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DTIC ADA583916: Persistent and High-Level Expression of Human Liver Prolidase in Vivo in Mice Using Adenovirus PDF

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Form Approved REPORT DOCUMENTATION PAGE OMB No. 0704-0188 Public reporting burden for this collection of information is estimated to average 1 hour per response, including the time for reviewing instructions, searching existing data sources, gathering and maintaining the data needed, and completing and reviewing this collection of information. Send comments regarding this burden estimate or any other aspect of this collection of information, including suggestions for reducing this burden to Department of Defense, Washington Headquarters Services, Directorate for Information Operations and Reports (0704-0188), 1215 Jefferson Davis Highway, Suite 1204, Arlington, VA 22202- 4302. Respondents should be aware that notwithstanding any other provision of law, no person shall be subject to any penalty for failing to comply with a collection of information if it does not display a currently valid OMB control number. PLEASE DO NOT RETURN YOUR FORM TO THE ABOVE ADDRESS. 1. REPORT DATE (DD-MM-YYYY) 2. REPORT TYPE 3. DATES COVERED (From - To) 2013 Open Literature 4. TITLE AND SUBTITLE 5a. CONTRACT NUMBER Persistent and high-level expression of human liver prolidase in vivo in mice using adenovirus 5b. GRANT NUMBER D0003_09_RC_C 5c. PROGRAM ELEMENT NUMBER 6. AUTHOR(S) 5d. PROJECT NUMBER Aleti, V, Reddy, GB, Parikh, K, Arun, P, Chilukuri, N 5e. TASK NUMBER 5f. WORK UNIT NUMBER 7. PERFORMING ORGANIZATION NAME(S) AND ADDRESS(ES) 8. PERFORMING ORGANIZATION REPORT NUMBER US Army Medical Research Institute of Aberdeen Proving Ground, MD Chemical Defense 21010-5400 USAMRICD-P12-016 ATTN: MCMR-CDR-I 3100 Ricketts Point Road 9. SPONSORING / MONITORING AGENCY NAME(S) AND ADDRESS(ES) 10. SPONSOR/MONITOR’S ACRONYM(S) Defense Threat Reduction Agency 8725 John J. Kingman Road STOP 6201 Fort Belvoir, VA 22060(cid:486)6201 11. SPONSOR/MONITOR’S REPORT NUMBER(S) 12. DISTRIBUTION / AVAILABILITY STATEMENT Approved for public release; distribution unlimited 13. SUPPLEMENTARY NOTES Published in Chemico-Biological Interactions 203 (2013) 191–195. This research was supported by the Defense Threat Reduction Agency – Joint Science and Technology Office, Medical S&T Division (Project # 1. D0003_09_RC_C). 14. ABSTRACT See reprint. 15. SUBJECT TERMS Human liver prolidase, Adenovirus, Gene delivery, Chemical warfare nerve agents, Catalytic bioscavenger 16. SECURITY CLASSIFICATION OF: 17. LIMITATION 18. NUMBER 19a. NAME OF RESPONSIBLE PERSON OF ABSTRACT OF PAGES Nageswararao Chilukuri a. REPORT b. ABSTRACT c. THIS PAGE UNLIMITED 5 19b. TELEPHONE NUMBER (include area UNCLASSIFIED UNCLASSIFIED UNCLASSIFIED code) 410-436-5106 Standard Form 298 (Rev. 8-98) Prescribed by ANSI Std. Z39.18 Chemico-BiologicalInteractions203(2013)191–195 ContentslistsavailableatSciVerseScienceDirect Chemico-Biological Interactions journal homepage: www.elsevier.com/locate/chembioint Persistent and high-level expression of human liver prolidase in vivo in mice using adenovirus ⇑ Vineela Aleti, Gireesh B. Reddy, Kalpana Parikh, Peethambaran Arun, Nageswararao Chilukuri DivisionofBiochemistry,WalterReedArmyInstituteofResearch,SilverSpring,MD20910,USA a r t i c l e i n f o a b s t r a c t Articlehistory: Humanliverprolidase,ametal-dependentdipeptidase,isbeingtestedasapotentialcatalyticbioscaveng- Availableonline12September2012 er against organophosphorus (OP) chemical warfare nerve agents. The purpose of this study was to determine whether persistent and high-levels of biologically active and intact recombinant human Keywords: (rHu)prolidasecouldbeintroducedinvivoinmiceusingadenovirus(Ad).Here,wereportthatasingle Humanliverprolidase intravenousinjectionofAdcontainingtheprolidasegenewitha6(cid:2)histidine-tag(Ad-prolidase)intro- Adenovirus ducedhigh-levelsofrHuprolidaseinthecirculationofmicewhichpeakedondays5–7at159±129U/ Genedelivery mL.Thislevelofprolidaseis(cid:3)120timesgreaterthanthatoftheenzymelevelinmiceinjectedwith Chemicalwarfarenerveagents Ad-null virus. To determine if all of Ad-prolidase-produced rHu prolidase was exported into the Catalyticbioscavenger circulation,enzymeactivitywasmeasuredinavarietyoftissues.Livercontainedthehighestlevelsof rHuprolidaseonday7(5647±454U/g)comparedtobloodoranyothertissue.RecombinantHuprolidase hydrolyzedDFP,asimulantofOPnerveagents,invitro.Invivo,prolidaseoverexpressionextendedthesur- vivalof4outof6miceby4–8hagainstexposuretotwo1(cid:2)LD dosesofDFP.Incontrast,overexpression 50 ofmousebutyrylcholinesterase(BChE),aprovenstoichiometricbioscavengerofOPcompounds,protected 5outof6micefromDFPlethalityandsurvivingmiceshowednosymptomsofDFPtoxicity.Inconclusion, theresultssuggestthatgenedeliveryusingAdiscapableofintroducingpersistentandhighlevelsof humanliverprolidaseinvivo.Thegene-deliveredprolidasehydrolyzedDFPinvitrobutprovidedonly modestprotectioninvivoinmice,delayingthedeathoftheanimalsbyonly4–8h. PublishedbyElsevierIrelandLtd. 1.Introduction evaluating the efficacy of Hu prolidase to protect animals from OPnerveagenttoxicityarelacking.Here,wereportthatanadeno- Apromisingapproachtomitigatingthetoxicityoforganophos- virus (Ad) containing the gene for Hu prolidase with a 6(cid:2) histi- phorus(OP)nerveagentsistheuseofenzymesthatcanbindand dine-tag at its carboxyl terminus (Ad-prolidase) is capable of hydrolyzehundredsandthousandsofmoleculesofnerveagentper producingpersistentandhighlevelsoftheenzymeinvivoinmice. eachmoleculeoftheenzyme[1,2].Human(Hu)liverprolidaseis Thevirus-inducedenzymewasstructurallyintactinmouseblood. onesuchenzymethatcanpotentiallyhydrolyzeOP nerveagents Even though, Ad-prolidase-produced rHu prolidase hydrolyzed invivo.Invitrostudies,usingtheenzymefromAlteromonasundina DFPinvitro,overexpressionoftheenzymeofferedmeager/modest andAlteromonoshaloplanktishaveshownthattheenzymehydro- protection in vivo by delaying the time to death of animals by lyzes soman, sarin, and diisopropyl fluorophosphate (DFP) [3–5]. about4–8h. Hu prolidase expressed in Saccharomyces cerevisiae has also been shown to hydrolyze soman [6,7]. More recently, recombinant (r) HuprolidaseexpressedinEscherichiacoliwasfoundtohydrolyze 2.Materialsandmethods allfourG-typenerveagentsinvitro[8].Incontrast,rHuskinand kidney prolidases expressed in Tirchoplusia ni larva only hydro- 2.1.Recombinantadenoviruses lyzedDFPandsarininvitro[9].However,detailedinvivostudies Ads containing the genes that encode for Hu prolidase and mousebutyrylcholinesterase(BChE)asfusionproteinswitha6(cid:2) ⇑ Correspondingauthor.Presentaddress:USArmyMedicalResearchInstituteof histidine-tagwereproducedasdescribedbefore[10,11].Ad-MoB- Chemical Defense, 3100 Rickets Point Road, Research Division, Physiology & ChE was used as a positive control in the challenge experiments Immunology Branch, USAMRICD, Aberdeen Proving Ground, Edgewood, MD 21010,USA. using DFP. Ad-null (control) virus was purchased from Welgen E-mailaddress:[email protected](N.Chilukuri). Inc.,Worcester,MA. 0009-2797/$-seefrontmatterPublishedbyElsevierIrelandLtd. http://dx.doi.org/10.1016/j.cbi.2012.08.021 192 V.Aletietal./Chemico-BiologicalInteractions203(2013)191–195 2.2.Prolidaseactivityassay 2.7.ChallengewithDFP Mouseplasmaortissuesamplesweretestedforprolidaseactiv- Ad-prolidase (n=6, dose of virus=2(cid:2)1011vp/animal), Ad- ity by the method of Isaac et al. [12]. Samples were diluted to MoBChE (n=6, dose of virus=2.5(cid:2)1011vp/animal) and Ad-con- 100ll of 50mM Tris/HCl, pH 7.4, containing 1mM MnCl and trol (n=6, dose of virus=2(cid:2)1011vp/animal) were injected into 2 were preincubated for 24h at 37(cid:2)C. Samples were then mixed the tail vein of mice and plasma was collected daily for 5days. with 100ll of 94mM glycyl-proline (Sigma–Aldrich, St. Louis, On day 5, mice were challenged intraperitoneally with 1(cid:2) LD 50 MO) in 50mM Tris/HCl, pH 7.4, containing 2mM MnCl . After of DFP (6mg/kg body weight). Mice were observed continuously 2 30min of incubation,the enzyme reactionwas stopped with the through3hafterchallengeforsignsofcholinergictoxicity.Mori- additionof1mlof0.45Mtrichloroaceticacid,andthesupernatant bund mice were euthanized immediately. Animals that survived was used for proline determination as described previously [12]. thefirst1(cid:2)LD DFPwerechallengedwithasecondLD ofDFP 50 50 One unit of prolidase activity represents the amount of enzyme 3hlaterandobservedfortoxicsymptoms. that catalyzes the hydrolysis of one micromole of substrate, per minuteat37(cid:2)C. 3.Resultsanddiscussion 2.3.DFPhydrolysisassay 3.1.Timecourseexpressionofprolidaseinvivoinmice l l Mouse plasma (5 l) or 10% liver homogenates (5 l) were The ability of Ad-prolidase to induce the expression of full- addedto3mlof50mMTris–HCl(pH7.4)containing2mMMnCl2 lengthrHuprolidasewasfirstconfirmedinvitroin293Acells(data and 5.74mM DFP, and the increase in fluoride ion release was notshown).TotestwhetherAd-prolidasealsoinducestheenzyme monitoredfor10minusinganOrionmeterconnectedtoafluoride expressioninvivo,SwissWebsterfemalemicewereinjectedwith ionselectiveelectrode.Fivemicrolitersofthesamebufferinstead Ad-prolidase(2(cid:2)1011viralparticlespermouse)viathetailvein. ofplasmawasusedasablank.ActivityisreportedasU/ml,where The expression of rHu prolidase was determined in plasma over l 1Urepresents1 moleoffluorideionliberated/min/ml. a 15day period using glycine-proline (Gly-Pro) as the substrate (Fig. 1). Each time point represents mean±SD of 6–8 mice. Two 2.4.SDS–polyacrylamidegelelectrophoresis(SDS–PAGE)andWestern peaks were observed following plotting of the prolidase activity blotting (U/ml)againstthedayaftervirusinjection:aminorpeakondays 2and3andamajorpeakondays5,6,and7.Overall,prolidaselev- SDS–PAGEwascarriedoutwithprecast10%gels.Afterelectro- elswere100-to150-foldhigher(159±129U/ml)inmiceinjected phoresis, the proteins were transferred to PVDF membrane. The withAd-prolidasethaninmiceinjectedwithAd-nullvirus(1–2U/ membranewasblockedin4%powderedmilkfor1h,washedonce ml)ondays5–7.Theseresultsdemonstratethatasingleinjection withTrisbufferedsalinecontainingTritonX-100(TTBS)andincu- ofAd-prolidasewascapableofintroducingpersistent,high-levels bated overnight in primary antibody (monoclonal anti-6(cid:2) histi- of biologically active rHu prolidase into the systemic circulation dineantibody,1:1000dilution,Cat#15149,AbCam,Cambridge, ofmice. MA) in 0.5% milk powder containing 0.01% sodium azide. The To determine if Ad-prolidase-produced enzyme was of full- membrane was washed with TTBS five times with intermittent length, plasma from the mouse expressing rHu prolidase at shaking for 8min and was incubated with a secondary antibody 256U/ml on day 6 was analyzed by Western blotting with anti- conjugatedwithhorseradishperoxidase(Cat#Ab6721,AbCam, Hisantibody.Theantibodyrecognizedasingle54kDabandinall Cambridge,MA;100ng/ml)in0.5%milkpowderfor1h.Themem- branewaswashedagainasdescribedaboveandtheproteinbands were detected using ECL-Plus reagent. Chemiluminescence was measuredinaBio-Radimagereader. 2.5.Animalstudies ResearchwasconductedincompliancewiththeAnimalWelfare Actandotherfederalstatutesandregulationsrelatingtoanimals andexperimentsinvolvinganimalsandadherestoprinciplestated in the Guide for the Care and Use of Laboratory Animals, NRC Publication, 1996 edition. Ad-prolidase and Ad-null (2(cid:2)1011 vp/ animal)wereinjectedinto6-to7-weekoldfemaleSwissWebster mice through the tail vein. Blood samples were collected on the daybeforevirusinjectionanddailyfor15daysaftervirusinjection andwereassayedforHuprolidaselevelsbyWesternblottingand Fig.1. Expressionlevelsofhumanliverprolidaseinmousebloodfollowingasingle enzymaticactivity[12].Insomeexperiments,threeanimalswere tailveininjectionoftheviruscontainingthegenefortheenzyme.NAd-prolidase sacrificedonday4,day7,day10andday15,anddifferenttissues virus,jAd-Nullvirus. (i.e.,brain,heart,lung,diaphragm,liver,kidney,spleen,andmuscle) werecollectedaftersalineperfusionandassayedforHuprolidase levels. 2.6.Humanprolidaselevelsinmousetissues Tenpercenthomogenatesofthetissuesweremadeusingtissue extraction reagent (T-PER, Pierce Chemical Company) containing proteaseinhibitorcocktailreagent,andwereassayedforHuproli- daselevelsbyenzymeactivityassay. Fig.2. Westernblotofrecombinanthumanprolidaseinmouseplasma. V.Aletietal./Chemico-BiologicalInteractions203(2013)191–195 193 thesamples(Fig.2,days1through15).Theprebleedsample(day 0) did not contain any antibody reactive protein. These results demonstratethatAd-prolidaseexpressedenzymeisoffull-length andintactinthecirculationofmiceforaslongas15days. 3.2.Recombinanthumanliverprolidaseexpressioninmousetissues WedeterminedwhetherAd-prolidase-producedenzymeisre- tainedinanyofthemousetissuesorfullyexportedintocirculation. On day 4after virusinjection,threeAd-prolidase miceand three Ad-control mice were euthanized for determination of prolidase activitylevelsintissuesincludingliver,diaphragm,kidney,brain, lung,heart,spleenandmuscle.Livercontainedthehighestamount ofrHuprolidasecomparedtoanyothertissue.Prolidaseactivityof Fig. 4. Time course of recombinant human liver prolidase expression in mouse 2487±137U/gintheliversofmiceinjectedwithAd-prolidasewas liver. 200-to300-foldgreaterthantheactivityoftheenzymeinthelivers ofanimalsinjectedwiththecontrolvirus(Fig.3). Sinceliveristheprimarytissueofvirusactivityandcontained and pesticidecompounds, is mostlyexportedintothe circulation most of the virus-produced enzyme, prolidase levels were deter- [11]. Similarly, human paraoxonase1, a promising enzyme in the mined in the livers of mice on days 4, 7, 10, and 15 following categoryofcatalyticbioscavengers,isfullyfoundinthecirculation Ad-prolidaseinjection(Fig.4).Recombinantprolidaselevelswere [13].Incontrast,gene-deliveredrHuprolidaselargelyremainedin highest on day 7 (5647±454U/g tissue) compared to day 4 and theliver(Figs.3–5),andonlyasmallamount(3–5%)crossedover day 10 and returned closer to baseline levels on day 15. On day intoplasma.Nevertheless,thisamountofrHuprolidaseis 50-to 7, the plasma rHu prolidase levels were 140±56U/ml, which is 150-fold higher than the prolidase baseline activity in mouse 40-foldlowerthanthoseintheliver.Theseresultssuggestthata blood. We considered that such high levels of rHu prolidase in large amount of Ad-prolidase-produced enzyme was retained in mouseplasmawouldbesufficienttoprovideprotectiontotheani- theliverandwasnotexportedintothecirculation. mal, provided that the catalytic activity/efficiency of the enzyme was high enough for the enzyme to hydrolyze the DFP prior to 3.3.HydrolysisofDFPbyrecombinanthumanliverprolidase its escape from circulation which leads to cholinergic crisis and RecombinantHuprolidasewastestedforitsabilitytohydrolyze eventualdeath. DFP,asimulantcompoundofOPnerveagents,byaninvitroDFP First,wedeterminedtheLD50doseofDFPinSwiss-Websterfe- hydrolysis assay. DFPase activity was undetected in the plasma malemice.Sixmicewerechallengedintraperitoneallywithoneof of mice injected with Ad-control compared to a value of thethreefollowingDFPdoses:6, 9,and 12mg/kg.Threemicein 5.67±2.58U/mlintheplasmaofmiceinjectedwithAD-prolidase the 6/mg/kg group, 1 mouse in the 9mg/kg group, and 0 in the on day 4 (Fig. 5, inset). Similarly, DFPase activity in the livers of 12mg/kg group survived the DFP challenge, suggesting that the mice injected with Ad-prolidase was higher by 50-fold on day 4, LD50doseofDFPforthisstrainofmiceis(cid:3)6mg/kg.Thisvalueis 90-fold on day 7, 12-fold on day 10 and 10-fold on day 15 than consistentwiththeLD50valuesfoundinotherstrainsofmice[14]. intheliversofmiceinjectedwithAd-control(Fig.5).Theseresults To determine the protection offered by rHu prolidase against suggest that Ad-prolidase-produced rHu prolidase is capable of DFP toxicity, three groups of mice (Control, Prolidase, and BChE) hydrolyzingDFPinvitro. with6animalsineachgroupwereinjectedwithAd-null,Ad-pro- lidase and Ad-MoBChE, respectively and 5days later challenged 3.4.RecombinantHuprolidasefailedtooffersubstantialprotection intraperitoneally with 1(cid:2) LD50 dose of DFP. Mice injected with againstDFPinvivo Ad-BChE were included as a positive control group since BChE is The most notable nerve agent stoichiometric bioscavenger, expectedtofullyprotectagainstallOPcompounds[1,2].Surviving BChE, which offers protection against all types of nerve agents miceineachgroupwerechallengedwithasecond1(cid:2)LD50doseof DFPthreehoursafterthefirstchallenge(Table1).Fourof6animals inthecontrolgroup,and6of6animalsintheprolidaseandBChE groupssurvivedthefirstLD doseofthetoxicant.ThesecondLD 50 50 injectionofDFP3hlaterresultedinthedeathofalltheanimalsin thecontrolgroupwithin15minofthetoxicantinjection.Bycon- trast,only2ofthe6animalsintheprolidasegroupand1ofthe 6animalsintheBChEgroupdied.Intheprolidasegroup,the4sur- vivingmicedemonstratedsignsofnerveagentpoisoning,includ- ing piloerection, salivation, and splayed hind limbs, etc. These fourmicewerefounddeadthefollowingmorning,suggestingthat prolidase overexpression failed to offer protection against DFP invivo.Incontrast,the5miceintheBChEgroupshowednoDFP toxicitysymptomsat24h.TheoneanimaldeathintheBChEgroup mayhavebeentheresultofaninadequateamountofBChEexpres- sioninitsbloodbecauseitdidnotreceiveasufficientamountof Ad-BChE. Taken together, these data suggest that rHu prolidase, at best,offered meager protection against DFP toxicityin vivo by extendingthesurvivalof4outof6micebyabout4–8h.Thelack ofhumanliverprolidasetoofferprotectionagainstDFPinvivoin micemaynotbeduetoinadequateenzymeactivity.Theenzyme Fig.3. Expressionlevelsofrecombinanthumanliverprolidaseinmousetissues. totoxicantratioonthedayoftoxicantchallengewas 1:100–200 194 V.Aletietal./Chemico-BiologicalInteractions203(2013)191–195 Fig.5. HydrolysisofDFPbyrecombinantHuliverprolidaseexpressedinmouseliver(Bargraph)andplasma(inset). theGuidefortheCareandUseofLaboratoryAnimalsandtheAni- Table1 malWelfareActof1966(P.L.89-544),asamended. Group DFPchallenge Survival DFP Overnight 1st(aanimals) challenge survivalafter Conflictofintereststatement 2nd thechallenge Ad-Control 6 4/6 4 0/4 Nonedeclared. Ad-Prolidase 6 6/6 6 0a/6 Ad-MoBChE 6 6/6 6 5b/6 Acknowledgments a UnlikeAd-controlanimalswhichdied15minafterthe2ndDFPchallenge,Ad- prolidaseinjectedanimalstook4–8htooktodie. b MiceinjectedwithMoBChEexpressingviruswerealive24hafterthe2ndDFP This research was supported by the Defense ThreatReduction challengewithoutanysignsofDFPpoisoning. Agency–JointScienceandTechnologyOffice,MedicalS&TDivision (Project#1.D0003_09_RC_C).WethankDrs.DouglasM.Cerasoli, CarolynP.Chambers,andBrianM.KeyserandCPTCarlSmithfor (4–8nmolesoftheenzymevs800nmolesofDFP).Mostlikely,the critical evaluation of the manuscript. We also thank the staff at catalytic efficiency of recombinant human liver prolidase is not Washington Biotechnology Inc., Columbia, MD for their technical highenoughtorapidlyhydrolyzeDFPandloweritsbloodconcen- helpwiththeanimalexperiments. tration to non-lethallevels. A similar conclusionhas been drawn basedonitsinvitrocatalyticefficiencyfortheenzymeexpressed andpurifiedfromE.coli[8].StudiesevaluatingtheabilityofrHu References prolidase to mitigate the toxicity of nerve agents, if any, are [1] B.P. Doctor, A. Saxena, Bioscavengers for the protection of humans against ongoing. organophosphatetoxicity,Chem.Biol.Interact.157–158(2005)167–171. [2] D.E. Lenz, D.E. Yeung, J.R. Smith, R.E. Sweeney, L.A. Lumley, D.M. Cerasoli, Stoichiometric and catalytic scavengers as protection against nerve agent 4.Conclusions toxicity:aminireview,Toxicology20(2007)31–39. [3] T.C.Cheng,S.P.Harvey,A.N.Stroup,Purificationandpropertiesofhighlyactive organophosphorousacidanhydrolasefromAltermonasundina,Appl.Environ. Takentogether,the results suggestthat Ad type5 isuseful to Microbiol.59(1993)3138–3140. deliver high-levels of intact and functional rHu liver prolidase [4] T.C. Cheng, J.J. DeFrank, V.K. Rastogi, Alteromonas prolidase for organophosphrous G-agent decontamination, Chem. Biol. Interact. 119–120 invivoinmouseblood.Comparedtomiceinjectedwithacontrol (1999)455–462. virus,the miceinjectedwithAd containingthegene for Huliver [5] C.M. Theriot, S.R. Tove, A.M. Grunden, Biotechnological applications of prolidase contained 50- to 150-folds higher levels of the enzyme recombinantmicrobialproldiases,Adv.Appl.Microbiol.68(2009)99–126. on day 6 in their blood. High-levels of the enzyme remained in [6] S.H.Wang,Q.W.Zhi,M.J.Sun,Purificationandcharacterizationofrecoinant humanliverprolidaseexpressedinSaccharomycescerevisiae,Arch.Toxicol.79 mousebloodfor2–3days.MostoftheenzymeproducedviaAdre- (2005)253–259. mainedinmouseliver.RecombinantHuprolidasehydrolyzedDFP [7] S.H.Wang,Q.W.Zhi,M.J.Sun,Dualactivitiesofhumanliverprolidase,Toxicol. in vitro, but failed to offer substantial protection in vivo in mice, inVitro20(2006)70–77. [8] R.C. diTargiani, L. Chandrasekaran, T. Beliniskaya, A. saxena, In search of a onlydelayingthedeathofmicebyabout4–8h. catalyticbioscavengerfortheprophylaxisofnerveagenttoxicity,Chem.Biol. Interact.187(2010)349–354. [9] M.Constante,M.Biggemann,Y.Alamneh,I.Soojhawon,R.Short,S.Nigam,G. Disclaimer Garcia, B.P. Doctor, M. Valiyaveettil, M.P. Nambiar, Hydrolysis potential of recombinant human skin and kidney prolidase against diisopropylfluorophosphate and sarin by in vitro analysis, Toxicol. in Vitro Theviewsexpressedinthisarticlearethoseoftheauthorsand 26(2012)182–188. donotreflecttheofficialpolicyoftheDepartmentofArmy,Depart- [10] N.Chilukuri,E.G.Duysen,K.Parikh,W.Sun,B.P.Doctor,A.Saxena,Adeno-virus mediatedgenetransferofhumanbutyrylcholinesetraseresultsinpersistent mentofDefense,ortheU.S.Government. high-leveltransgeneexpressioninvivo,Chem.Biol.Interact.175(2008)327– The experimental protocol was approved by the Animal Care 331. andUseCommitteeoftheUSArmyMedicalResearchInstituteof [11] K. Parikh, E.G. Duysen, B. Snow, N.S. 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