RESEARCHARTICLE Compounds Derived from the Bhutanese Daisy, Ajania nubigena, Demonstrate Dual Anthelmintic Activity against Schistosoma mansoni and Trichuris muris PhurpaWangchuk*,MarkS.Pearson,PaulR.Giacomin,LukeBecker,JavierSotillo, DarrenPickering,MichaelJ.Smout☯,AlexLoukas☯ a11111 CentreforBiodiscoveryandMolecularDevelopmentofTherapeutics,QueenslandTropicalHealthAlliance, AustralianInstituteofTropicalHealthandMedicine,JamesCookUniversity,CairnsCampus,Cairns, Australia ☯Theseauthorscontributedequallytothiswork. *[email protected] OPENACCESS Abstract Citation:WangchukP,PearsonMS,GiacominPR, BeckerL,SotilloJ,PickeringD,etal.(2016) CompoundsDerivedfromtheBhutaneseDaisy, Background Ajanianubigena,DemonstrateDualAnthelmintic Whipwormsandbloodflukescombinedinfectalmostonebillionpeopleindevelopingcoun- ActivityagainstSchistosomamansoniandTrichuris muris.PLoSNeglTropDis10(8):e0004908. tries.Onlyahandfulofanthelminticdrugsarecurrentlyavailabletotreattheseinfections doi:10.1371/journal.pntd.0004908 effectively;thereisthereforeanurgentneedfornewgenerationsofanthelminticcom- Editor:PatrickJ.Lammie,CentersforDisease pounds.Medicinalplantshavepresentedasaviablesourceofnewparasiticides.Ajania ControlandPrevention,UNITEDSTATES nubigena,theBhutanesedaisy,hasbeenusedinBhutanesetraditionalmedicinefortreat- Received:February2,2016 ingvariousdiseasesandourpreviousstudiesrevealedthatsmallmoleculesfromthisplant haveantimalarialproperties.Encouragedbythesefindings,wescreenedfourmajorcom- Accepted:July15,2016 poundsisolatedfromA.nubigenafortheiranthelminticproperties. Published:August4,2016 Copyright:©2016Wangchuketal.Thisisanopen Methodology/PrincipalFindings accessarticledistributedunderthetermsofthe HerewestudiedfourmajorcompoundsderivedfromA.nubigenafortheiranthelminticprop- CreativeCommonsAttributionLicense,whichpermits unrestricteduse,distribution,andreproductioninany ertiesagainstthenematodewhipwormTrichurismurisandtheplatyhelminthbloodfluke medium,providedtheoriginalauthorandsourceare SchistosomamansoniusingthexWORMassaytechnique.Offourcompoundstested,two credited. compounds—luteolin(3)and(3R,6R)-linalooloxideacetate(1)—showeddualanthelmintic DataAvailabilityStatement:Allrelevantdataare activityagainstS.mansoni(IC range=5.8–36.9μg/mL)andT.muris(IC range=9.7– 50 50 withinthepaperanditsSupportingInformationfiles 20.4μg/mL).Usingscanningelectronmicroscopy,wedeterminedluteolinasthemosteffi- (S1FigandS2Fig). caciouscompoundagainstbothparasitesandadditionallywasfoundeffectiveagainstthe Funding:Thisresearchwasfundedbyaprogram schistosomula,theinfectivestageofS.mansoni(IC =13.3μg/mL).Luteolininducedtegu- grantfromtheNationalHealthandMedicalResearch 50 Council(NHMRC)awardedtoAL,grantnumber mentaldamagetoS.mansoniandaffectedthecuticle,bacillarybandsandbacillaryglands APP1037304.URL:https://www.nhmrc.gov.au/grants- ofT.muris.Ourinvivoassessmentofluteolin(3)againstT.murisinfectionatasingleoral funding.PWwassupportedbyaNHMRCPeter dosingof100mg/kg,despitebeingsignificantly(27.6%)betterthantheuntreatedcontrol DohertyEarlyCareerResearcherfellowshipnumber group,wasmarkedlyweakerthanmebendazole(93.1%)inreducingthewormburdenin APP1091011.URL:https://www.nhmrc.gov.au/grants- funding.Thefundershadnoroleinstudydesign, mice. PLOSNeglectedTropicalDiseases|DOI:10.1371/journal.pntd.0004908 August4,2016 1/18 AnthelminticActivityofMedicinalPlant-DerivedCompounds datacollectionandanalysis,decisiontopublish,or Conclusions/Significance preparationofthemanuscript. Amongthefourcompoundstested,luteolindemonstratedthebestbroad-spectrumactivity CompetingInterests:Theauthorshavedeclared againsttwodifferenthelminths—T.murisandS.mansoni—andwaseffectiveagainstjuve- thatnocompetinginterestsexist. nileschistosomes,thestagethatisrefractorytothecurrentgoldstandarddrug,praziquan- tel.Medicinalchemistryoptimisationincludingcytotoxicityanalysis,analoguedevelopment andstructure-activityrelationshipstudiesarewarrantedandcouldleadtotheidentification ofmorepotentchemicalentitiesforthecontrolofparasitichelminthsofhumansand animals. AuthorSummary Schistosomiasisandtrichuriasisaffectsmillionsofpeopleworldwideandarecausedby bloodflukesandwhipworms,respectively.Onlyahandfulofanthelminticdrugsexistto treattheseinfectionsandthepipelineforthenextgenerationofanthelminticdrugsis sparse,precipitatingtheneedfornewdrugdevelopment.Inthiscontext,medicinalplants presentaviablesourceofnovelanthelminticcompounds.Thisinspiredustostudythe selectednaturallyoccurringcompoundsderivedfromaBhutanesedaisymedicinalplant, Ajanianubigenafortheiranthelminticactivities.Here,usingthexWORMmotilityassay, wedemonstratethattwocompounds,luteolin(3)and(3R,6R)-linalooloxideacetate(1), displaysignificantbroad-spectrumanthelminticactivityagainsttwoofthemostimportant generaofhumanhelminthparasites,thenematodewhipwormandtheplatyhelminth bloodfluke.LuteolinexhibitedthebestactivitieswithIC valuesof5.8μg/mLagainst 50 schistosomesand9.7μg/mLagainstwhipworms.Usingscanningelectronmicroscopywe showedthatluteolindamagesthetegumentofbloodflukesandinducesabnormalitiesin thebacillarybands/glandsandcuticlesofwhipworms.Intriguingly,ourpreviousstudy showedthatluteolin(3)waseffectiveagainstmulti-drugresistantPlasmodiumfalciparum malaria.Duetoitsbroad-spectrumanti-parasiticactivities,luteolin(3)isadesirabledrug leadscaffold,whichcouldbeusedfordevelopingeffectivecompoundstocontrolandtreat numeroustropicaldiseases. Introduction TheWorldHealthOrganization(WHO)recognises17different‘neglectedtropicaldiseases’ (NTDs)thataffectmorethan1.4billionpeoplein149countries[1].Helminthinfections causedbyroundworms(nematodes)andflatworms(platyhelminths)comprisethelargest groupofNTDs[2].Whipworms(Nematoda)causetrichuriasisandinfectabout800million peopleworldwide,secondamongthenematodesonlytoAscarisinfection[3].Theschistosome bloodflukes(Platyhelminthes)causeschistosomiasis,adiseasethatafflictsmorethan240mil- lionindividualsandkillshundredsofthousandseachyear[4]. Avarietyofapproacheshavebeenemployedtocombattheseinfectionsincludingeduca- tion,vectorcontrol,sanitationandhygiene,behaviouralchangeandmassdrugadministration (MDA)programs.Variousinvitroandanimalmodelstudieshavehighlightedtherepurposing ofexistingdrugsanddiscoveryanddevelopmenteffortsfornewdrugs[2,5]butallthingscon- sidered,thepipelineforthenextgenerationofanthelminticdrugsissparse.Indeed,asystem- aticassessmentofdatabasesofdrugregulatoryauthoritiesandtheWHO,aswellasclinical trialregistries,revealedthatnonewantiparasiticdrugshavebeenapprovedduringthelast PLOSNeglectedTropicalDiseases|DOI:10.1371/journal.pntd.0004908 August4,2016 2/18 AnthelminticActivityofMedicinalPlant-DerivedCompounds decade[6].Thereareonlyahandfulofanthelminticdrugsonthemarket,someofwhichhave unwantedsideeffectsorachievepoorcureratesduetoprimarydrugresistancedevelopingin theparasites[7–9]. Forexample,praziquantel,whichisthesolefrontlinedrugusedinthemasstreatmentof schistosomiasis,isefficaciousbuthasmanydisadvantages:a)itisineffectiveagainstjuvenile stagesoftheparasite,b)reducedefficacyhasbeenreportedinfieldstudies[10],c)thereisa strongpossibilitythatpraziquantelresistancecouldappearifsufficientselectionpressureis appliedandmassdrugadministrationiscontinued[11],andd)itsactive(S)-enantiomerand inactive(R)-enantiomercomponentsremaininseparableintheproductionprocess,rendering bulkytabletsthatdiscouragespatientsfromtakingtherightdosesorthecompletedosingregi- men,whichcouldtriggerthedevelopmentofdrugresistance[12].Untilnewarsenalsofsafe andeffectivedrugsand/orvaccinesaremadeavailable,helminthinfectionswillcontinueto affecttheworld’smostimpoverishedpopulations,causingsignificantmorbidityandmortality worldwide. Whilenewdrugscanbedevelopedsynthetically,naturalproducts—especiallythemedicinal plants—havebeenanimportantpoolofantiparasiticdrugs.Quinineandartemisinindiscov- eredfrommedicinalplantscontinuetosavethelivesofmillionsofpeopleworldwide.Assuch, thenotionoftherapeuticsderivedfrommedicinalplantshasre-surfaced[13].Crudeextracts andcompoundsofplantoriginhavebeendemonstratedtopossessbroadbiologicalactivities ininvitroandexvivoassaysandanimalmodelsofparasiticinfections[14–19].Edwardsetal. [20]showedthat7-keto-sempervirolisolatedfromtheboxthornfromwhichgojiberriesare harvested,Lyciumchinense,waseffectiveagainstSchistosomamansoniandFasciolahepatica. Acompoundthatdisplayssuchbroadanti-parasiticactivityagainstvariouslifestagesofmulti- pleparasitesishighlydesirable.ExtractsoftheBhutanesemedicinalplantfromtheflowering daisyfamily,Ajanianubigena(Syn.TanacetumnubigenumDC.)havebeenpreviouslyshown topossessbroadbiologicalactivitiesincludingantiparasiticeffectsagainstPlasmodiumfalcipa- rumandantimicrobialproperties[21].Itislocallyknownasm.khan-d.karandhasbeenused inBhutanesetraditionalmedicine(derivedfromTibetanscholarlymedicine)forthousandsof yearsasincenseandfortreatinganarrayofconditionsandinfectionsincludingwounds,bleed- ingandswelling[21].Althoughthisplantisnotspecificallyindicatedfortreatingintestinal worms,thedecoctionofitscloselyrelatedspecies,TanacetumpartheniumL.(feverfew)and TanacetumdolichophyllumKitamhasbeentraditionallyusedbytheLadakhisAmchis(medical systemderivedfromTibetanmedicineandsimilartoBhutanesetraditionalmedicine)[22]and CostaRicanshealers[23]againstintestinalworms.Theseplantshavereservesofhighlyaro- maticessentialsoilsthathaveevolvedtoaidinplantprotectionandcompetitionagainstplant parasitesandherbivorousinsects.Chemically,theseplantscontainsimilarchemotypesinclud- ingsesquiterpenesandflavonoids[23].Encouragedbytheseleadinformation,wehaveinvesti- gatedtheanthelminticpropertiesoffourcompoundsisolatedfromtheBhutaneseA.nubigena againsttwoofthemostimportantgeneraofhumanhelminthparasites,thenematodewhip- worm(Trichuris)andtheplatyhelminthbloodfluke(Schistosoma).Tomonitorwormviability weusedxWORM,atechniquethatmonitorshelminthmotilityinrealtimeusingxCELLigence [24–25].TheadvantageofusingxWORMoverothermethodsisthatitenableshigh-through- putscreeningofalargenumberofcompoundsinafullyautomated,label-freemanner. MaterialsandMethods Plantmaterialsandpreparationofcompounds TheaerialpartofwildAjanianubigenawascollectedfromalpinemountains(altituderangeof 3600–4800metersabovesealevel)ofLingzhi,BhutaninAugust2009.Thecollectedplant PLOSNeglectedTropicalDiseases|DOI:10.1371/journal.pntd.0004908 August4,2016 3/18 AnthelminticActivityofMedicinalPlant-DerivedCompounds materialwasair-driedandaherbariumspecimenwithvouchernumber73wasdepositedat theherbariumcollectionsectionofMenjongSorigPharmaceuticals,MinistryofHealth,Bhu- tan.Theair-driedplantmaterial(2kg)waschoppedintosmallpiecesandwasrepeatedly extractedwithmethanol(AR/HPLCgrade,3Lover48h).Theextractwasfilteredandthen concentratedusingaBuchirotaryevaporatortogenerateacrudemethanol(MeOH)extract (58.2g).Theisolationtechniquewasdescribedpreviously[21].MeOHextractwasdissolvedin MeOH:H O(200mL,1:9)andthenfractionatedwithhexanefollowedbyethylacetateto 2 obtainthehexaneextract(28.0g)andtheethylacetateextract(12.5g),respectively.Subse- quently,essentialoil(EO)extractionwasperformedusinghydro-distillation(60°C).Onekgof driedplantmaterialyielded7mLofpalegreenEO.ThecrudeMeOHextractandEOweresub- jectedtoextensivenaturalproductsisolationprocesses.Flashcolumnchromatographypacked withMerckKieselgel60PF254andpre-coatedsilicaplates(0.2mmsilicathickness,Merck) wereusedforrepeatedseparationandpurificationofcompounds.UVlight(shortwavelength of254nm,longwavelengthof366nm)andcericammoniummolybdate(CAM)wereusedfor visualizationanddetectionofcompoundsonThinLayerChromatography(TLC)plates.Eight compoundswereisolatedandcharacterisedintotalfromtheMeOHandEOextractsusing Infrared(IR)Spectroscopy,MassSpectrometry(ESI-MS,HR-EI-MS),GasChromatography MassSpectrometry(GCMS),andNuclearMagneticResonance(NMR-1H,13C,gCOSY, gNOESY,TOCSY,gHSQCandgHMBC)[21].Inthisstudy,wehaveselectedfourmajorcom- poundswhosestructuresareproducedinFig1:(3R,6R)-linalooloxideacetate(1),(E)-spir- oether(2),luteolin(3)andluteolin-7-O-β-D-glucopyranoside(4). Thestocksolutionsofthefourtestcompoundswerepreparedattheconcentrationof100 mg/mLinDMSOandthensubsequentlydilutedthemwithrespectivetissueculturemediato make10xsolutions.20μlof10×drugconcentrationwasaddedto180μlofmediacontaining helminthsintheE-platewells.ControlwormswereculturedinthepresenceofDMSOequiva- lenttothatusedforthehighestdrugconcentration;thisgroupwasusedtodetermine100% motility.Forschistosomuladrugassays,stocksolutionsweredilutedinculturemediawith two-folddilutionswithin-wellconcentrationsof(2–1000μg/mL). Fig1.Structureofcompounds[21].(3R,6R)-linalooloxideacetate(1),(E)-spiroether(2),luteolin(3),luteolin-7-O-β-D-glucopyranoside(4)werederived fromA.nubigenaandtestedfortheiranthelminticactivitiesusingxWORM.Plantphotocourtesy–PW. doi:10.1371/journal.pntd.0004908.g001 PLOSNeglectedTropicalDiseases|DOI:10.1371/journal.pntd.0004908 August4,2016 4/18 AnthelminticActivityofMedicinalPlant-DerivedCompounds PreparationofSchistosomamansoni S.mansonicercariaewereshedfrominfectedBiomphalariaglabratasnails(Biomedical ResearchInstitute,MD,USA)byexposuretolightat26°Cfor2hoursandusedtoinfect12–14 weekoldmaleBALB/cmice(120cercariae/mouse)byabdominalpenetration[26].Adult flukeswereperfusedfromthemesenteries7weekspost-infectionandthentransferredto Baschmediumforculturingaspreviouslyreported[27].TomonitortheeffectsofdrugsonS. mansonischistosomula,sheddingofcercariaefromsnailsandsubsequentinvitrotransforma- tiontoschistosomulawasperformedasdescribedbyPeaketal[28]. PreparationofTrichurismuris Geneticallysusceptiblemice(STAT6-1-)wereorallyinfectedwithT.muriseggs(200μLvolume containing~200eggs)andsacrificedafter4weeks.Adultwormswereharvestedfromthecae- cum,washedwithPBS/2xantibiotic/antimycotic(AA)andresuspendedin100μlofRPMI containing10%foetalcalfserumandAA(culturemedium)thentransferredtoE-platesfor motilityassessmentusingthexWORMassay. xWORMassay ThetrematocidaleffectsoftestcompoundsagainstS.mansoniwereevaluatedusinganxCEL- LigenceSPsystem(ACEABiosciences)asdescribedbyus[25].Adultflukes(1flukeperwell) wereplacedintriplicateforeachcompoundinto96wellE-plates(ACEABiosciences)contain- ing180μlofculturemediumandculturedovernightat37°Cwith5%CO toobtainabaseline 2 motilityreading.TestcompoundswereaddedtoE-platesandmotilitywasmonitoredfor12– 40hr.Theinter-wellspacesofE-plateswerefilledwith100μLculturemedia.Allexperiments werecarriedoutaspermanufacturer’sinstructionswith15secreadintervalsusingthereal timecellassay(RTCA)software(ACEABiosciences)asdescribedpreviously[24–25]. Similarly,thenematocidaleffectsoftestcompoundsagainstT.muriswereassessedusing thesamexCELLigenceSPsystemasdescribedabove.Wedeterminedtheoptimalculturedura- tionandwormconcentrationtomaximizethesignaltonoiseratiousingthexWORMtech- niqueforthefirsttimewithT.muris.DifferentnumbersofadultT.muris(2,4and8)were addedtoindividualE-platewellsandmotilitywasmonitoredovernight.Fourwormsofmixed genderperwellinafinalvolumeof200μlofculturemediumwasdeterminedtobeoptimalfor thisstudy.TheE-platescontainingwormsweretreatedwithpreparedconcentrationsofthe testcompoundsandweremonitoredusingthexCELLigenceSPsystemfor12–40hr.Inter-well spaceswerefilledwith100μLofculturemediumorPBStopreventevaporation.Eachsetof conditionswasmonitoredintriplicate. Determiningtheeffectsofcompoundsagainstschistosomula The96wellplatescontainingculturemediawereloadedwithschistosomula(100μLvolume containing~100schistosomula)intriplicateandtreatedwiththetestcompoundsatvarious in-wellconcentrationsof2–1000μg/mL.Plateswereculturedat37°Cwith5%CO for12–40 2 hrandwerefinallystainedwithtrypanbluesolutiontoassessfinalviabilityaftertreatment. Thestainedschistosomulawereobservedbylightmicroscopy,andliveanddeadflukesineach wellwerecountedmanuallyand50%inhibitoryconcentration(IC )valueswereobtained. 50 DeterminationofIC valuesfortestcompounds 50 TheIC valuesoftestcompoundsweredeterminedbasedonthemotilityindexforadult 50 wormsasdescribedbyus[25].Briefly,motilityindexwascalculatedasthestandarddeviation PLOSNeglectedTropicalDiseases|DOI:10.1371/journal.pntd.0004908 August4,2016 5/18 AnthelminticActivityofMedicinalPlant-DerivedCompounds (SD)over800datapoints(i.e.4readingsperminfor200min)ofthecellindex(CI)difference fromtherollingaverageover20datapoints(10proceedingandprecedingCIvalues—5min total).Onehundredpercentmotilitywasdeterminedfromtheaveragemotilityindexofthe untreatedwells,while0%motilitywasdeterminedfromamediaonlywell(nowormspresent). Themotilityindexaveragedover100datapoints(25min)wasconvertedtopercentagemotility andthisfigurewasusedinGraphPadPrism6.0tocalculatedoseresponsecurves.Weusedalog (testcompoundconcentration)vsnormalisedresponse(100%–0%)formula,withvariableslope whendataweresufficientorset-1hillslopewhendatawaslimited,andautomaticremovalof outliers(withdefaultROUTcoefficientused:Q=1.0%).IC valuesforeachdoseconcentration 50 werecalculatedat1hr,6hr,and12hrpost-treatmentofthewormswiththetestcompounds. CompoundswithIC valuesofhigherthan100μg/mLwereconsideredineffectiveinthisstudy. 50 Statisticalanalysis StatisticalanalyseswereundertakenusingGraphPadPrism6.0.Whendataweresufficienttousethe variableslopeanalysis,theHillSlopeandtheLogIC valueweretogethercomparedforsignificant 50 differencesusinganextrasum-ofsquaresF-test.Fortheinvivomouseexperiments,1-wayANOVA withHolm-Sidak’smultiplecomparisonstestwasusedfordeterminingsignificancep-values. Scanningelectronmicroscopy Wormstreatedwiththetestcompoundswerepreparedforscanningelectronmicrocopy (SEM)asfollows:a)fixedin3%gluteraldehydeinSorensen’sbufferovernight,b)dehydrated for15mininagradedethanolseries(50%,60%,70%,80%,90%,100%),mixtureofethanol andhexamethyldisilizane(HMDS)(1:1ratio)andthenfinallywithpureHMDS(100%),c)the dehydratedwormswerecoveredandleftovernightinafumehoodtoallowtheHMDStoevap- orate.Completelydriedwormswereplacedonanaluminumstub(atleastthreewormsfrom eachtreatmentregimen),sputteredwithgoldandvisualizedusingaJEOLJSMscanningelec- tronmicroscopeoperatingat10kV.Eachwormonastubwasscannedfromheadtotailto determineifthecompoundshadaltereditsgrossmorphology.Digitalimageacquisitionwas performedontheaffectedregionofthewormsusingSemaphoresoftware. Invivoanimalmodelstudiesofluteolin(3) Fourtofiveweek-oldSTAT6-1-miceweregrouped(eachgroupwith9mice)as:solventcon- trol,positivecontrolandluteolin(3).Eachmousewasorallyinfectedwith200μlofPBScon- tainingapproximately200liveembyronatedeggsofT.muris.Thesemicewerehousedfor4 weekswithconstantaccesstowaterandpelletedfood.After4weeks,luteolin(3)andtheposi- tivecontroldrug(mebendazole)preparedin1%DMSO/PBSwereorallyadministeredatasin- gledoseof100mg/kg(9miceintotalforeachgroup)aspertheprotocol[29–30].Fivedays afteronedoseoforaltreatmentthemiceweresacrificed,wormswereharvestedfromthecae- cum,andcountedmanuallyusinglightmicroscopy.Therecordednumbersofwormswere averagedtofindthepercentagereductioninwormburdenforeachgroupofmice. Ethicsandapprovals ThepermittocollectmedicinalplantsfromtheparkmanagementareasaroundLingzhi,Bhu- tanwasobtainedfromtheDepartmentofForest,MinistryofAgricultureandForestryinBhu- tan.ThematerialtransferagreementandapprovalwassoughtfromtheNationalBiodiversity CentreofBhutan.MeOHextractsoftheplantsweretransportedtoAustraliawithpriorapproval fromtheBhutanAgricultureandFoodRegulatoryAuthority,UniversityofWollongongand PLOSNeglectedTropicalDiseases|DOI:10.1371/journal.pntd.0004908 August4,2016 6/18 AnthelminticActivityofMedicinalPlant-DerivedCompounds sampleinspectionsbyAustralianQuarantine&InspectionServicein2010.TheJamesCookUni- versity(JCU)animalethicscommitteeapprovedallexperimentalworkinvolvinganimals(Ethic approvalnumberA2213).MiceinfectedwithS.mansoniandT.muriswereraisedincagesinthe JCUanimalfacilityfor4–7weeksincompliancewiththeAustralianCodeofPracticeforthe CareandUseofAnimalsforScientificPurposes,7thedition,2007andtheQueenslandAnimal CareandProtectionAct2001.Micewerekeptundernormalconditionsatregulatedtemperature (22°C)andlighting(12hrlight/darkcycle)withfreeaccesstopelletedfoodandwater.Allrea- sonableeffortsweremadetominimisethesufferingofthemice. Results TheisolationandcharacterizationofcompoundsfromtheA.nubigenaplantwereperformed asreportedpreviouslybyus[21].Outofeightcompoundsisolatedfromthisplant,several werereportedtohaveantimalarial,antibacterial,antifungalandcytotoxicityactivities[21]. Encouragedbytheantimalarialactivities,fourmajorcompounds(Fig1):(3R,6R)-linalool oxideacetate(1),(E)-spiroether(2),luteolin(3)andluteolin-7-O-β-D-glucopyranoside(4), weretestedforbroad-spectrumanthelminticactivitiesagainsttwodistinctphylaofhelminths, theplatyhelminthtrematodebloodflukeS.mansoniandthenematodewhipwormT.muris. TrematocidalactivityofcompoundsagainstadultS.mansoni Ofthefourcompoundstested,(3R,6R)-linalooloxideacetate(1),luteolin(3)andluteolin-7-O- β-D-glucopyranoside(4)showedanti-schistosomedose-dependentanti-schistosomeeffects (Fig2A).Atthehighestconcentrationtested(1mg/mL)allthreecompoundskilledflukes within1–12hr.Lowerdrugconcentrations,however,tooklongertokillflukesreflectedby highermotilityindexvalues(Fig2A). WhentheIC valuesofeachcompoundwereaveragedorcombined(calculatedforthe 50 doseconcentrationsof0.1–1000μg/mL)foreachtimepoint(1hr,6hrand12hr),luteolin(3) andluteolin-7-O-β-D-glucopyranoside(4)appearedtobefastactingonwormsastheirIC 50 valuesdidnotchangesignificantlybetweentheinitialandfinal12hrdosingtimepoints(Fig 2B).Ontheotherhand,(3R,6R)-linalooloxideacetate(1)wasslow-acting,showingtwo-fold decreasesinIC ateach6hrtimepoint.Ofthecompoundsassessed,luteolin(3)exhibitedsig- 50 nificantlybettertrematocidalactivityatboth6hrand12hrtimepointswithIC valuesof 50 4.6μg/mLand5.8μg/mL,respectively. EffectsofcompoundsagainstschistosomulaofS.mansoni ThecompoundsthatwereactiveagainstadultS.mansoniwerealsotestedagainsttheintra- mammalianlarvalstage,theschistosomulum.Monitoringofschistosomulasurvivalinthe presenceofdifferentdrugconcentrationusingTrypanblueexclusionshowedthatluteolin(3) startedtoshowlethaleffectsatthelowestdilutionof3.91μg/mLandachieved98–100%killing atthedilutionof31.3μg/mL.(3R,6R)-linalooloxideacetate(1)howeverstartedtoshowlethal effectsataconcentrationof125μg/mLandonlyachievedabout43%killingatthemaximum dosetestedof250μg/mL.Schistosomulatreatedwith1%DMSOalone(solventcontrol)had 100%survivalasmeasuredbyTrypanblueexclusion.Adoseresponsecurveofschistosomula survivalaftertreatmentwithluteolin(3)revealedanIC of13.3μg/ml(Fig3B). 50 Effectsofluteolin(3)onthemorphologyofadultS.mansoni Luteolin(3)demonstratedthebestanthelminticactivitywhenmotilitywasassessedusing xWORM.Theeffectofthiscompoundandpraziquantelonadultflukemorphologyat PLOSNeglectedTropicalDiseases|DOI:10.1371/journal.pntd.0004908 August4,2016 7/18 AnthelminticActivityofMedicinalPlant-DerivedCompounds Fig2.Invitroanti-schistosomeactivitiesoffourcompoundsagainstadultS.mansoni.A)Motilityindexdose responsecurveofwormsatthe12hrtimepointwhentreatedwith(3R,6R)-linalooloxideacetate(1),(E)-spiroether(2), luteolin(3),luteolin-7-O-β-D-glucopyranoside(4)(abbreviatedasCom-1,Com-2,Com-3andCom-4)atdifferent concentrations(0.1–1000μg/mL).Motilityindexwascalculatedasthestandarddeviation(SD)over800datapoints (i.e.4readingsperminfor200min)ofthecellindex(CI)differencefromtherollingaverageover20datapoints(10 proceedingandprecedingCIvalues—5mintotal).B)50%inhibitoryconcentration(IC )curvesovertime.Errorbars 50 represent95%confidenceintervalsofnonlinearcurvefit.Thecurvesweremarginallyshiftedonthex-axistoaid viewing.Thesefiguresrepresentthedatafromthreeindependentstudies. doi:10.1371/journal.pntd.0004908.g002 4–20μg/mLconcentration,withparticularemphasisonthetegument,wasassessedbySEM. Adultflukestreatedwithpraziquanteladoptedatightlycoiledappearanceduetocontraction. Bothmaleandfemaleflukestreatedwithluteolin(3)werecontractedandcoiledcomparedto controlflukesculturedin1%DMSOinmedia,butnotastightlycoiledaspraziquantel-treated parasites(Fig4A–4F). ObservationoffluketegumentsbySEMunderhighmagnificationrevealedthatthetegu- mentofDMSO-treatedflukesdisplayednumeroustubercles,withwell-formedspinesinthe males(Fig5A)andclearlydefinedsurfacegrooveswithsensorypapillaeinfemales(Fig5B), andoralsuckerswithclearlydefinedpitscontainingsharpspines(Fig5C).Flukestreatedwith praziquantel(Fig5D–5F)andluteolin(3)(Fig5G–5I)exhibitedseveremorphologicalalter- ationsofthetegument. Atthelowestconcentrationtestedof4μg/mLweobservedcleartegumentaldamage inducedbyluteolin(3)(Fig5G–5I),similartothatinducedbypraziquantel(Fig5D–5F). Whilemaleflukes(Fig5G)sufferedpartiallossofpitsandtheirencasedspines,femaleflukes (Fig5E)showedsurfaceerosion,constrictionofgrooves,burstingofsmallsensorypapillaeand formationofholesonthetegument.Athigherconcentrationsof20–1000μg/mL,luteolin(3) andpraziquantelcompletelydestroyedthebodysurfacesandexhibitederosionoftubercles, oralandventralsuckers(S1Fig). PLOSNeglectedTropicalDiseases|DOI:10.1371/journal.pntd.0004908 August4,2016 8/18 AnthelminticActivityofMedicinalPlant-DerivedCompounds Fig3.Effectofcompoundsonthesurvivalofschistosomula.A)Images(20x)ofwellscontaining schistosomulathatweretreatedwithlinalooloxideacetate(1)andluteolin(3)(abbreviatedasCom-1andCom-3) atthemaximumconcentrationtestedof250μg/mLandstainedwithtrypanblue.Deepbluestainingsignifiesa deadparasite.B)Theeffectof(3R,6R)-linalooloxideacetate(1)andluteolin(3)(abbreviatedasCom-1andCom- 3)onschistosomulamortalityobservedattwo-folddilutions(250–1.9μg/mL).Thedatawasgeneratedfrom triplicatesamplesobtainedfromtwoindependentstudies. doi:10.1371/journal.pntd.0004908.g003 NematocidalactivitiesofcompoundsagainstadultT.muris Priortotestingthenematocidaleffectsof(3R,6R)-linalooloxideacetate(1),(E)-spiroether(2), luteolin(3)andluteolin-7-O-β-D-glucopyranoside(4),westandardizedtheculturingcondi- tionsofadultT.murisforthexWORMassay.E-platewellscontainingfouradultworms(both malesandfemales)yieldedoptimalmotilitysignals(S2Fig),andwastheconditionselectedfor subsequentanthelminticscreeningofthetestcompounds.(3R,6R)-linalooloxideacetate(1) andluteolin(3)showedthebestanti-TrichurisactivitywithIC valuesof20.4μg/mLand 50 9.7μg/mL,respectively,calculatedoncellmotilityindexatthe12hrtimepoint(Fig6A). TheIC valuesofthefourcompoundstestedherewereobtainedusingxWORMandcalcu- 50 latedat1hr,6hrand12hrtimepoints(Fig6B).Luteolin(3)wasthemostefficaciousdrugin termsofreducedmotilityofT.muris,exhibitingthelowestorequallylowIC valuesatall 50 timepointsandafinal12hrvalueof9.7μg/mL. Effectsofluteolin(3)onthemorphologyofadultT.muris Basedontheefficacyofluteolin(3)atreducingTrichurismotility,weexaminedthemorpho- logicalchangesinthecuticleinducedbythiscompoundusingtheSEMprotocolsdescribedby Stepeketal[30]andTrittenetal[31]specifictoT.muris.LiveadultT.muris(mixedsexes) weretreatedfor48hrwithluteolin(3)ormebendazoleatdoseconcentrationsof200–1000μg/ mL.Morphologicalchangeswereobservedtowardstheanteriorendofthewormsintheform ofpartiallydamagedbacillaryband/glandsandadjacentcuticle.Thebacillarybandisa PLOSNeglectedTropicalDiseases|DOI:10.1371/journal.pntd.0004908 August4,2016 9/18 AnthelminticActivityofMedicinalPlant-DerivedCompounds Fig4.Effectsofluteolin(3)andpraziquantelonthemorphologyofadultS.mansoniat4–20μg/mL concentrationvisualizedusingscanningelectronmicroscopy.A,CandEshowmaleflukes.B,DandF depictfemaleflukes.(A,B)FlukesinDMSO/mediacontrol.(C,D)Flukestreatedwithpraziquantel(tightly coiled).(E,F)Flukestreatedwithluteolin(3)(moderatelycoiled).Threeseparatewells(with3–5adultflukes perwell)weretreatedwithdifferentdosesoftestsamplesasaboveandeachofthemwasexaminedunder SEM. doi:10.1371/journal.pntd.0004908.g004 specializedrowoflongitudinalcellsofsomenematodesconsistingofglandularandnon-glan- dularcells.Thesebandshosttheglands.WormstreatedwithDMSO/media(solventcontrol) alonehadamoderatelycoiledappearancewithasmoothcuticledisplayingknittedparallelseg- mentaljoinsandminimalshrinkageofbands(Fig7A–7C)incomparisontothegroupstreated withmebendazole(Fig7D–7F)andluteolin(3)(Fig7G–7I).Athighermagnificationwe observedthattheluteolin-treatedwormsexhibitedblister-likeformationsonthesurfaceofthe cuticle,swellingandlooseningofcuticleseams/groovesnearthebacillaryglands(Fig7I). Thesemorphologicalchangesweresimilartothatofthemebendazole-treatedworms(Fig7F). PLOSNeglectedTropicalDiseases|DOI:10.1371/journal.pntd.0004908 August4,2016 10/18