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Novel anti-Sialyl-Tn monoclonal antibodies and antibody-drug conjugates demonstrate tumor specificity and anti-tumor activity Citation Prendergast, Jillian M., Ana Paula Galvao da Silva, David A. Eavarone, Darius Ghaderi, Mai Zhang, Dane Brady, Joan Wicks, Julie DeSander, Jeff Behrens, and Bo R. Rueda. 2017. “Novel anti-Sialyl-Tn monoclonal antibodies and antibody-drug conjugates demonstrate tumor specificity and anti-tumor activity.” mAbs 9 (4): 615-627. doi:10.1080/19420862.2017.1290752. http://dx.doi.org/10.1080/19420862.2017.1290752. Published Version doi:10.1080/19420862.2017.1290752 Permanent link http://nrs.harvard.edu/urn-3:HUL.InstRepos:33029910 Terms of Use This article was downloaded from Harvard University’s DASH repository, and is made available under the terms and conditions applicable to Other Posted Material, as set forth at http:// nrs.harvard.edu/urn-3:HUL.InstRepos:dash.current.terms-of-use#LAA Share Your Story The Harvard community has made this article openly available. Please share how this access benefits you. Submit a story . Accessibility MABS 2017,VOL.9,NO.4,615–627 http://dx.doi.org/10.1080/19420862.2017.1290752 REPORT Novel anti-Sialyl-Tn monoclonal antibodies and antibody-drug conjugates demonstrate tumor specificity and anti-tumor activity JillianM.Prendergasta,AnaPaulaGalvaodaSilvaa,*,DavidA.Eavaronea,*,DariusGhaderi a,MaiZhanga,DaneBradyb, JoanWicksb,JulieDeSandera,JeffBehrensa,andBoR.Ruedac,d aSiamabTherapeutics,Inc.,Newton,MA,USA;bAliz(cid:1)eePathology,LLC,Thurmont,MD,USA;cVincentCenterforReproductiveBiology,Departmentof ObstetricsandGynecology,MassachusettsGeneralHospital,Boston,MA,USA;dHarvardMedicalSchool,Boston,MA,USA ABSTRACT ARTICLEHISTORY Targetedtherapeuticsthatcandifferentiatebetweennormalandmalignanttumorcellsrepresenttheideal Received16December2016 standard for the development of a successful anti-cancer strategy. The Sialyl-Thomsen-nouveau antigen Revised25January2017 (STn or Sialyl-Tn, also known as CD175s) is rarely seen in normal adult tissues, but it is abundantly Accepted30January2017 expressedinmanytypesofhumanepithelialcancers.Wehaveidentifiednovelantibodiesthatspecifically KEYWORDS target with high affinity the STn glycan independent of its carrier protein, affording the potential to AntibodyDrugConjugate recognize a wider array of cancer-specific sialylated proteins. A panel of murine monoclonal anti-STn (ADC);breastcancer;CD175s; therapeutic antibodies were generated and their binding specificity and efficacy were characterized in coloncancer;ovariancancer; vitroandininvivomurinecancermodels.Asubsetoftheseantibodieswereconjugatedtomonomethyl sialyl-Tn;STn;Tumor- auristatin E (MMAE) to generate antibody-drug conjugates (ADCs). These ADCs demonstrated in vitro AssociatedCarbohydrate efficacy in STn-expressing cell lines and significant tumor growth inhibition in STn-expressing tumor Antigen(TACA) xenograftcancermodelswithnoevidenceofoverttoxicity. Introduction leading to more aggressive cancer cell behaviors.6-9 Truncated Cancer is the second leading cause of death in the US, with O-glycansareoneclassoftumor-associatedcarbohydrateanti- 595,690deathsand1.69millionnewcasesexpectedin2016.1A gens(TACAs)10-12thatcanbetargetedbycancertherapy,par- targeted therapy that reliably differentiates between normal ticularlywhenpresentedoncellsurfaceglycoproteins. andmalignanttumorcellsrepresentsthegoldstandardforcan- STn is expressed in numerous human adenocarcinomas, cer treatment. Glycosylation of proteins is one of the most includingbreast,ovarian,bladder,cervical,colon,pancreaticand abundant and diverse post-translational modifications, with lungcancers.3,5,13-15Thepresenceofcellsurface/membraneSTn more than half of all human proteins estimated to be glycosy- intumorsisassociatedwithtumorigenesis,metastaticpotential, lated.2 Aberrant glycosylation has been implicated in an array immunesuppression,chemoresistanceandpoorprognosis;3,14,16 of human diseases and is a common feature of cancer cells.3,4 therefore, STn is an attractive therapeutic target. Therapeutic One altered glycosylation pathway associated with malignancy approaches targeting STn have consisted primarily of STn vac- isO-glycanbiosynthesis.IncompleteO-glycosylationresultsin cines. The most advanced clinical candidate was Theratope, a truncated glycans, such as Thomsen-nouveau (Tn; GalNAc- therapeuticvaccineconsistingofSTncoupledtokeyholelimpet a1-O-Ser/Thr) antigen and its sialylated version sialyl-Tn hemocyanin (KLH). In murine mammary carcinoma models, (STn; Siaa2–6GalNAc-a1-O-Ser/Thr, also known as CD175s). Theratope immunization induced a potent antibody response AberrantSTnexpressionisassociatedwithdysregulationofthe that delayed tumor growth.17 However, Theratope failed to O-glycosylation machinery, including imbalanced expression achieve its primary end point ina Phase 3 clinicaltrial not due of molecular chaperone Cosmc/T-synthase and STn synthase totoxicitybuttolackofefficacyinpartpossiblyduetothebroad (ST6GalNAc-I).Cosmc is a chaperone of T-synthase and both variabilityofSTnexpressioninbreastcancertissues.3,18 are necessary for the addition of glycan structures to Tn in TACAsarepoorlyimmunogenic,andthusmakingeffective mucin-type core-1 O-glycans.5 STn synthase is an a2,6-sialyl- vaccines or antibodies against these targets has proven diffi- transferasethatcatalyzesthetransferofaterminalsialicacidto cult.14Previousantibodydevelopmenteffortsusedpurifiedgly- Tn, effectively capping O-glycans and preventing any further coproteins from cancer samples and Freund’s adjuvant, or glycan additions. De novo STn expression via STn synthase mucin-coated heat-inactivated bacteria, for mouse immuniza- transfection can change a tumor’s malignant phenotype, tion. These approaches have resulted in the development of CONTACT JillianM.Prendergast [email protected] 90BridgeSt.Suite100,Newton,MA02458,USA. *Theseauthorscontributedequallytothiswork. Supplementaldataforthisarticlecanbeaccessedonthepublisher’swebsite. PublishedwithlicensebyTaylor&FrancisGroup,LLC.©SiamabTherapeutics,Inc. ThisisanOpenAccessarticledistributedunderthetermsoftheCreativeCommonsAttribution-NonCommercial-NoDerivativesLicense(http://creativecommons.org/licenses/by-nc-nd/ 4.0/),whichpermitsnon-commercialre-use,distribution,andreproductioninanymedium,providedtheoriginalworkisproperlycited,andisnotaltered,transformed,orbuiltupon inanyway. 616 J.M.PRENDERGASTETAL. several murine anti-STn monoclonal antibodies (mAbs), ADCs consisting of anti-STn mAbs, conjugated to MMAE, including B72.319 (and its successor antibody CC4920), which demonstrate high affinity, specificity and anti-tumor TKH2,21andHB-STn1(clone3F121,22),andothers.14Thetarget activityinvitroandinvivo. specificity of these mAbs have come into question as these mAbs bind additional glycan targets and may have glycopro- tein preferences for antigen recognition.23 Advances in adju- Results vant technology and immunization strategies have enabled Antibodyspecificityandepitopemapping high titer and desirable antibody maturation responses to his- torically difficult immunization targets.24 We used immune Generatinghighspecificityandaffinityanti-STnmAbsdepends modulatoryandenhanceddeliveryofaTLR9agonist(CpGoli- ontheabilitytopreciselyprofiletheglycanbindingspecificities godeoxynucleotides) and AbISCO, an adjuvant composed of ofcandidateantibodies,independentoftheproteincarrier.We saponin, phospholipid and cholesterol that acts both as an developedaglycanarrayincollaborationwithDr.AjitVarki31 immunostimulant and delivery agent. These immunization thatcontains 71chemically synthesizedandwell-characterized optimizationstrategiesandsynergisticadjuvants(AbISCO-100 glycans (Table S1). The glycan array includes several STn- and ODN 2395) enabled the generation of high affinity, STn- related structures, allowing determination of the exact binding specificmAbs. epitope of each antibody (Fig. 1). The information generated Antibody-drugconjugates(ADCs)utilizeamAbasatarget- from the glycan array, and other binding assays, enables us to ingtoolfordeliveringapotentcytotoxicpayloadspecificallyto determinetheprecisespecificityoftheanti-STnantibodiesgen- cancer cells. An STn-specific ADC may overcome shortcom- erated and identify antibodies that do not cross-react with ings of previous attempts to target STn with therapeutic vac- relatedglycanspresentintheglycanarray. cines. ADCs enable dosing at therapeutic concentrations, do The glycan array technology utility was demonstrated by notrelyonvariableimmunesystemresponses,andadditionally characterizationof commerciallyavailableanti-STn mAbs.The offer the promise of companion diagnostic development to binding epitope for these mAbs is purported to be ‘Neu5Ac- identifypatientsmostlikelytobenefitfromtherapy.Thespeci- a-2,6-galNAc’ (as per manufacturer’s description). However, ficity and targeting capabilities of ADCs have resulted in commercialmAbsrecognizemultipleSTn-relatedoligosacchar- numerousdrugswithclinicalefficacyandfavorablesafetypro- idesincludingtheTnantigen(GalNAc)(Fig.2).Anti-STnanti- files.25-27 We used the microtubule disrupting agent mono- body 3H1951 did not recognize STn or Tn structures, but methylauristatinE(MMAE)withaMC-vc-PABlinkersystem, instead bound Neu5,9Ac2-ST/Neu5Gc-ST (Neu5Gca3Gal whichhasbeendemonstratedeffectiveinkillingtumorantigen b3GalNAc/Neu5,9Ac2a3Galb3GalNAc).In contrast, ourinter- expressingcellsinvitroalongwithneighboringnegativetumor nally generated anti-STn mAb 8C2–2D6 selectively binds to cells through bystander killing,28 and successful in vivo and STn, but no related structures (Fig. 2). Additionally, we used humanclinicalstudies,leadingtotheFoodandDrugAdminis- flow cytometry and enzyme-linked immunosorbent assays tration (FDA)’s approval of the product brentuximab vedotin (ELISA) to map the antibodies’ binding epitope and determine (Adcetris(cid:1)).29,30 Here, we report the development of novel relative affinities. We tested for sensitivity to mild periodate Figure1. Bindinggroupsdeterminedforanti-STnantibodies.mAbsweregroupedbasedontheirbindingspecificitiestowardO-glycans.Group1:mAbsbindSTnonly (Neu5Aca2,6GalNAcaO).Group2:mAbsbindtoNeu5Aca2,6Gal(NAc)aO.Group3:mAbsbindtoNeu5Aca2,6Gal(NAc)aOandNeu5Aca2,6Gal(NAc)b1,4Glc(NAc)bO.Group 4:mAbsbindtoSTnandTn(GalNAcaO).AllmAbsalsobindthecorresponding9-O-acetylatedandNeu5GcO-glycans.Theredshadedcirclesinthefigureandnon-greyed outglycansinthetablerepresentthedetectedepitopeforeachgroup. MABS 617 Figure2.Representativebindingprofilesofanti-STnantibodiesontheglycanarray.Anti-STncommercialantibodieswerepurchasedfromvendors(B72.3ThermoScien- tific;CC49and3H1951,SantaCruzBiotechnology;STn219Abcam).Allantibodiesweretestedusing1mg/mLconcentration.Commercialantibodiesrecognizemultiple STn-relatedoligosaccharidesincludingtheTnantigen(GalNAc). treatment to determine whether the antibodies bound to the immunization,includingthefinalboost.Serawasscreenedwith side chain of terminal sialic acids. This periodate oxidation of ELISAs and glycan arrays to identify mice with desirable anti- terminalsialicacidsremovesthesidechain,givingrisetotheC- STnbindingprofiles,andtoidentifyoptimaltimingforsplenic 7 analogs of these sialic acids.32 The commercially available collection. Splenocytes were harvested and fused to establish mAbsB72.3andCC49boundequallywelltomucinsafterperi- hybridomas and an anti-STn mouse antibody panel. Hybrido- odatetreatment,suggestingthatthebindingofthesemAbsdoes mas were generated and screened for specificity and affinity to notrelyonthesidechainnoracetylationofsialicacid. STnantigenbyFACS,ELISAandglycanarray.Selectedhybrid- Together,ELISA,flowcytometryandglycanarrayswereused omas were expanded for antibody production and cell pelleted tocharacterizethebindingofthepanelof8anti-STnmAbs.The for protein sequencing. Antibodies were purified and in some resultsfromELISA and flowcytometrydemonstratednanomo- cases made recombinantly to enhance production, purification larEC50s,suggestingrobustbindingaffinity(Table1).Thegly- andanalysis.Anexampleoftheevolutionoftheanti-STnanti- can binding profile determined from the glycan array further bodyresponseleadingtocandidate2G12–2B2isrepresentedin demonstratedSTnspecificbindingformostmAbstested. Fig. 3. Additionally, serum ELISA immune responses are detailedinTableS2.ArobustpanelofmAbswasnarrowedto8 forfullbindingcharacterization(Table1). Generationandcharacterizationofanti-STncandidate mAbs Immunohistochemistrytoconfirmcancerspecificity Six to eight-week-old female mice (BALB/c) were immunized subcutaneously(50mLpersite,4sites,200mL/mouse)ondays Tissue microarrays (TMAs) consisting of a panel of formalin- 0, 14, 28 and 42 with immunogen and an adjuvant cocktail fixedneoplasticandnormaltissueswerestainedwithanti-STn (AbISCO-100andODN2395).Bloodwascollectedbeforeeach mAbstodeterminereactivitywithneoplasticandnormalcells. Table1.Anti-STnmAbbindingresultssummary. ELISAEC50(nM) GlycanArray Internalization FACSEC50(nM) mAb Isotype BSM1 OSM2 PSM3 (%)4 BindingGroup5 MDA-MB-231STnC MeanFI p-value 8C2–2D6 IgG2a,k 0.4 0.5 0.3 99 1 2.8 7.6 0.03 2G12–2B2 IgG2a,k 0.1 0.1 0.1 99 1 0.3 6.7 0.01 4G8–1E3 IgG2a,k 1.2 0.6 0.1 99 1 0.7 7.4 0.01 S3F(cid:1) IgG2a,k 0.3 0.1 0.2 98 1 3.1 8.1 0.001 5G2–1B3 IgG1,k 0.4 0.2 10.2 92 4 0.2 ND ND 2C2–2C5 IgG3,k 1 0.2 0.2 100 1 0.8 6.2 0.03 5E6–2E7 IgG3,k 5.8 0.8 0.4 100 1 1.8 7.5 0.04 9F11–1F7 IgG3,k 4.6 0.9 0.9 99 1 0.8 5.5 0.05 SummaryTableofbindingresults. 1BSMisbovinesubmaxillarymucin.2PSMisPorcineSubmaxillaryMucin.3OSMisovinesubmaxillarymucin.4%signalontheglycanarray;thehigherthepercentagethe moreSTnspecifictheantibody.5ThebindinggroupseeFig.1.NDisnotdetermined.ELISAEC50sweredeterminedaftersubtractingsignalfromperiodatetreatedwells fromnon-treatedwells.(cid:1)S3Fwasnotgeneratedduringourimmunizations–thisisderivedfromHB-STnclone3F1.WeclassswitchedfrommouseIgG1andrecombi- nantlyexpressedasamouseIgG2a,werefertothisengineeredantibodyas“S3F”inthetext. 618 J.M.PRENDERGASTETAL. abroadrangeofhumanepithelialcancers.Examplesof2G12– 2B2 staining of normal tissue and neoplastic lung, pancreas and colon tissue are detailed in Fig. 4. Urinary bladder and ovariancanceralsoyieldedastrongmembranestainingpattern with high frequency. A summary of positive IHC-scored neo- plastic TMA cores with the other 7 mAbs tested is shown in Table2. Invitrointernalizationassays To determine whether anti-STn mAbs were internalized upon binding to the cell surface, and therefore candidates for cyto- Figure 3.Immunization resulted in STn specific antibodies as seen in sera and toxicpayloadconjugation,allmAbsweretestedforinternaliza- purifiedhybridomasupernatants.Immuneresponseandantibodyevolutionfrom asingleanimaldemonstratedsignificantandspecificSTnbinding.Theantibody tion in STn-expressing human breast cancer cells. Eight anti- bindstoall4variantsofSTnincludedonthearray(Neu5Ac/Gcand9-Oacetylated STn mAbs and an isotype control were conjugated to a pH forms).Antibodygenerationwasmonitoredinserumafterimmunization(Day35, reactive dye per manufacturer’s recommendations (pHAb 49and63)usingtheglycanarray.STn-specificantibodieswereobservedstarting onDay63,nosignificantbindingwasobservedtonon-STnglycans.Thismouse Reactive Dye, Promega catalog number G9845). This dye wasusedtogeneratehybridomasandclone2G12–2B2wasselectedforSTnspeci- becomes fluorescent only upon internalization into lower pH ficity.Purifiedantibodiesfromthishybridomasupernatantdemonstratedsignifi- organelles such as lysosomes. Six of eight mAbs (S3F, 4G8– cantandspecificSTnbindingontheglycanarray. 1E3, 2G12–2B2 P<0.01; 8C2–2D6, 2C2–2C5, and 5E6–2E7 P<0.05)showedsignificantinternalizationintoSTn-expressing Optimal immunohistochemistry (IHC) staining conditions MDA-MB-231 cells as compared with non-expressing cells were determined and validated on appropriate STn-positive (Fig. 5A, Table 1). Poor 5G2–1B3 recovery after conjugation and STn-negative control cells and tissues before testing on didnotallowforcomparisontoothertestedmAbs.Theisotype TMAs (data not shown). The IHC-stained TMAs were evalu- control MOPC173 mAb did not internalize (p>0.05) into atedandscoredforcelltype,subcellularlocalization,andstain- eitherSTnCorSTn-cells. ing intensity and frequency by a board-certified pathologist Internalization also was examined using an Alexa 488- (JW)withextensiveexperienceinimmunohistochemicalanaly- labeled S3F antibody in STn-expressing and non-expressing sis. The specific reactivity of candidate anti-STn mAbs was MDA-MB-231 cells. The Alexa 488-labeled S3F antibody only evaluatedacross13differenttumortypesand30normaltissues stained STnC cells and optimal staining was achieved with (Table 2). For a given tissue, the staining patterns for all anti- 5 mg/mL (Fig. 5B). Internalization appeared as early as STnmAbstestedweresimilarintermsofcelltypeandsubcel- 15minutesandwasstronglyevidentat60minutes. lular location (e.g., cytoplasm versus membrane), and differed by intensity and frequency of staining. There was infrequent ADCconjugationandinvitroviabilityassays membrane staining of the normal, non-neoplastic tissue. Any staining observed in normal tissues was generally cytoplasmic, Effects of unconjugated and MMAE-conjugated mAbs on cell or involved staining of apical membranes. Neither of these viability were compared in both transfected STn-expressing locations are expected to be readily accessible to anti-STn (STnC)andparental(STn-)MDA-MB-231humanbreastcan- ADCs in the circulation. In comparison, there was positive cer cell lines. While the MMAE-conjugated isotype control membrane reactivity (not limited to apical membranes) across mAb had no effect on cell viability, MMAE-conjugated Table2.BindingspecificityofantibodypanelonhumanTMA. S3F 4G8–1E3 8C2–2D6 5G2–1E3 Ovarian: 3/9 Ovarian: 5/9 Ovarian: 4/9 Ovarian: 2/9 Urinarybladder: 5/9 Urinarybladder: 3/9 Urinarybladder: 3/9 Urinarybladder: 2/9 Colorectal: 7/9 Colorectal: 7/9 Colorectal: 6/9 Colorectal: 7/9 Pancreatic: 9/10 Pancreatic: 8/10 Pancreatic: 8/10 Pancreatic: 7/10 Lung: 2/2 Lung: 2/2 Lung: 2/2 Lung: 1/2 Stomach: 9/10 Stomach: 9/10 Stomach: 9/10 Stomach: 2/10 5E6–2E7 2G12–2B2 9F11–1F7 2C2–2C5 Ovarian: 1/9 Ovarian: 5/9 Ovarian: 1/9 Ovarian: 2/9 Urinarybladder: 2/9 Urinarybladder: 3/9 Urinarybladder: 1/9 Urinarybladder: 1/9 Colorectal: 5/9 Colorectal: 7/9 Colorectal: 4/9 Colorectal: 5/9 Pancreatic: 6/10 Pancreatic: 6/10 Pancreatic: 3/10 Pancreatic: 7/10 Lung: 1/2 Lung: 2/2 Lung: 0/2 Lung: 0/2 Stomach: 6/10 Stomach: 8/10 Stomach: 2/10 Stomach: 5/10 Antibodycandidates’stainingoftumorcellsispresentedasafractionofstainedTMAfromtotalTMAstested.Thirteencommontumortypesweretested,oftheseovarian, urinarybladder,colorectal,pancreatic,lungandstomacharedescribedinTable2.Neoplasticsubtypesasfollows:ovarianwasacombinationofserous(8)andmucinous (1)adenocarcinoma;urinarybladdertransitionalcellcarcinoma;colorectaladenocarcinomawell(2)andmoderately(7)differentiated;pancreasductaladenocarcinoma moderatelydifferentiated;lungadenocarcinomawelldifferentiated;stomachwasacombinationofadenocarcinomapoorly(5),moderatelydifferentiated(2),signetring cellcarcinoma(1),andmucinousadenocarcinoma(1). MABS 619 Figure4.Bindingspecificityof2G12–2B2onhumanTMAs.(A)Normal(non-neoplastic)lung:Therewaslumenmembranestainingofrarealveolarliningcells(arrow- heads).Imageisfromaregionwithmorefrequentstaining.BarD40mm.(B)Lungsquamouscellcarcinoma:Membranestainingofneoplasticepithelialcells(arrow- heads).Asterisksindicatesmononuclearinflammatorycellinfiltratearoundneoplasticcellinfiltrate.BarD100mm.(C)Normal(non-neoplastic)pancreas:Therewasno stainingofanytissueelements.ArrowsDisletofLangerhans.ArrowheadDPancreaticductule.BarD100mm.(D)Pancreaticductaladenocarcinoma:Moderateto intensestainingofneoplasticcellsinfiltratingintoadjacentstroma.BarD50mm.(E)Normal(non-neoplastic)colon:Cytoplasmicstainingofgobletcells(arrowheads). CytoplasmicC/¡membranestainingofscatteredendothelialcells.BarD100mm.(F)Ascendingcolonadenocarcinoma,moderatelydifferentiated:Frequentmembrane andstainingofneoplasticepithelialcells(arrowheads).Cytoplasmicstainingalsopresent.BarD40mm. anti-STnmAbsinducedcelldeathofSTnCMDA-MB-231cells as percent mean treated tumor volume/mean vehicle control (Fig.6).Fourof5MMAE-conjugatedanti-STn mAbshadsin- tumorvolume(%T/C)(errorbarsDSEM). gle digit nanomolar IC50 values. No cell death was observed OnDay22,thevehiclecontrolgroupwaskilledafteritmet when parental STn- MDA-MB-231 cells were treated with the group mean tumor volume end point of 1000 mm3, at MMAE-conjugated, nor when STnC MDA-MB-231 cells were which time the unconjugated mAb treatment produced a treatedwithunconjugatedanti-STnmAbs(Fig.S1). 60.0% T/C (p D 0.1). At the same time point, isotype control ADC MOPC173-CL–MMAE showed 16.0% T/C (p D 0.001), indicatingthatthepayloaditselfhadsomeanti-tumor activity. Thismaybeduetobindingoftheisotypecontroltounknown ADCefficacyandsafetyinaninvivohumanbreastcancer target(s) in vivo, or could indicate an effect of some toxin is model being shed in the system. The anti-STn ADCs 4G8–1E3- and Three anti-STn ADCs (S3F-, 2G12–2B2- and 4G8–1E3- 2G12–2B2-CL–MMAE were the most robust treatments, with CL–MMAE)wereevaluatedassingleagentsinICRSCIDmice 3.6% and 3.0% T/C, respectively (both p < 0.001). Significant implanted subcutaneously with STnC MDA-MB-231. differences between isotype control MOPC173-CL–MMAE MOPC173-CL–MMAE was used as an ADC isotype control. and 2G12–2B2- (p D 0.003) and 4G8–1E3-CL–MMAE (p D Unconjugated antibody was an equal mixture of 2G12–2B2 0.004) were alsoobserved on Day 22. Nosignificant difference and4G8–1B3.Allantibodiesweretestedat2.5mg/kgfinalcon- was observed between S3F-CL–MMAE and MOPC173-CL– centration.InadditiontoevaluatingtheefficacyoftheseADCs, MMAE isotype control on Day 22. S3F-CL–MMAE anti-STn body weight was monitored as an indicator of toxicity, with a ADC demonstrated modest inhibition (11.0% T/C (p < decrease of > 5% considered significant. Tumor volumes are 0.001)).Onday43,4weeksafterthelastADCdosewasadmin- plottedinFig.7,andinhibitionoftumorgrowthwasexpressed istered, mean tumor volumes in the MOPC173- and S3F-CL– 620 J.M.PRENDERGASTETAL. Figure5. InternalizationofSTnantibodiesinSTn§MDA-MB-231cells.(A)Internalizationoflabeledanti-STnmAbsweretestedusingSTn-expressing(filledbars)and non-expressing(emptybars)humanbreastcancercells.Eightanti-STnmAbsandanisotypecontrolwereconjugatedtoapHreactivedyethatbecomesfluorescentupon internalizationintolowerpHorganelleslikelysosomes.SixofeightmAbsshowedsignificantinternalizationintoSTn-expressingcellsascomparedwithnon-expressing cells((cid:1)P<0.05,(cid:1)(cid:1)P<0.01,ND6).5G2–1B3wasalsoconjugated,butpoorrecoveryafterconjugationdidnotallowforcomparisontoothertestedantibodies.Theiso- typecontrolMOPC173antibodydidnotsignificantlyinternalizeintoeitherexpressingornon-expressingcells.Errorbarsdenotestandarderror.P-valuesweredetermined byone-sidedstudent-ttestwithunequalvariance.(B)RepresentativeimagesforantibodyAlexa488-labeledS3Finternalization.Cellswereincubatedwith5mg/mLS3F- Alexa488for1hourat4(cid:3)C,thenincubatedatvarioustimesat37(cid:3)C(0,15,30,60minutes).Cellsweretreatedwith5-minuteacidwash(150mMNaCl/HClpH2.5)to removesurfaceboundantibodies.NosurfacestainingnorinternalizationwereseeninMDA-MB-231STn-cells.InternalizationofS3FwasseeninSTnCcellsasearlyas 15minutesandwasstronglyevidentat60minutes. MMAE-treated groups increased to »850 mm3, while the expression levels of these cell lines compared with transfected groups treated with the 4G8–1E3- and 2G12–2B2-CL–MMAE lines is detailed in Table 3. Approximately 60% of cultured exhibitedsuppressedmeantumorvolumesof97and146mm3, COLO205 cells express STn on the cell surface in in vitro respectively. Effect of treatment on average body weight for monolayer culture (EC50 D 10 nM). A preliminary xenograft eachofthetreatmentgroups(Fig.S2)showednoovertsignsof study using the COLO205 cell line and the anti-STn ADC is toxicityinanyofthecontrolortreatedgroups.Whilethemean shown in Fig. 8. The anti-STn ADC S3F-CL–MMAE demon- bodyweightlossobservedtemporarilyspikedtoamaximumof strated significant tumor growth inhibition (%T/C 44.5%, p D ¡1.8to ¡2.5%for theADCandunconjugatedmAbs after the 0.008)invivocomparedwiththeother3treatmentgroups. firstdose,thesemicerecoveredbytheseconddose. Discussion Anti-STnADCefficacyinanon-transfectedhuman STnisknowntobeexpressedbymorethan80%ofhumancar- colorectalcancermodel cinomas,includingpancreatic,ovarian,andcolorectalcancers.3 Wehaveidentifiedseveralcelllinesbyflowcytometrythatnat- urally express STn without requiring transfection. STn Figure7.Effectofanti-STnADCsontumorgrowthinsubcutaneoushumanbreast cancerxenograftmodel.AnICRSCIDsubcutaneousxenograftmousemodelwas usedwithMDA-MB-231STnCtransfectedhumanbreastcancercells.Thedosing schedulewasQ7Dx3(one2.5mg/kgdoseaweekfor3weeks,bluearrows).When Figure6.Cellviabilityassaywithmouseanti-STnADCs.Anti-STnADCantibodies tumorsreachedendpointvolume((cid:2)1000mm3)thegroupwasterminated.ND killSTnCMDA-MB-231cells(singledigitnanomolarIC50s),whilenakedanti-STn 10miceforallgroups.Unconjugatedantibodycontrolwasanequalmixtureof antibodiesdonot(Fig.S1). 2.5mg/kgunconjugated2G12–2B2and4G8–1E3. MABS 621 Table3.STnexpressioninvariouscancercelllines. immuneresponseandgeneratedglycantarget-specificantibod- ies. The combination of these immunogens and adjuvants NaturallySTn-linesstablytransfectedwithST6GalNAc-IcDNAtoexpressSTn resulted in a more robust immune response and the discovery %STnExpression CellLine TumorType ofglycantarget-specificantibodies. Attempts to target the STn antigen have included both vac- 98.7 MDA-MB-231 HumanBreast STnC Adenocarcinoma cine-andantibody-basedapproaches.Themostadvancedagent 90.0 SKOV3-H HumanOvarianCarcinoma targetingSTnwasavaccine(Theratope),whichwasevaluatedin HighExpressingLine breast cancer patients in a Phase 3 clinical trial that concluded 50.0 SKOV3-M HumanOvarianCarcinoma MediumExpressingLine in2003.34Theanti-STnmAbsB72.3andCC49alsoweretested 20.0 SKOV3-L HumanOvarianCarcinoma in the clinic; while these mAbs are described as specific to the LowExpressingLine STn-glycoprotein TAG-72, they also cross react with the non- NaturallySTn+lines:ExpressionNaturallyVariesfromHightoLow sialylatedglycan,Tn.3,35Oncoscint(cid:1) (B72.3antibodyconjugated to indium-111)wasapprovedbyFDAasadiagnosticin199236 %STnExpression CellLine TumorType forwholebodyimagingforrecurrencesofovarianandcolorectal (cid:1) 99.5 OV-90 HumanOvarianCarcinoma cancers.WhileOncoscint wasfoundtobesafeandeffectivein 79.4 SNU-16 HumanGastricCarcinoma detecting tumors, this product was eventually discontinued due 75.0 OVCAR8 HumanOvarianCarcinoma to PET (positron emission tomography) technology advance- 69.9 LS174T HumanColonCarcinoma 67.7 COLO-205 HumanColonCarcinoma mentsindetectingmetastaticlesions.37Theregulatoryapproval 35.0 OVCAR3 HumanOvarianCarcinoma andstrongsafetyprofileofOncoscint(cid:1)38ledtothedevelopment 28.9 Jurkat HumanTCellLeukemia ofthesecondgenerationTAG-72murineantibodyCC49,which 26.4 OVCAR4 HumanOvarianCarcinoma 20.0 OVCAR5 HumanOvarianCarcinoma wasevaluatedforefficacyinPhase2clinicaltrials.39Thesetrials evaluated an interferon adjuvant to enhance tumor antigen %STnexpressionwasdeterminedusingS3Fantibodyandflowcytometryofcul- turedcells,STnCcellswereindicatedasa%oftotalcellsinthetableabove. expression and 131I-labeled CC49 to target both soft tissue and bonemetastasesinhormone-resistantmetastaticprostatecancer DenovoexpressionofSTnviaSTnsynthase(a2,6-sialyl-trans- patients. The addition of the adjuvant therapy enhanced tumor ferase) transfection has been reported to lead to more malig- uptake and anti-tumor effects of 131I-labeled CC49 alone based nant phenotypes.6-9 Normal adult tissue expression of STn is onapreviousPhase2clinicaltrialof131I-labeledCC49inmeta- rare and largely restricted to cell types specialized in secretion, static prostate cancer patients where pain relief was reported, generally on the apical surface, which would likely restrict its but no objective antitumor response was observed.40 While the accessibilitytoanti-STnADCsadministeredintheblood.3 experimental therapy was generally well tolerated, the results Historically, glycans have been difficult targets to raise a weremodest,anddiseaseprogressionwasnotdelayedformore robustimmuneresponseagainst.14,33Wehavecompletedmul- than 6 months.Moreover,human anti-mouse antibodies devel- tiple rounds of mouse STn immunization to optimize the opedinallpatients,whichprecludedrepeattherapyby8weeks. immunogen and adjuvant selected. In previous immunization ItispossiblethatahumanizedversionofthemurineCC49may attempts, we used various mouse strains, synthetic glycan and have improved efficacy. Regardless, therapeutic modalities have mucin-based immunogens, and traditional adjuvants (CFA/ since shifted away from antibody-radionuclide conjugates IFA),whichresultedinfewglycan-specificantibodycandidates. toward ADCs.41 Advances in ADC formats are hypothesized to In our most successful immunizations, we immunized using allowformorerobustanddurableresultsthanpreviousmurine various intact and digested mucins with newer adjuvants radiotherapies because they utilize potent cytotoxic payloads (ODN and AbISCO). Intact mucins produced a more robust insteadofradionuclides.42 WithrecentadvancesinADClinkertechnologypairedwith various options in cytotoxic payloads, many new potential methods to target glycans are available. Variable immune responsesexhibitedinvaccinetherapycanbecircumventedby usingADCswithproperlinkerandpayloadstoachieverobust bystander killing in heterogeneous tumors. The payload used inouranti-STnADCisMMAE,whichisalsothesamepayload (cid:1) incorporated in Adcetris , an FDA-approved drug for the treatmentofHodgkinlymphomaandsystemicanaplasticlarge cell lymphoma.29,30 ADCs using the same payload format are currently in ongoing Phase 1/2 trials targeting solid tumors such as prostate, breast, lung, pancreatic, ovarian, and blad- der.42,43 This toxin is shed at very low levels and is acceptable in safety assessments, with multiple MMAE ADC molecules Figure 8. Proof-of-concept human colorectal cancer naturally expressing STn havingbeenevaluatedforsafetyandtoxicityinvariousclinical modelusinganti-STnS3Fand2differentADCformats.Anathymicnudemouse subcutaneousxenograftmousemodelwasusedwithCOLO205humancolorectal trials.41-45 The ADC-linker technology used was the MC-vc- cancercells.AnimalsweredosedQ7Dx3at5mg/kg(one5mg/kgdoseaweekfor PAB-MMAE, a cleavable linker (CL) that allows for release of 3weeks,bluearrows).Antibodyalonewithnotoxin(red),S3F-CL–MMAE(MC-vc- MMAEuponinternalizationintocells.MMAEisamembrane- PAB-MMAE, green) and S3F-NC-MMAF (NC-MMAF, purple), all were compared withvehiclealone(blue). permeabletoxinthatcanbereleasedfromdyingcells,resulting 622 J.M.PRENDERGASTETAL. in a bystander killing effect that produces greater efficacy in observedSTn-specificreactivityacrossawidearrayofsolidepi- tumorswithheterogeneoustargetexpression.28STnexpression thelialtumortypes.Ourpreliminarydatashowsstrikingreduc- is reported to be heterogeneous in stomach, colon, ovary, cer- tion in tumor volumes in multiple in vivo models. Further vix,breast,andothercarcinomas,withSTnexpressionranging development and humanization of our anti-STn ADC offers from 5% to 100%.3 Another ADC-linker technology used was promise of effectively targeting this O-glycan modification in MMAF with a maleimidocaproyl (MC) linker. MMAF is a multiplecancers. non-cell membrane permeable toxin and must be internalized tokilleachtumorcell,thusitisineffectiveinbystanderkilling. Materialsandmethods BasedontheresultsoftheCOLO205xenograftstudies(Fig.8), whereinS3FwascomparedwithvariationsinADC-linkertech- GenerationofSTnspecificantibodies nologies, MMAF resulted in no effects on tumor growth com- Mouseimmunizationswereusedtogenerateapanelofanti-STn pared with controls. This may suggest bystander killing or the antibodies.Fourmousegroups(ND 10per group)wereestab- toxin/linkercombinationitselfcouldbeimportantforeffective lished using 6- to 8-week-old female BALB/c mice immunized STn tumor targeting. Previously published studies with other withdifferentantigens,but sharingthesameadjuvant/immuni- targets using the MC-vc-PAB-MMAE system also demon- strated that bystander killing results in additional efficacy in zationscheduletocompareeffectivenessofSTnpresentinganti- heterogeneous tumors.28 Understanding bystander killing and gens.All groups usedAbISCOincombinationwith ODN-2395 effectsofthelinker/toxinofourantibodieswouldbebeneficial as adjuvants to promote humoral as well as cellular immune responses. The first dose on Day 0 for all groups used 12 mg totheirfurthercharacterization. AbISCO and 50 mg ODN-2395. Unacceptable toxicity was evi- ADC binding to shed antigens can be a concern because dentwiththisstrategyandtheadjuvantdosesforallsubsequent theseantigensactasadrugsink,effectivelydepletingtherapeu- boost regimes were reduced by half. Group 1 was immunized tic away from the intended tumor target. While shed STn has with 10 mg porcine submaxillary mucin (PSM) on Days 0, 14, been reported to be present in the circulation, it has not been 28, and 42. Group 2 was immunized with alternating mucins: viewed as a limiting drug sink in related ADC clinical studies. STn in the serum and its effect as a possible drug sink have 10mgPSMonDay0andDay28and10mgovinesubmaxillary been described in the clinical study of an anti-MUC16 ADC mucin (OSM) on Days 14 and 42. Group 3 was immunized (Genentech; Clinical Trials ID: NCT01335958).46 MUC16 with 10 mg digested PSM on Days 0, 14, 28, and 42. Group 4 (CA125) is a known carrier of STn on cancer cells.47 In this was immunized with OSM on Days 0, 14, 28, and 42. Each mouse was immunized with mucin/adjuvant subcutaneously study,thecirculatinglevelsofCA125hadnoeffectonthephar- (SC)aroundthearmpitsandinguinalregions(50mLpersite,4 macokineticsoftheanti-MUC16ADC,eveninpatientswitha sites, 200 mL/mouse) on Days 0, 14, 28, and 42 as described high level of circulating CA125. This suggests that the soluble formofthedrugtargetinbloodmaynotresultinasignificant above.Approximately0.2mLofwholebloodwascollectedfrom drug-sinkeffect. mice on Days 0, 14, 28, 42, and 51 and processed for serum. A number of related TACAs have been preclinically vali- Serum was screened for STn binding specificity using ELISAs dated. For example, an anti-Tn ADC48 and MUC1-Tn CAR- and glycan arrays. Mice displaying desirable binding properties T49haverecentlybeenevaluated. Tn,alsoknown asCD175,is were immunized again with 10 mg mucin (without adjuvants), 3 d later their immune response was probed by screening their thenon-sialylatedformofSTn.Tnisnormallyabuildingblock sera. If the serum showed the desired robust and specific forothercomplexsugars,anditsexpressionisgenerallyabsent immuneresponse,thecorrespondingmicewerekilledandtheir innormaladulttissues.Tnisexpressedoncancercell surfaces spleenswereharvestedandusedforfusiontoestablishhybrido- in a similar heterogeneous manner to STn when glycosylation is altered, particularly in metastatic lesions.48 The anti-Tn- masandtheanti-STnmouseantibodypanel. ADC,calledChi-Tn,isachimericantibodygeneratedfroman We used the HB-STn clone 3F121,51 as a proof-of-concept original murine IgM (83D450) that uses the MMAF payload, for some studies. We class switched from a mouse IgG1 and relyingoncancercellinternalizationforefficacy.WhileChi-Tn recombinantly expressed this antibody as a mouse IgG2a; this demonstrated efficacy in vitro cytotoxic and in vivo xenograft engineered antibody is referred to as “S3F” in the text. B72.3 models, its efficacy was only observed in high Tn-expressing (ThermoFisher Scientific,catalognumberMS138P),CC49and models.48Chi-Tndidnotdemonstrateefficacyinthesemodels 3H1951 (Santa Cruz Biotechnology, catalog numbers sc-20043 and sc-70558, respectively), STn219 (Abcam, catalog number when using cells with lower, more heterogeneous Tn expres- sion, perhaps due to the absence of bystander killing with ab115957) and MOPC173 (BioLegend, catalog number MMAF. In addition to ADC therapies, genetically modified T 400264)wereusedasassaycontrols. cells expressing chimeric antigen receptors (CARs) targeting Tnalsohavebeendescribed.ACAR-Ttargetingtheglycopro- QuantificationofSTnbindingspecificityELISA tein MUC1 with the Tn modification was based upon the 5E5 MUC-Tn specific antibody. This therapy was described as The antigens bovine (BSM), porcine (PSM) or ovine (OSM) effective in targeting T-cell lymphomas and pancreatic cancer submaxillarymucinwerecoatedonCorningCostarhigh-bind- inpreclinicalinvitroandinvivomodels.49 ing plates (Corning, catalog number 9018) by overnight incu- Our anti-STn antibodies target the glycan itself, not a spe- bation of antigen solution in coating buffer (50 mM sodium cific glycopeptide, offering broad potential to bind multiple carbonate/bicarbonate pH 9.5) at 48C. When the sialic acid STn-glycosylated proteins on the surface of cancer cells. We composition of these mucins is examined by HPLC, BSM MABS 623 contains a mixture of Neu5Ac and Neu5Gc, while PSM con- acetylated STn (Neu5,9Ac2a6GalNAca and Neu5- tainsmostlyNeu5Gc,andOSMcontainsmainlyNeu5Acsialic Gc9Aca6GalNAca) and Tn (GalNAca) were compared along acids (data not shown).52 After washing with phosphate-buff- with theremaining 66glycans onthearray.Bindingwas com- ered saline (PBS), a subset of wells had their sialic acids oxi- pared with mouse monoclonal anti-STn antibody 3F1, B72.3 dizedbytreatment with2mMperiodate,wellswereincubated andCC49. for 20 minutes at 48C. Plates were washed with 1x PBS and additional binding sites were blocked with 1% ovalbumin QuantificationofSTnatthecellsurfacebyflowcytometry (OVA)inPBSfor1hour.AfteraPBSwash,theanti-STnanti- bodies were added to wells in a serial dilution (0–100 nM), Thebindingaffinitiesofanti-STnantibodiestoSTnonthesur- using1%OVAasthediluentandwereincubatedfor2hoursat faceofcellswasdeterminedbyflowcytometry.Anti-STnanti- room temperature. Plates were washed 3 times with 0.05% bodies were screened for binding to MDA-MB-231 cells stably Tween-20 –PBS followed by incubation with 0.08 mg/mL per- transfected to express STn9 and absence of binding on non- oxidase-conjugated goat anti-mouse antibody (Jackson Immu- STnexpressingparentalcells.CellswereharvestedusingStem- noResearch, catalog number 115–035–071) for 1 hour. Next, ProAccutase buffer, cells were resuspended to a concentration wells were washed 3 times with 0.05% Tween-20 –PBS and of 5£106 cells/mL in staining buffer (5% heat-inactivated fetal then wells were incubated with 100 mL of enzyme substrate bovine serum in PBS). 50 mL of cells and 50 mL of staining (0.5 mg/mL o-phenylenediamine; 0.03% H O in citric/phos- buffer with anti-STn antibodies were combined. Antibodies 2 2 phate buffer pH 5.5). The enzyme reaction was terminated by werescreenedusingaserialdilutionoveraconcentrationrange addition of an equal volume of 1.6 M sulfuric acid. Optical of0–300nM.Antibodiesandcellswereincubatedfor1hourat Density (OD) readings of periodate and non-periodate treated 48C.Cellswerewashed3timeswithstainingbuffer.Bindingof wells were determined at 490nm, log transformed and then fit antibodieswasdeterminedusingananti-mouseIgGallophyco- to a nonlinear regression model (4-parameter logistic regres- cyanin(APC)-conjugatedsecondaryantibodyat1:1500(South- sion) to obtain a dose response curve. Data from periodate ern Biotech 1031–11L) diluted in staining buffer. A total of treated wells were subtracted from non-periodate treated wells 5,000 events were acquired per sample using BD FACSverse toobtaintheperiodate-sensitive,STnbindingcurveandcorre- and data was analyzed using FlowJo software. Mean of APC sponding EC50 values. Binding affinities of anti-STn mouse fluorescence and % APC positive cells were calculated. These mAbs were compared with the well-characterized mouse data were log transformed then fit to a nonlinear regression monoclonalanti-STnantibodies3F1,B72.3andCC49. modeltoobtainadoseresponsecurveandEC50bindingcalcu- lations using Prism software. Mouse isotype MOPC173 anti- body was used as an isotype control. The anti-epidermal QualificationofSTnspecificityusingglycanarray growthfactorreceptor(EGFR)antibodyLA22(EMDMillipore The glycan array was used to determine the glycan binding catalognumber05–104)wasusedasapositivecontrol. specificity of anti-STn antibodies. This array was developed in collaboration with Dr. Ajit Varki.31 STn and related glycans Tumormicroarray(TMA)–Immunohistochemistryanalysis were synthesized and printed as described in the literature.31 ofSTnexpression Briefly, 71 glycans were synthesized using one-pot 3-enzyme chemoenzymatic approach;53 structures were confirmed by Commercially available FFPE TMAs containing a broad range DMB-HPLC,NMRormassspectrometry.Glycansincluded25 of common human cancer specimens were scored microscopi- matched Neu5Ac/Gc pairs (including 9-O acetylated versions) cally by a qualified pathologist for antibody staining intensity, along with several un-sialylated versions (Table S1). Glycans frequency and localization. Normal TMAs containing 60 sam- weredilutedtoafinalconcentrationof100mM(300mMphos- ples (2 human donors each for 30 organs or subregions of phatebuffer,pH8.4)andprintedin4replicates.Mousewhole organs,SuperBioChips,Seoul,Korea,ProductAC1),aswellas IgGwasprintedat0.05mg/mLfinalconcentrationandprinted commonhumancancerTMAscontainingatotalof118donor in 4 replicates across the array matrix as a control. STn-speci- tumorsamples(SuperBioChips,Seoul,Korea,Products:MA2 ficitywasdeterminedcomparingSTnvs.non-STnglycanbind- and MA4), were immunohistochemically stained using 10 mg/ ing. Epoxy slides were blocked (0.1 M Tris, 0.05 M ethanol mLofeachcandidatemAbusingastandardABCstainingpro- amine,pH9.0)for1hourat508C.Slideswerewashedwithdis- cedure following antigen retrieval. Cells and tissues known to tilled water, and blocked (PBS with 1% OVA) for 1 hour. either express, or not express STn were used as positive and Blockingbufferwasaspiratedandanti-STnantibodywasadded negative control tissues, respectively. A total of 13 different at1mg/mLconcentrationdilutedinblockingbufferfor1hour. common tumor types were tested overall, with numerous sub- SlideswerewashedtwicewithPBSwith0.1%Tween,thenonce classification annotations captured for each tumor type. All with PBS alone. Next, secondary antibody (Cy3 goat anti- commercially available human normal and cancer TMAs used mouse, Jackson ImmunoResearch catalog number 115–165– in this study had been declassified by the manufacturer, and 071) was added at a final concentration 1.5 mg/mL in PBS for patientdonorswerenotidentifiable. 1 hour. Slides were washed with PBS then distilled water and air-dried before reading on the GenePix 4000B (Molecular Invitrointernalizationassay Devices). Fluorescence intensities were measured and back- ground was subtracted using GenePix Pro software. Intensity The pHAb amine reactive dye (Promega catalog number of STn (Neu5Aca6GalNAca and Neu5Gca6GalNAca), 9-O G9845) was conjugated to a subset of antibodies to determine

Description:
conjugates demonstrate tumor specificity and anti-tumor activity . demonstrated STn specific binding for most mAbs tested. Generation and
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