RESEARCHARTICLE Consideration of Viral Resistance for Optimization of Direct Antiviral Therapy of Hepatitis C Virus Genotype 1-Infected Patients JuliaDietz,SimoneSusser,CaterinaBerkowski,DanyPerner,StefanZeuzem, ChristophSarrazin* MedicalDepartment1,GoetheUniversityHospital,Frankfurt,Germany * [email protected] Abstract Differenthighlyeffectiveinterferon-freetreatmentoptionsforchronichepatitisCvirus OPENACCESS (HCV)infectionarecurrentlyavailable.Pre-existenceofresistanceassociatedvariants (RAVs)todirectantiviralagents(DAAs)reducessustainedvirologicresponse(SVR)rates Citation:DietzJ,SusserS,BerkowskiC,PernerD, ZeuzemS,SarrazinC(2015)ConsiderationofViral by3–53%inhepatitisCvirus(HCV)genotype1infectedpatientsdependingondifferent ResistanceforOptimizationofDirectAntiviral predictorsandtheDAAregimenused.Frequenciesofsingleandcombinedresistanceto TherapyofHepatitisCVirusGenotype1-Infected NS3,NS5AandNS5Binhibitorsandconsequencesfortheapplicabilityofdifferenttreat- Patients.PLoSONE10(8):e0134395.doi:10.1371/ journal.pone.0134395 mentregimensareunknown.ParallelpopulationbasedsequencingofHCVNS3,NS5A andNS5Bgenesin312treatment-naïveCaucasianHCVgenotype1infectedpatients Editor:Ming-LungYu,KaohsiungMedicalUniversity Hospital,KaohsiungMedicalUniversity,TAIWAN showedthepresenceofmajorresistantvariantsin20.5%(NS3),11.9%(NS5A),and22.1% (NS5B)withimportantdifferencesforHCVsubtypes.InNS3,Q80Kwasobservedin34.7% Received:April2,2015 and2.1%ofsubtype1aand1bpatients,respectivelywhileotherRAVstosecondgenera- Accepted:July8,2015 tionproteaseinhibitorsweredetectedrarely(1.4%).WithinNS5ARAVswereobservedin Published:August28,2015 7.1%ofsubtype1aand17.6%insubtype1binfectedpatients.RAVstonon-nucleoside Copyright:©2015Dietzetal.Thisisanopen NS5Binhibitorswereobservedin3.5%and44.4%ofsubtype1aand1bpatients,respec- accessarticledistributedunderthetermsofthe tively.ConsideringallthreeDAAtargetsallsubtype1aand98.6%ofsubtype1binfected CreativeCommonsAttributionLicense,whichpermits patientswerewildtypeforatleastoneinterferonfreeDAAregimencurrentlyavailable.In unrestricteduse,distribution,andreproductioninany medium,providedtheoriginalauthorandsourceare conclusion,baselineresistancetestingallowstheselectionofatleastoneRAVs-freetreat- credited. mentoptionfornearlyallpatientsenablingapotentiallycost-andefficacy-optimizedtreat- DataAvailabilityStatement:Allrelevantdataare mentofchronichepatitisC. withinthepaperanditsSupportingInformationfiles. Funding:ThisstudywassupportedbyaDZIF (DeutschesZentrumfürInfektionsforschung)(http:// www.dzif.de/forschung/hepatitis/)grantentitled “Geno-&phenotypicNS3,NS5AandNS5Binhibitor resistanceanalysis”toChristophSarrazinandStefan Introduction Zeuzem(TTU05.902).Furthersupportwasobtained DetailedcharacterizationofviralproteinswithcriticalfunctionsinthehepatitisCvirus(HCV) inpartfromJanssen-CilagGmbH.Thefundershad replicationcycle,liketheNS3/4Aprotease,theNS5AproteinandtheNS5Bpolymerase noroleinstudydesign,datacollectionandanalysis, decisiontopublish,orpreparationofthemanuscript. togetherwiththeinventionofacellculturereplicationmodelledtothedevelopmentofdirect PLOSONE|DOI:10.1371/journal.pone.0134395 August28,2015 1/17 ViralResistanceandOptimizationofHepatitisCTherapy CompetingInterests:Theauthorshavedeclared actingantivirals(DAA)targetingtheseHCVproteins[1,2].Currently,differentinterferon- thatnocompetinginterestsexists. freecombinationtherapiesfortreatmentofchronichepatitisCvirus(HCV)infectionwith directantiviralagents(DAAs)areapproved.ForHCVgenotype1infectedpatientscombina- tiontherapiesofanucleotideNS5Bpolymeraseinhibitor(Sofosbuvir,SOF)witheitheraNS3 proteaseinhibitor(Simeprevir,SMV)oraNS5Ainhibitor(Daclatasvir,DCVandLedipasvir, LDV)areavailable[3–7].AlternativeoptionsareacombinationofaNS3proteaseandNS5A inhibitorwithrestrictiontoHCVsubtype1b(Asunaprevir,ASVplusDaclatasvir)oratriple DAAtherapy(NS3protease-,NS5A-andnon-nucleosideNS5Binhibitor)forallgenotype1 infectedpatients(Paritaprevir,PTV,Ombitasvir,OMVandDasabuvir,DSV)[8–12].Overall, highratesofsustainedvirologicresponse(SVR)between82%and99%havebeenobservedin thedifferentunderlyingstudies[3–12].PredictorsofSVRmainlyarenon-responsetoprevious antiviraltherapyandthepresenceoflivercirrhosis[8,9,11,12].However,alsopre-existence ofresistanceassociatedvariants(RAVs)wasassociatedwithareductionofSVRratesby 3–53%instudieswithavailabledata[5–8].WhiletheNS5BnucleotideanalogueSofosbuvir hasahighgeneticbarriertoresistanceandnoclinicalrelevanceofpre-existingL159,S282and V321variantsforIFN-freetherapieshavebeenshownsofar,forNS3protease-,NS5A-and non-nucleosideNS5B-inhibitors,RAVswithdifferentlevelsofresistancetothedifferentavail- ableDAAshavebeendescribedandfoundclinicallyrelevant[13–23]. Inthepresentstudy,frequenciesofRAVstocurrentlyavailableNS3,NS5AandNS5B inhibitorshavebeenassessedin312CaucasianpatientswithHCVgenotype1infectionbypar- allelpopulation-basedsequencingfortheexplorationoftherateofpatientswithcoexistenceof RAVsfordifferentdualandtripleDAAcombinationtherapiescurrentlyavailable. MaterialsandMethods Patients Baselineserumsamplesof312consecutiveCaucasianpatients,withachronicgenotype1hepa- titisCinfectionwhoweretreatment-andDAA-naïvewereobtainedfrompreviouslycon- ductedclinicalstudies[24].InvestigationswereperformedaccordingtotheDeclarationof Helsinkiandapprovaloftheenrollmentintherespectivestudiesaswellastheusageofpatient bloodsamplesforresearchpurposewasobtainedfromthelocalethicscommittee(Ethikkom- missionderÄrztekammerdesSaarlandes),andwritteninformedconsentwasobtainedfrom allpatients. HCVRNAextraction,reversetranscriptionandPCR HCVRNAwasextractedfrom140μLserum(QIAampViralRNAMini-Kit,Qiagen,Hilden, Germany)andcomplementaryDNA(cDNA)wassynthesizedusingSuperScriptIIIReverse Transcriptase(Invitrogen)aspreviouslydescribed[25].Forallamplificationsoftherespective HCVregions,weconductednestedPCRsusing1/10ofcDNAorouterPCRproductrespec- tivelybyapplyingtheFastCyclingPCRKit(Qiagen).AllPCRswerecarriedoutbyusingthe primersforbothsubtypes(1aand1b)incombination.TheHCVNS3proteasedomainwas amplifiedintheouterPCRwithprimersdescribedpreviously[26]:U376_1bc_F,ATGGAGACC AAGATCATCACCTGGG;U3276_1a_F,ATGGAGACCAAGCTCATCACGTGGG;D4421_1b_R, CCGTCGGCAAGGAACTTGCCATAGGTGGAandD4421_1a_R,ACCCGCCGTCGGCAAGGAA CTTGCCGTA.First,PCRmixtureswereincubatedat95°Cfor5minutes,followedby35cycles at96°Cfor5seconds,60°Cfor5secondsand68°Cfor1minuteandafinalelongationoccurred at72°Cfor1minute.TheinnerPCRwasperformedwith3420_1b_F,AGGGCATTTAAATAG CCACCATGGCGCCCATCACGGCCTACTCCCAACAGAC;3420_1a_F,AGGGCATTTAAATAGCC ACCATGGCGCCCATCACGGCGTACGCCCAGCAGAC;4038_1b_R,AAAAAGCGGCCGCAGCC PLOSONE|DOI:10.1371/journal.pone.0134395 August28,2015 2/17 ViralResistanceandOptimizationofHepatitisCTherapy GGCACCTTAGTGCTCTTGCCGCTGCC;4038_1a_R,AAAAAGCGGCCGCAGCCGGGACCTT GGTGCTCTTACCGCTGCCandthesamecyclingconditionsasfortheouterPCR.NS5Awas amplifiedusingNS5A_1a_6279_F,ATCTGGGACTGGATATGC;NS5A_1b_6279_F, GTTTGGGACTGGATATGC;NS5A_1a_6599_R,AGACACCCTCCACAGandNS5A_1b_6650_R, CGTCACGTAGTGGAAATCintheouterPCR.ThecyclingconditionsforNS5Awerethesame asfortheamplificationofNS3,butanannealingtemperatureof50°Caswellasa30second elongationstepat68°Cwereused.FortheinnerPCR,NS5A_1a_6285_F,GACTGGATATGCG AGGTG;NS5A_1b_6318_F,ACCTGGCTCCAGTCCAAG;NS5A_1a_6590_R,CCACAGCGCGAA CKTATAG;andNS5A_1b_6618_R,CCTCCACRTACTCCTCAGwereused.Besidestheanneal- ingtemperatureof54°C,thePCRprofilewasthesameasfortheouterNS5APCR.Forthe semi-nestedamplificationofNS5B,intheouterPCR,NS5B_1a_8445_F,AGCGGCGTACTGAC AAC;NS5B_1b_8460_F,ACTAGCTGCGGCAACACC;NS5B_1a_1702_R,GGGCATGAGACAC GCTGTGandNS5B_1b_1700_R,GCACGAGACAGGCTGTGprimerswereused.TheinnerPCR amplificationwasperformedwithbothreverseprimersoftheouterPCRincombinationwith NS5B_1a_8467_F,GTGGTAACACCCTCACTTGandNS5B_1b_8522_F,GCTCCAGGACTGCAC AATGforwardprimers.ThetemperatureprofileofbothouterandinnerNS5BPCRswasthe sameasfortheamplificationofNS3,butanannealingtemperatureof52°Cwasappliedforthe innerandouterNS5BPCRs.TheresultingPCRproductswereanalyzedforcorrectsizeon1% agarosegelsstainedwithethidiumbromideandweregel-purifiedusingtheQIAquickGel ExtractionKit(Qiagen). SequencinganalysisofHCVNS3,NS5AandNS5Bgenes ThepurifiedPCRproductsofNS3,NS5AandNS5Bwerepopulation-basedsequenced.NS3of GT1aand1bwassequencedwiththeinnerforwardPCRprimerandNS5Asequencing occurredforGT1awiththeinnerforwardandforGT1bwiththeinnerreversePCRprimer. NS5Bwassequencedusingoneforwardprimerforbothgenotypes(NS5B_1a/1b_1213F, GTCAATTCCTGGCTAGGC)andspecificreverseprimersforGT1aandGT1bwhichwere alsousedfortheamplificationofNS5B.Allsequencinganalyseswereperformedaccordingto themanufacturer´sprotocol(BigDyeTerminatorv1.1CycleSequencingKit,AppliedBiosys- tems)onanABIPrism3130xlGeneticAnalyzer(AppliedBiosystems).Population-based sequencinggeneratesaconsensussequenceoftheviralquasispeciesandhasasensitivityof approximately20%forminorityvariants.Inaccordancewithanotherstudy[27]allRAVs observedattherespectivepositionsintheelectropherogramweretakenintoaccount.This includedalsominorityvariantswhichwererecognizedasmixedpeaksinthesequence.All caseswithminorityvariantsarelistedinthesupplementaryinformation(S1Table).After proofreading,allsequenceswerealignedusingBioEdit.version7.2.3[28]. AnalysisofbaselineRAVs WeinvestigatedtheoccurrenceofbaselineRAVswithinsamplesof312HCVGT1-infected DAA-naïvepatientsforwhichparallelsequencesforNS3,NS5AandNS5Bwereobtained (n=170GT1a,n=142GT1b).RAVsforcurrentlyapprovedforIFN-freetreatmentofchronic hepatitisC(SMV,ASV;PTV,DCV,LDV,OMV,DSV)wereconsideredasrelevant,ifthey weredescribedinpreviousstudiestobeassociatedinvivowithtreatmentfailureand/orhave beenshownininvitrophenotypicassaystoconferamorethan2-foldchangeddrugsuscepti- bilityincomparisontothewildtypereferencestrain.Basedonthis,RAVswereanalysedatthe followingpositionsincomparisonwiththerespectiveHCVreferencestrain(GT1a:H77[29], GT1b:Con1[30]):NS3:F43/I/L/S//V,Y56H,Q80K/R,S122R,R155K/G,A156G/S/Tand D168A/C/E/G/H/N/T/V/Y;NS5A:L/M28A/T/V,Q30E/H/RandR30Q(secondarysite),L31F/ PLOSONE|DOI:10.1371/journal.pone.0134395 August28,2015 3/17 ViralResistanceandOptimizationofHepatitisCTherapy I/M/V,P32L,Q54H(secondarysite),H58DandP58S(secondarysite),Y93C/F/H/N/S;NS5B: C316H/N/Y,S368T,Y448C/H,S556G/R,D559R[17–22,31–36].Table1showstheEC50val- uesofvariantswhichweredetectedinourcohort.Sequencingofvariantsassociatedwithresis- tancetosofosbuvirinvitroandinvivo(L159F,S282T,V321A)wasnotperformedasthese variantswerenotdetectedbeforetreatmentinitiation(S282T)[15,16]and/or(L159F, V321A)werenotassociatedwithreducedsusceptibilitytosofosbuvir[16,22,37,38].AllHCV subtypesweredeterminedbysequencinganalysisoftheNS3proteasedomain.Wereferan HCVregionaswildtypewhentherespectiveregiondoesnotcontainRAVsaccordingtoour definition.WeclassifiedidentifiedRAVsonthebasisoffoldchangecomparedtothewildtype replicondeterminedinpreviousstudiesinlow-levelresistant(2-10-foldchange),intermediate resistant(11-100-foldchange)andhigh-levelresistant(>100-foldchange)variants(Table1). Results Patientcharacteristicsofthecohort ThebaselineclinicalcharacteristicsoftheinvestigatedpatientsareshowninTable2.The majorityofpatientsweremale(n=207,66.4%)andthemedianagewas47years.Themedian HCVviralloadwas1.4x106IU/mLandapproximatelyhalfofthepatientswereinfectedwith HCVsubtype1aand1b,respectively.InformationonIL28Bgenotypeinformationwasavail- ablefor273individualsandaCCgenotypewasfoundin94patients(34.4%)andalivercirrho- siswasdiagnosedin17.6%(n=48)ofpatients. BaselineNS3proteaseRAVs TheHCVNS3proteasesequenceswereanalyzedatpositionswhichhavepreviouslybeen reportedtoberesponsiblefortheemergenceofRAVsduringtreatmentwithproteaseinhibitors (PIs).ForthemacrocyclicPIssimeprevir,asunaprevirandparitaprevir,whichareapprovedfor aninterferon-freetreatmentofchronichepatitisC,theseprimaryresistancemutationswere detectedatpositionsQ80,R155andD168[39].Atbaseline,wewerenotabletodetecttheinter- mediateresistanceconferringR155KmutationandalsoR155Gwasnotobserved.Onlytwo GT1b-infectedpatients(1.4%)displayedaD168EvariantwhichisresistanttoSMV,ASVand PTV(SMV:43-fold,ASV:78-fold,PTV:4-foldchangeinEC ,Table1).TheQ80Kvariant 50 conferringlow-levelresistancetoSMV(inGT1aand1b)andASV(inGT1b)occurredatbase- linein19.9%(n=62/312)ofGT1-infectedpatientsandwasdetectedin34.7%(n=59)of GT1a-andin2.1%(n=3)ofGT1b-infectedindividuals(Fig1).However,Q80Kconfersonly minimalresistancetoPTV[34].Atposition80,onlyoneindividualwithaGT1binfectionhada Q80Rvariant(0.7%).TheoveralloccurrenceofNS3RAVsinGT1was20.5%. SeveralotherpositionswithvaryingrelevancefordifferentPIshavebeenreportedandvari- antsatpositionsF43andA156conferresistanceinvitrotoSMVandASVbutwerenot observedinvivoatbaselineorinassociationwithtreatmentfailure[17,27,31,32,40,41]. Thesevariants,theSMVintermediate-resistantS122RvariantaswellastheY56Hmutation whichoccurredincombinationwithD168AinPTV-treatedpatients[11]andisknowntobe relevantfortreatmentwithMK-5172[27]werenotdetectableinthepresentcohortbybaseline population-basedsequencing. BaselineNS5ARAVs ResistancemutationswithinNS5Awhichweredescribedtoconferresistancetodaclatasvir, ledipasvirandombitasvirarelargelyoverlapping.Theseincludetheprimaryvariantsatposi- tionsM28,Q30,L31,andY93[42].Secondarysitemutationsweredescribedfordaclatasvir PLOSONE|DOI:10.1371/journal.pone.0134395 August28,2015 4/17 ViralResistanceandOptimizationofHepatitisCTherapy Table1. EC50valuesofbaselineRAVswithinNS3,NS5AandNS5Bdetectedinthepresentcohort. Position Variant HCVregion EC50[fold-change]1(subtype) ResistanceLevel DAA References Q80 K NS3 9.3(1a),7.7(1b) low SMV [31] 3(1a),6.5(1b) ASV [32] 3(1a) PTV [34] R NS3 13(1a),6.9(1b) low-intermediate SMV [31] 4(1b) ASV [32] 2(1a) PTV [34] D168 E NS3 26(1a),43(1b) low-intermediate SMV [31] 58(1a),78(1b) ASV [32] 14(1a),4(1b) PTV [34] M28 V NS5A 1.3(1a) intermediate DCV [19] n.d. LDV n.d. 58(1a) OMV [18] Q30 H NS5A 1477(1a) low-high DCV [19] 73(1a) LDV [21] 3(1a) OMV [36] L31 M NS5A 341(1a),3(1b) low-high DCV [19] 140(1a),2.5–100(1b) LDV [21,22] 2(1a),0.9(1b) OMV [33] F NS5A 5(1b) low DCV [20] n.d. LDV n.d. 10(1b) OMV [18] Y93 C NS5A 1864(1a) high DCV [19] 327(1a) LDV [21] 1675(1a) OMV [18] F NS5A n.d. low-intermediate DCV n.d. 2.5–100(1a) LDV [22] n.d. OMV n.d. H NS5A 5432(1a),24(1b) intermediate-high DCV [19] 3309(1a),1319(1b) LDV [21] 41383(1a),77(1b) OMV [36] N NS5A 47477(1a) high DCV [19] >100(1a) LDV [22] 66739-fold(1a) OMV [18] C316 H NS5B 229(1b) high DSV [33] N NS5B 5(1b) low DSV [35] Y NS5B 1472(1a),1569(1b) high DSV [35] Y448 H NS5B 975(1a),46(1b) intermediate-high DSV [35] S556 G NS5B 30(1a),11(1b) intermediate DSV [35] N NS5B 29(1a) intermediate DSV [35] R NS5B 261(1a) high DSV [33] C316N+S556G NS5B 38(1b) intermediate DSV [33] 1comparedtoWTreplicon n.d.:notdetermined doi:10.1371/journal.pone.0134395.t001 PLOSONE|DOI:10.1371/journal.pone.0134395 August28,2015 5/17 ViralResistanceandOptimizationofHepatitisCTherapy Table2. Patientcharacteristicsatbaseline. Parameter Patients Age(years)[median(range)] 47(19–79) Sex Male[n(%)] 207(66.4%) Female[n(%)] 105(33.6%) Bodymassindex(kg/m2)[median(range)] 24.5(16.6–45.5) IL28BCCgenotype CC[n(%)] 94(34.4%) non-CC[n(%)] 179(65.6%) n.d.[n] 39 Liverenyzmes ALT(U/l)[median(range)] 78(14–551) AST(U/l)[median(range)] 56(5–398) GGT[median(range)] 63(2–720) Cirrhosis Patientswithcirrhosis[n(%)] 48(17.6%) Patientswithoutcirrhosis[n(%)] 225(82.4%) n.d.[n] 39 HCVinfection HCVviralload(IU/mL)[median(range)] 1.4x106(5.2x103–3.6x107) HCVGT1a[n(%)] 170(54.5%) HCVGT1b[n(%)] 142(45.5%) doi:10.1371/journal.pone.0134395.t002 withR30QandP58Senhancingtheresistanceofprimarymutationsbutwhicharenotthem- selvesresistantandQ54Hwasalsoreportedassecondarymutation,notincreasingtheresis- tanceofprimaryresistancemutations[20].However,M28A/T,L31VandH58Dvariantswere notdetectedinourcohort.ForGT1a,thesevariantswereshowntoconferresistancetowards DCV,LDVandOMVinstudieswithavailabledata[18–20,22,36]. InGT1a-infectedpatients,NS5Ainhibitorresistantvariantsweredetectedrarely(7.1%) withtheM28VvariantconferringintermediateresistancetowardsOMV(nottoDCVand LDV)occurringmostfrequently(3.5%)followedbyDCVandLDVhighlevelresistantL31M (1.2%)mutation.FurtherdetectedvariantswereY93F/N,Q30HandL31M,Y93H(each0.6%) (Fig2A).InGT1b-infectedpatients,theprevalenceofRAVs(17.6%)washigherincomparison toGT1aandtheintermediatetohighlevelY93Hvariantwastheprimarymutationwhich emerged(Y93H:14.1%),whichwasfrequentlyaccompaniedbyDCVsecondarymutationsat positionsR30,P58andQ54(Fig2B).InGT1thetotalnumberofNS5ARAVswas11.9%. Besidesthis,L31F/MvariantswererarelyfoundinGT1b(L31F:1.4%,L31Mandorwith R30Q,Q54H:2.1%).L31MconfersnoresistancetowardsOMV[36]andtheresistanceofL31F towardsLDVisunknownsofar. Baselinenon-nucleosideinhibitorNS5BRAVs pt?>WithinNS5B,weanalyzedresistantvariantsknowntobeassociatedwithdasabuvirtreat- mentfailure:C316H/N/Y,Y448H/C,S556G/N/RandD559G[11,33,35,43].TheS368Tmuta- tionishighlevelresistantinvitroinGT1bagainstDSV[35]butwasnotfoundinvivosofar andwasalsonotdetectableinthepresentstudy.WeobservedNS5BRAVsin22.1%ofGT1 patients.Interestingly,theprevalenceofDSV-resistantRAVswaslowinGT1a-infected PLOSONE|DOI:10.1371/journal.pone.0134395 August28,2015 6/17 ViralResistanceandOptimizationofHepatitisCTherapy Fig1.BaselineNS3RAVsinDAA-naïvepatients.A)GT1a-andB)GT1b-infectedpatients. doi:10.1371/journal.pone.0134395.g001 individuals(3.5%).Twopatientseachcarriedhigh-levelresistantC316Yorintermediateresis- tantS556N(1.2%)andoneindividualeachhadintermediateresistantS556Gorhighlevel resistantS556Rmutation(0.6%).Bycontrast,RAVsappearedfrequentlyin44.4%ofGT1b infectedpatientsandthedominatingvariantswereC316N(22.5%),S556G(7.0%)aswellas C316N+S556G(12.7%)(Fig3).However,thesemutationshavebeendescribedtoconfera PLOSONE|DOI:10.1371/journal.pone.0134395 August28,2015 7/17 ViralResistanceandOptimizationofHepatitisCTherapy Fig2.OccurrenceofRAVswithinNS5AinGT1a-(A)andGT1b-(B)infectedpatients. doi:10.1371/journal.pone.0134395.g002 PLOSONE|DOI:10.1371/journal.pone.0134395 August28,2015 8/17 ViralResistanceandOptimizationofHepatitisCTherapy relativelylowresistancewitha5-fold(C316N)and11-fold(S556G)resistance,respectively comparedtoaGT1bwildtypereplicon.Acombinationofbothmutationsyieldedina38-fold resistance[33,35]. RAVswithrespecttodifferenttreatmentregimens Next,weanalyzedtheproportionofpatientswhoarefavourablysuitedtoreceiveinterferon- freetreatmentregimensundertheconsiderationofbaselineRAVs.Forthetreatmentwith SMV/SOF,weconsideredallNS3proteasemutationsasrelevantshowninFig1.NoRAVs (wildtype)weredetectedin65.3%ofGT1a-and96.5%ofGT1b-infectedpatients,potentially enablingaSMV/SOF-basedtherapy(Fig4). Fordaclatasvirandledipasvirtheresistanceprofilesweresimilar(seeabove).Thevast majorityofGT1a-infectedindividualscontainnoRAVswithinNS5AsupportingaDCV/SOF (97.1%)orLDV/SOFtherapy(96.5%).TheY93FvariantdetectedinoneGT1apatientis knowntoconferresistanceonlytowardsLDV[22]andL31FinGT1bislow-levelresistant towardsDCVandOMVbutwasnotdescribedforLDV[18,20].Thereforetheresistancepro- filesofthesesubstancesareslightlydeviatingand82.4%and83.8%ofGT1b-infectedpatients wereeligibletoreceiveDCV/SOForLDV/SOFrespectively(Fig4). Asthecombinationtherapyconsistingofasunapreviranddaclatasvir(ASV/DCV)showed reducedefficacyagainstGT1a[44],thistherapyisapprovedonlyforGT1b.81.0%ofGT1b- infectedindividualshadnoNS3orNS5ARAVsconferringresistancetoASVorDCV(Fig4). Ofthe27patientswithRAVs,threepersonscarriedRAVswithinbothNS3andNS5A(not shown)andthemajorityofRAVscanbeattributedtotheNS5AY93Hmutation(Fig2). Forparitaprevir,ombitasviranddasabuvirtripletherapy,combinedRAVswithinNS3, NS5AandNS5Bwereinvestigatedandwildtypevariantsforallthreeregionswereidentifiedin 91.8%ofGT1aand46.5%ofGT1bpatients(Fig4).InGT1aRAVsmainlyconsistedofmuta- tionswithinNS5A(M28V,Q30H,Y93C)orNS5B(C316Y,S556G/N/R).Ofnote,RAVswithin bothNS5AandNS5BweredisplayedbyoneGT1aand10GT1b-infectedpatients(datanot shown).InGT1b,Y93HwithinNS5AaswellasC316NandS556GwithinNS5Bwerethedom- inatingmutations(Figs2and3).TheonlyNS3RAVrelevantforthistherapywasD168E (n=2,GT1b)(Fig1). Furthermore,ourinterestwastoidentifypatientswithoutanyrestrictionstoreceivethe describedtherapyregimensundertheconsiderationofRAVs.Wildtypevariantswithrespect toalltreatmentregimensweredisplayedby60.6%ofpatientswithGT1aand45.1%withGT1b (Fig4).Thesepatientsareinprinciplesuitedforalltherapies.InGT1a,RAVsmainlyconsisted oftheNS3Q80KmutationrelevantforSMV/ASV(34.7%,Fig1A)andtoamuchlesserextend oftheOMV-relevantM28VvariantwithinNS5A(3.5%,Fig2A).NS5BRAVsweredetected rarelyinGT1a-infectedindividuals.ViceversainGT1b,RAVswithinNS3occurredrelatively infrequentlyandtheNS5AY93Hmutation(14.1%,Fig2B)aswellastheNS5BC316N/S556G mutationsdominated(42.3%,Fig3B). Anotherimportantpointwastheevaluationofpatientswhoarenoteligibletoreceiveany approvedIFN-freetreatmentregimenwhenbaselineRAVsareconsidered.Therefore,thepro- portionofpatientswhoarewildtypeforatleastonetherapywasdetermined.AllGT1aand 98.6%ofGT1b-infectedpatientsdisplayedwildtypevariantsforatleastonetherapyoption (Fig4).OnlytwoindividualswithGT1bhadRAVswithrelevanceforallsubstances.Both patientsexhibitedNS3RAVsatposition80(Q80K,Q80R+D168E)aswellastheNS5AY93H mutationwhichareassociatedwithresistancetoalloftheabovetreatmentregimens.When thesingletherapyregimensarecompared,DCV-andLDV-basedtherapiesarethetreatment PLOSONE|DOI:10.1371/journal.pone.0134395 August28,2015 9/17 ViralResistanceandOptimizationofHepatitisCTherapy Fig3.PrevalenceofNS5BRAVsinGT1a-(A)andGT1b-(B)infectedpatients. doi:10.1371/journal.pone.0134395.g003 PLOSONE|DOI:10.1371/journal.pone.0134395 August28,2015 10/17