- leastsensitivitytoFK506onagarmediumcontainingFK506(Fig. host,Inc.Tenlarvae(300mg(cid:5)25mg)wereusedpergroup.Eachlarva wasinjectedwith5(cid:1)lofPBScontaining500sporangiospores,PBSonly, drugs,orvehicleintothehemocoelviaaproleg.At4hpostinfection,5(cid:1)l ofPBScontainingdrugsorvehiclecontrolwasinjectedintoeachlarvavia TABLE3RapamycinandFK506MIC80sduringgrowthofzygomycete aseparateprolegfromtheoneusedduringinfection.Larvaewereincu- species batedatroomtemperature,andthenumberofdeadlarvaewasscored MIC ((cid:1)g/ml)a 80 daily.Killcurveswereplotted,anddifferencesinsurvivalrates(logrank Strain Rapamycin FK506 test) were determined by the Kaplan-Meier method, using GraphPad Prismsoftware. MucorcircinelloidesR7B((cid:3)) 100–200 0.8–1.6 MucorcircinelloidesNRRL3631((cid:1)) 100–200 0.4–0.8 RESULTS RhizopusoryzaeFGSC9543 12.5–25 0.2–0.4 Growth of representative zygomycete species is sensitive to PhycomycesblakesleeanusNRRL1555 6.3–12.5 0.2–0.4 rapamycin.Whilethemechanismsofactionofrapamycin(siroli- aDrugdilutionstestedrangedfrom200to0.09(cid:1)g/ml. March2012 Volume11 Number3 ec.asm.org 273 Bastidasetal. D o w n lo a d e d f r o m h t t p : / / e FIG2M.circinelloidesfamilyofFK506bindingproteins.FamilymemberswereidentifiedbasedontheirproteinsequencehomologytotheFK506binding c domainofS.cerevisiaeFKBP12.IdentityandsimilarityscorescorrespondtosimilaritiesbetweentheproteinsequenceoftheFK506bindingdomainofeachM. .a circinelloidesFKBPfamilymemberandthecorrespondingdomainofS.cerevisiaeFKBP12.ThenomenclatureforeachFKBP(FK506bindingprotein)family s m memberisbasedonitspredictedmolecularmass(denotedinaparenthesisbeloweachhomolog).ProteinIDsarefromtheMucorcircinelloidesCBS277.49v2.0 genomedatabase,hostedattheJointGenomeInstitute(JGI)website.TPR,tetratricopeptiderepeat. .o r g / o n 1),whileitexhibitedahighersensitivitytoFK506thanthoseofthe theM.circinelloidesgenomeidentifiedafamilyof5genesencod- A MucorandP.blakesleeanusstrainsinabrothmicrodilutionassay ing 5 putative proteins with closely related FK506 binding do- p (Table 3). While the source of these discrepancies remains un- mains. We named these genes fkbA, fkbB, fkbC, fkbD, and fkbE ril known,theyarelikelyaresultofdifferencesinR.oryzaegrowth (FK506binding),andbasedonthepredictedmolecularweightsof 1 4 properties on semisolid surfaces and liquid medium. Neverthe- the proteins they encode, we named their products FKBP12, , less,bothassaysclearlyindicatethatR.oryzaeishighlysusceptible FKBP19, FKBP22, FKBP30, and FKBP42, respectively (Fig. 2). 2 0 to FK506. In contrast to the fungicidal activity of rapamycin FK506bindingproteinswithvariousmolecularweightsareubiq- 1 9 against the pathogens C. albicans and C. neoformans (MICs of uitous in nature, and members of the FKBP family have been (cid:6)0.09 (cid:1)g/ml and (cid:7)0.19 (cid:1)g/ml, respectively [15]), zygomycete identifiedinmultipleorganisms,includinghumans,plants,and by growthwasnotentirelyinhibitedbyrapamycin,andinhibition fungi (40). FKBP12 family members contain only one FK506 g u requiredsignificantlyhigherconcentrationsofdrug,whichcould bindingdomain,whileFKBPswithhighmolecularweightspos- e beduepartlytodecreasedpermeabilityofzygomycetecellwalls sessextradomains,suchastetratricopeptiderepeatdomainsand s t and/ormembranestorapamycinorhigher-affinitydrugpumps calmodulin binding and transmembrane motifs (20). Based on ortoocclusionoftheFRBdomaininzygomyceteTorhomologs. the12-kDapredictedmolecularmassoftheM.circinelloidespu- Nevertheless,theeffectofrapamycinonthegrowthofthetested tativehomologandonphylogeneticanalysesoftheMcFKBPfam- zygomycetespeciesprovidesevidencethatintheseorganisms,Tor ilyofproteinsandseveralfungalFKBP12homologs(Fig.3),we alsofunctionstocontrolgrowth.TheMIC sofFK506weresig- identifiedfkbAasthegeneencodingtheMcFKBP12homolog. 80 nificantlylowerthanthoseobservedforrapamycin(Table3),in TotestwhethertheproductoffkbAfunctionsastherapamy- agreement with the phenotypes observed during growth on cin/FK506receptorinM.circinelloides,weperformedfunctional FK506-containing agar medium. These results illustrate that complementation studies using S. cerevisiae as a heterologous FK506exhibitspotentantifungalactivityagainstthezygomycete host.FromanM.circinelloides(R7B)cDNAlibrary,weamplified speciestested. anHA-taggedfkbAcodingsequenceampliconandcloneditintoa TheM.circinelloidesFKBP12homologandtheFRBdomain yeastlow-copy-numberplasmidunderthecontrolofaninducible ofTorarerequiredforrapamycinaction.Wefoundthatgrowth copper promoter (pCu415CUP1) (30). The resulting plasmid of M. circinelloides strains was compromised during rapamycin (pCu415-HA-FKBP12) was introduced into a rapamycin-resis- treatment.Thepresumedtargetsofrapamycininthisfungalspe- tantS.cerevisiaestrainlackingtheFKBP12homolog(fpr1(cid:4))(23) ciesaretheFKBP12andTorhomologs.Comparativeanalysisof and tested on rapamycin-containing YPD agar plates with or 274 ec.asm.org EukaryoticCell RapamycinActivityagainstMucorcircinelloides D o w n lo a d e d f r o FIG3PhylogeneticreconstructionofM.circinelloidesFKBPfamilyofproteinsandfungalFKBP12homologs.TheMcFKBP12homologwasidentifiedbyprotein m sequencecomparisonswithPhycomycesblakesleeanus(P.b.),Candidaglabrata(C.g.),S.cerevisiae(S.c.),Schizosaccharomycespombe(S.p.),Aspergillusfumigatus h (A.f.),Neurosporacrassa(N.c.),Ustilagomaydis(U.m.),Cryptococcusneoformans(C.n.),Rhizopusoryzae(R.o.),andBatrachochytriumdendrobatidis(B.d.) t t FKBP12homologs. p : / / e c . a without exogenous copper. Heterologous expression of McfkbA straintransformedwithvectoraloneremainedsensitivetorapa- s restoredrapamycinsensitivityinthefpr1(cid:4)strain,indicatingthat mycin (Fig. 4B). These results indicate that the M. circinelloides m . McHA-FKBP12 can functionally complement an S. cerevisiae FRB domain can effectively compete for rapamycin binding o r strainlackingendogenousFKBP12(Fig.4A). (whenoverexpressedinthepresenceofcopper)andistherefore g / We also tested whether McHA-FKBP12 can mediate FK506- thelikelytargetoftheFKBP12-rapamycincomplexinM.circinel- o n dependentinhibitionofS.cerevisiaecalcineurinbytransforming loides. theMcfkbA-containingconstructintoanS.cerevisiaevph6(cid:4)fpr1(cid:4) Theyeasttwo-hybridreportersystemwasusedtodetermine Ap dpoounbenletmofuthtaenvtascturaoilnar(H25(cid:1))-.ALTosPsaosefVasPseHm6b(lwyhcoicmhpelnecxo)dreessualtcsoimna- wthheetphreerseMncceFKoBfPra1p2aimntyecrianc.tsTwoitthhitsheenFdR,BadroampaaminycoifnM-recTsiostranint ril 1 4 synthetic lethal phenotype during inhibition of calcineurin by yeasttwo-hybridhoststraincontainingaTOR1-3mutationand , FK506,whereasavph6(cid:4)fpr1(cid:4)mutantstrainalsolackingFKBP12 lacking endogenous FKBP12 was employed (SMY4-1) (8). This 2 0 isFK506resistant(seeFig.S1Ainthesupplementalmaterial)(24). strain was transformed with plasmids expressing McFKBP12 1 9 Surprisingly,heterologousexpressionofMcHA-FKBP12didnot fusedtotheGAL4AD(pGADT7-FKBP12)andtheMcTorFRB render the vph6(cid:4) fpr1(cid:4) strain sensitive to FK506 (see Fig. S1), domainfusedtotheGAL4BD(pGBKT7-FRB),andinteractions by indicating that McHA-FKBP12 is unable to inhibit calcineurin were quantified by monitoring expression of a GAL4-lacZ re- g u function during FK506 exposure, even though the McHA- porter gene. Strong interactions between FKBP12 and the FRB e FKBP12 protein was stably expressed in a vph6(cid:4) fpr1(cid:4) back- domainwereobservedonlyinthepresenceofrapamycin,indicat- s t groundinaWesternblot(datanotshown).Thismayreflectdif- ingthattheFRBdomainofTorisatargetforrapamycinwhenTor ferences in the composite FKBP12-FK506-calcineurin binding iscomplexedwithFKBP12(Fig.4C).Insummary,theMcFKBP12 surface that arose during divergence of S. cerevisiae and M. cir- homologcanfunctionasthereceptorforrapamycinandcanme- cinelloidesfromtheirlastcommonancestor. diateinhibitionofTorviatheFRBdomaininaheterologoushost. Genomeanalysisalsorevealedthepresenceofonegeneencod- MutationsinfkbAconferrapamycinandFK506resistance. ing a Tor homolog (Mucor circinelloides CBS277.49 protein ID TheobservationthatMcFKBP12canmediaterapamycininhibi- 152074),whichwedesignatedtorA.TheFRBdomainofTorwas tionofScToryetisunabletopromoteinhibitionofS.cerevisiae PCR amplified from M. circinelloides (R7B) genomic DNA and calcineurininthepresenceofrapamycinpromptedustoemploya cloned into a yeast low-copy-number plasmid containing a genetic approach to assess whether McFKBP12 functions as the copper-induciblepromoter(pCu414CUP1)(30).Awild-typeS. rapamycin/FK506receptorinM.circinelloides.Exploitingthero- cerevisiaestrain(JK9-3da)wastransformedwiththisplasmidand bustantifungalactivityofFK506towardM.circinelloides(Fig.1 tested on rapamycin-containing YPD agar in the presence and andTables2and3),weisolatedaseriesofstrainsintwoindepen- absenceofexogenouscopper.Inthepresenceofcopper,expres- dentstrainbackgrounds,R7B((cid:3)matingtype)andNRRL3631((cid:1) sion of the M. circinelloides FRB domain rescued the wild-type matingtype),thatexhibitedspontaneousFK506resistance,and strainfromthefungicidalactivityofrapamycin,whileawild-type we examined the fkbA locus for the presence of genetic lesions. March2012 Volume11 Number3 ec.asm.org 275 Bastidasetal. D o w n lo a d e d f r o m h t t p : / / e c . a FIG4FKBP12andtheTorFRBdomainofM.circinelloidesinteractandcanfunctionallycomplementS.cerevisiaewild-typeandfpr1(cid:4)strains.(A)McFKBP12 s mediates inhibition of ScTor by rapamycin in an S. cerevisiae fpr1(cid:4) strain lacking FKBP12. Wild-type (JK9-3da) cells transformed with vector alone m (pCu415CUP1[LEU2])aresensitivetorapamycin,whilefpr1(cid:4)cells(JHY3-3B)transformedwithvectoralone(pCu415Cup1)areresistant.Expressionof .o McHA-FKBP12(pCu415-HA-FKBP12)rendersanfpr1(cid:4)strain(JHY3-3B)sensitivetorapamycin.(B)OverexpressionoftheFRBdomainofMcTor(pCu414- r g cMycFRB)inawild-typestrain(JK9-3da)competeswithendogenousTor1/Tor2forrapamycinbinding,suppressingthefungicidalactivityofrapamycin / observedinawild-type(JK9-3da)straintransformedwithvectoralone(pCu414CUP1[TRP1]).(C)TheFRBdomainofMcTorandMcFKBP12interactinthe o presenceofrapamycinintherapamycin-resistantyeasttwo-hybridhostSMY4-1(TOR1-3fpr1(cid:4)GAL4-lacZ).SMY4-1strainstransformedwithvectoralone n (pGADT7ADorpGBKT7)orwithvectorsexpressingtheFRBdomainfusedtotheGAL4DB(pGBKT7-FRB)orFKBP12fusedtotheGAL4AD(pGADT7AD- A fkbA)failtoinducestrongexpressionoftheGAL4-lacZreporterinthepresenceorabsenceofrapamycin.Resultsrepresentthreeindependentreplicates. p r il 1 4 , Twoisolateswereidentified:one,SM2(NRRL3631background), prolinesubstitution(L91P)inthepredictedproteinsequenceof 2 0 wascrossresistanttorapamycinandFK506,andasecondisolate, FKBP12 that does not affect FKBP12 protein production (Fig. 1 9 SM4(R7Bbackground),wassensitivetorapamycinandresistant 5C).Leucine91isahighlyconservedresidueamongFKBP12ho- b toFK506(Fig.5A).Bothisolatesweresensitivetothecalcineurin mologs(Fig.5D)andhasbeenidentifiedasacriticalresiduere- y inhibitor CsA, indicating that these are not multidrug-resistant quiredforbindingofhumanFKBP12tocalcineurin(21).InSM4, g u isolates(Fig.5A).SM2containsanfkbAallele(fkbA-1)harboring the L91P substitution leads to a shorter cyclic side chain that e anA-to-Gsubstitution(A316G)intheacceptorsplicesiteofin- wouldpredictablydiminishcalcineurinbindinginthepresenceof s t tron2.AmplificationofthefkbAcodingdomainsequencefroma FK506 (see Discussion). Taken together, our genetic analysis cDNAlibrarysynthesizedfromSM2totalRNArevealedthepres- stronglysuggeststhatFKBP12functionsastherapamycin/FK506 enceofseveralalternativefkbAcDNAspeciesofvarioussizes(Fig. receptorinM.circinelloides. 5B). Sequence analysis of the smallest species revealed a 28-bp DisruptionoffkbAbyhomologousrecombinationrenders deletionofexon3sequenceduetotheuseofacrypticsplicesite M.circinelloidesresistanttorapamycinandFK506.Tofurther located downstream from the acceptor splice site in wild-type establishthatFKBP12isthecognatereceptorforrapamycinand fkbA (see Fig. S2 in the supplemental material). In two of the FK506,wedisruptedthefkbAlocusbyreplacingthecodingdo- fkbA-1 mRNA species, intron 2 was retained due to the A316G main sequence with a pyrG disruption cassette. A gene replace- substitution,leadingtolongerfkbAcDNAspecies(seeFig.S2). mentallelecomprisedofthepyrGgeneand1-kbsequencesfrom ForallthreecDNA/mRNAspecies,thepredictedproteinscontain thefkbA5=-and3=-untranslatedregions(seeMaterialsandMeth- prematurestopcodonsupstreamoftheFK506bindingdomain ods)waslinearizedandusedtotransformtheuridineauxotrophic (seeFig.S2),andnoFKBP12proteinproductsweredetectableby strainMU402(leuA(cid:3)pyrG(cid:3))(36).Twoindependenttransforma- Westernblotting(Fig.5C). tionswereperformedtoensurethatdisruptionofthefkbAgene The FK506-resistant isolate SM4 contains an fkbA allele resultedfromtwoindependentevents.PCRanalysisoftwoinde- (fkbA-2) in which a mutation in exon 3 results in a leucine-to- pendent homokaryotic uridine prototrophic transformants, 276 ec.asm.org EukaryoticCell RapamycinActivityagainstMucorcircinelloides D o w n lo a d e d f r o m h t t p FIG 5Spontaneous mutations in fkbA confer rapamycin and FK506 resistance. (A) Spores from strains R7B (WT (cid:3)), NRRL3631 (WT (cid:1)), SM4 [R7B :/ / fkbA-1(L91P)],andSM2[NRRL3631fkbA-2(A316G)]wereplatedonYPDplateswithorwithout100nMrapamycin,1(cid:1)g/mlFK506,or100(cid:1)g/mlcyclosporine e c (cyclosporinA).SM2iscrossresistanttorapamycinandFK506,whileSM4israpamycinsensitiveandFK506resistant.(B)AnA316Gsubstitutionintheacceptor . a splicesiteofintron2inthefkbAlocusinSM2leadstotheproductionofalternativefkbAcDNAspecies.ThreefkbAalternativetranscriptswereamplifiedfrom s anSM2cDNAlibrary(lane3).ThealternativecDNAspecieswerenotdetectedinno-reverse-transcriptasecontrols((cid:3)RT).fkbA-1speciesaandbretainintron m 2.fkbA-1speciescharborsa28-bpdeletioninexon3duetothealternativeuseofacrypticacceptorsplicesiteupstreamofthewild-typeacceptorsplicesite(see . o Fig.S2inthesupplementalmaterial).(C)SM2doesnotexpressFKBP12.FKBP12proteinexpressionwasdeterminedbyWesternblotanalysisofwild-type r (R7B),fkbA(cid:4)1(fkbAdeletionstrain[seeFig.6]),SM2,andSM4totallysates.FKBP12wasdetectedwithantiserumraisedagainstScFKBP12(seeMaterialsand g / Methods).AnfkbA(cid:4)deletionstrainwasusedasacontrolforFKBP12antiserumspecificity.Alpha-tubulinlevelsservedasloadingcontrols.(D)Protein o alignmentsofthe80sloopinMucorcircinelloides(R7B)(Mc),SM4(L91P),human(h),bovine(b),Batrachochytriumdendrobatidis(Bd),Rhizopusoryzae(Ro), n Phycomycesblakesleeanus(Pb),Saccharomycescerevisiae(Sc),andSchizosaccharomycespombe(Sp)FKBP12homologs.Leucine91inM.circinelloidesandthe A L91PmutationinSM4areboxedinred. p r il 1 namedRBM1(fkbA(cid:4)1)andRBM2(fkbA(cid:4)2),confirmedintegra- wassensitivetorapamycinandFK506,growthofbothfkbAmu- 4, tionofthepyrGdisruptionalleleatthefkbAlocus(Fig.6AandB). tant strains was unaffected in the presence of either drug. All 2 0 Disruption of fkbA in these two strains was also confirmed by strainsweresensitivetogrowthinhibitioninthepresenceofcy- 1 9 Southernblotanalysis(datanotshown). closporine (Fig. 6E). Taken together, these results confirm that b Northernanalysiswasfurtheremployedtoconfirmthelossof FKBP12,encodedbythefkbAgene,functionsastherapamycin/ y the fkbA gene. Employing a probe that hybridizes to exon 2 of FK506receptorinM.circinelloides. g u fkbA,wewereabletodetectfkbAmRNAproductioninthewild- RapamycinimprovessurvivalofGalleriamellonellalarvae e typeparentalstrain(MU402)andfailedtodetectthemessagein infectedwithalethaldoseofM.circinelloidesspores.Clinical s t eachofthetwoindependentfkbA(cid:4)deletionstrains(Fig.6C).An treatmentofhuman-invasivefungalinfectionscausedbyzygomy- antiserumraisedagainstS.cerevisiaeFKBP12(7)wasemployedto cete (Rhizopus and Mucor) species is notoriously difficult to confirmthelossoftheFKBP12proteininbothofthegenedele- achieveduetotheintrinsicresistanceofmostzygomycetespecies tionstrains.ByWesternanalysis,wewereabletodetectabandof tothecurrentantifungaldrugarmamentarium(reviewedinref- approximately12kDa(determinedbycomigrationwithappro- erences44and50).Inlightoftheinhibitoryeffectsofrapamycin priatesizemarkers[datanotshown])thatwasnotdetectedinthe onM.circinelloidesgrowth,wetestedwhethertargetingtheTor deletionstrains(Fig.6D).InthesameWesternblot,extractsfrom pathway with rapamycin could serve as a potential antifungal anS.cerevisiaewild-typestrain(JK9-3da)andanfpr1(cid:4)strainwere therapeuticapproach.Tothisend,weusedlarvaefromthewax included as positive controls for the anti-FKBP12 serum used mothGalleriamellonellainfectedwithM.circinelloidessporesas (Fig.6D). an invertebrate model of disseminated infection. The use of G. AfterbothfkbAdeletionstrainswererigorouslyverified,spores mellonellaasamodelofinfectionisbecomingincreasinglypopu- fromeachstrainweregerminatedonYPDagarmediumsupple- larduetoitseaseofuseandhighcorrelationwithmurinemodels mentedwithrapamycinandFK506inparallelwithsporesfrom ofdisseminatedinfection(9,12).Healthylarvaearelightcolored the parental background strains, i.e., R7B and MU402 (MU402 andactive,whilelarvaekilledbyafungalinfectionaredarkand wasderivedfromR7B).Whilethegrowthofeachparentalstrain immobile,facilitatingscoringofmortalityduringassays. March2012 Volume11 Number3 ec.asm.org 277 Bastidasetal. D o w n lo a d e d f r o m h t t p : / / e c . a FIG6 TargeteddisruptionofthefkbAlocusconfersrapamycinandFK506resistance.(A)Schematicrepresentationofgenotypingprimersusedtoverify s disruptionofthefkbAlocus.(B)PCRgenotypingoftwoindependentfkbA(cid:4)deletionstrains.(C)NorthernanalysisoffkbAexpressioninthewild-typeparental m strain(MU402)andthetwoindependentfkbA(cid:4)strains.(D)WesternanalysisofFKBP12proteinexpressioninthewild-typeparentalstrain(MU402)andthe . o twoindependentfkbA(cid:4)strains.ExtractsfromeachsiblingstrainwereusedforWesternanalysis.FKBP12proteinwasdetectedwithantiserumraisedagainstS. r g cerevisiaeFKBP12.Alpha-tubulin(loadingcontrol)wasdetectedusingamonoclonalantibodyraisedagainstS.cerevisiaealpha-tubulin.(E)Sporesuspensions / fromtheparentalstrainsR7B(parentofMU402)andMU402andfromthefkbA(cid:4)strainswerespottedonYPDagarandYPDagarsupplementedwith100nM o rapamycin,1(cid:1)g/mlFK506,or100(cid:1)g/mlcyclosporine(cyclosporinA)andwereincubatedfor48hatroomtemperature. n A p r Inthismodelofinfection,injectionofcontrolPBShadnoeffect lentinG.mellonella(Fig.7),consistentwithrecentpublishedresults il 1 onsurvivaloflarvae(Fig.7).Injectionof500sporesoftheM.circinel- (31),andwerenotusedinsubsequentexperiments. 4 , loidesR7Bstraincaused100%deathwithin5daysafterinfection, TreatmentofG.mellonellainfectedwithM.circinelloidesR7B 2 0 whilesporesfromtheM.circinelloidesNRRL3631strainwereaviru- sporeswithadoseof33mgofrapamycin/kgresultedina50% 1 survivalrate,astatisticallysignificant(P(cid:7)0.0133;logranktest) 9 b improvementinsurvivalcomparedtothe0%survivalrateofPBS- y treatedinfectedcontrols(Fig.8).Similarrapamycintreatmentof g G.mellonellalarvaeinfectedwithsporesfromtwoindependently u e derivedR7BfkbAdeletionstrains(RBM1andRBM2)didnothave s t anyeffectonitsvirulence,indicatingthatinhibitionofMcTorby rapamycin is protective in G. mellonella. Notably, treatment of uninfectedlarvaewiththesamedoseofrapamycinhadanegligi- bleeffectontheirsurvivalinrelationtoPBScontrols,indicating that rapamycin’s known immunosuppressive effect in humans hasanegligibleimpactonG.mellonellasurvival(Fig.8). Surprisingly,andcontrarytoourinvitroresults,monotherapy withFK506didnotimprovesurvivalofG.mellonellalarvaein- fectedwithR7Bsporesatthedoseadministered(0.13mgFK506/ kg)(datanotshown).ThisdosefollowedtheMICthateliciteda growth inhibitory effect in our in vitro assays. However, FK506 FIG7InfectionbyM.circinelloidesR7BsporesresultsinacutemortalityofG. provednottobebeneficialintheinvivomodelofinfection,pos- mellonellalarvae.Thirtylarvaepertreatmentwereinfectedwith500M.cir- siblyduetoareducedstabilityofFK506inG.mellonella,higher cinelloidessporesfromtheR7BandNRRL3631wild-typestrains.InfectingG. ratesofdrugclearance,orcompetitionfordrugbindingbyendog- mellonellawithM.circinelloidesR7Bsporesresultedinacutemortalityrates, whileinfectionsbyM.circinelloidesNRRL3631sporesdidnot. enousFKBP12. 278 ec.asm.org EukaryoticCell RapamycinActivityagainstMucorcircinelloides D o w FIG8PharmacologicalinhibitionofTorenhancessurvivalofGalleriamellonellainfectedwithalethaldoseofM.circinelloidesspores.InhibitionofMcTorby n rapamycinexhibitsatherapeuticbenefitintheG.mellonellamodelofM.circinelloidespathogenesis.TenlarvaepergroupwereinfectedwithPBSalone, lo rapamycinalone,or500sporesofM.circinelloidesR7BorthefkbA(cid:4)strainRBM1orRBM2.LarvaeweretreatedwithPBSorrapamycin(33mgrapamycin/kg a ofbodyweight)at4hpostinfectionandgrownatroomtemperature,andviabilitywasscoreddaily.Anasteriskdenotesastatisticallysignificantchangeinsurvival d ofinfectedG.mellonellalarvaeaftertreatmentwithrapamycininrelationtountreatedlarvae.Rapamycinwasnotbeneficialtolarvaeinfectedwithsporesfrom e d thefkbA(cid:4)strainsRBM1andRBM2.Survivalcurvesarerepresentativeoftwoindependentexperiments. f r o m Overall,thetherapeuticbenefitimpartedbytargetingtheTor betweenMcFKBP12andtheMcTorFRBdomainintheyeasttwo- h pathwayduringinfectionofaninvertebratemodelofM.circinel- hybridassay(Fig.4C).Theselinesofevidencedemonstrateacon- tt p loidesdisseminationestablishestheTorpathwayasanattractive served mechanism of FKBP12-mediated inhibition of Tor by : / / target for the development of antifungal therapy against life- rapamycininazygomycetefungalpathogen. e c threateningzygomycosis. Second,weisolatedaspontaneouslyrapamycin-FK506doubly . a resistantmutantharboringamutationintheacceptorsplicesite s DISCUSSION m ofintron2offkbAthatabrogatesFKBP12proteinexpression(Fig. . TheTorsignalingpathwayservesasanattractivetargetforanti- 5AtoC),presumablybynonsense-mediateddecay.Asecondin- or fungaltherapyduetoitscentralroleinregulatingfungalgrowth g dependentmutant,inwhichleucine91(aconservedcalcineurinA / anditsbroadconservationamongspeciesinthefungalkingdom, o bindingresidueinFKBP12)isreplacedbyproline,whilesensitive n withthenotableexceptionoftheMicrosporidia(28,47).TheTor torapamycin,displayedFK506resistance(Fig.5D).Inthecrystal A signalingcascadeevolvedpriortothelastcommonancestortothe structureofthehumanFKBP12-FK506-calcineurinternarycom- p metazoanandfungallineages,inaccordwithitsknownconserva- plex,isoleucine90(I90)(correspondingtoleucine91inM.cir- ril tioninmetazoans,landplants,algae,andfungi(2,47).Inaccord 1 cinelloidesFKBP12)changesconformationintheternarycomplex 4 with the deep ancestral roots of the Tor pathway, comparative andoccupiesahydrophobicpocketinthecalcineurinAsubunit , genome analyses across multiple species throughout the fungal 2 (21). Futer et al. identified I90 as a constituent of the human 0 kingdomhaverevealedaremarkableconservationintheamino 1 FKBP12(hFKBP12)80sloop,acriticalcompositesurfaceessen- 9 acid sequences of Tor homologs. Of particular interest are the tialforcalcineurinbinding(19).ReplacingI90withapolaramino b invariablyconservedresidueswithinthehydrophobicpocketof y acidsuchaslysinedecreasestheaffinityofthehFKBP12-FK506 theFRBdomainthatarecriticalforrapamycinbindingtoTor(5, g binarycomplexforcalcineurin26,000-fold(wild-typeK,5.5nM; u 7,34,47,52,59).Thisobservationisinagreementwithprevious i e studies showing that rapamycin has broad-spectrum antifungal I90KmutantKi,14,300nM),withoutsignificantlyaffectingthe s bindingaffinityforeitherFK506orrapamycin(19).Similarly,in t activityagainstseveralhumanpathogens,includingCandidaal- SM4,theL91Psubstitutionleadstoashortercyclicsidechainthat bicansandCryptococcusneoformans,andthatitsactivityinthese wouldpredictablybeoccludedfromthecalcineurinAhydropho- species is mediated by conserved rapamycin-FKBP12 drug- bicpocketandtherebydiminishcalcineurinbindinginthepres- proteincomplexes(1,13,15,17,56,58). Inthisstudy,wefurtherdemonstratethatrapamycininhibits enceofFK506.Third,ablationofthefkbAlocusbygenereplace- growth of the zygomycetes P. blakesleeanus, R. oryzae, and M. ment conferred both rapamycin and FK506 resistance (Fig. 6), circinelloides,demonstratingaconservedroleforTorinregulating furtherdemonstratingaroleforFKBP12inmediatingrapamycin thegrowthofbasalfungalpathogens(Fig.1andTables2and3). andFK506antifungalaction.Takentogether,thesestudiesfurther We also established that rapamycin’s antifungal action is medi- demonstratethatthewidespreadantifungalactivityofrapamycin atedviaconservedFKBP12-dependentinhibitionofaTorkinase anditsmechanismofactionareconservedintheascomycetesS. homologinM.circinelloides.First,expressionofMcFKBP12inan cerevisiaeandC.albicans,thebasidiomyceteC.neoformans,and S.cerevisiaeFKBP12-deficientstrainrestoredrapamycinsensitiv- thezygomycetepathogenM.circinelloides(13,15,17,23). ity(Fig.4A).Inaddition,overexpressionoftheM.circinelloides OurstudiesalsodemonstratethatinaG.mellonellamodelof Tor FRB domain rescued rapamycin toxicity in an S. cerevisiae infection,rapamycinprotects50%oflarvaeagainstalethalinfec- wild-typestrain(Fig.4B).Rapamycinalsopromotedinteractions tionbyM.circinelloides(Fig.8),providingakeyproofofprinciple March2012 Volume11 Number3 ec.asm.org 279