|Table of Contents|

3D-QSARStudiesof2,4-ThiazolidinedionesasAldoseReductaseInhibitorsUsingCoMFA,CoMSIAandMolecularDocking(PDF)

《南京师大学报(自然科学版)》[ISSN:1001-4616/CN:32-1239/N]

Issue:
2015年03期
Page:
31-
Research Field:
化学
Publishing date:

Info

Title:
3D-QSARStudiesof2,4-ThiazolidinedionesasAldoseReductaseInhibitorsUsingCoMFA,CoMSIAandMolecularDocking
Author(s):
ChangMeijia1LuoSheng1YangXushu1ZhangYiming2SunCheng3WangLiansheng3
(1.SchoolofPharmacy,NanjingMedicalUniversity,Nanjing211166,China)
(2.SchoolofBasicMedicalSciences,NanjingMedicalUniversity,Nanjing210029,China)
(3.StateKeyLaboratoryofPollutionControlandResourcesReuse,SchoolofEnvironment,NanjingUniversity,Nanjing210046,China)
Keywords:
24-ThiazolidinedionesAldosereductaseinhibitors3D-QSARmoleculardocking
PACS:
O641.3
DOI:
-
Abstract:
Aldosereductase(ALR2)inhibitorsarepromisingagentsforchronicdiabeticcomplicationtherapybypreventingthereductionofglucoseinthepolyolpathway,whichpromotestodevelopnovelALR2inhibitors.Twokindsoftechniques,comparativemolecularfieldanalysis(CoMFA)andcomparativemolecularsimilarityindicesanalysis(CoMSIA),wereemployedforstudyingaseriesof5-arylidene-2,4-thiazolidinedionesasaldosereductaseinhibitors.Withthestrategiesofcommonsubstructure-basedalignmentandfield-fitalignment,thelowestenergyconformationswereusedtodeveloptheligand-basedmodelsofthree-dimensionalquantitativestructure-activityrelationship(3D-QSAR).Thebioactiveconformationobtainedbydockingall5-arylidene-2,4-thiazolidinedionesderivativesintotheactivesiteofaldosereductase(PBDID:1ah3)wasappliedforthedevelopmentofreceptor-basedmodel.Statisticallysignificantmodelofligand-based3D-QSARfromthecommonsubstructure-basedalignmentexhibitedthebestpredictivepower(CoMFAr2=0.922,q2=0.707;CoMSIAr2=0.917,q2=0.762).Themodelwasfurtherconfirmedbyanalyzing12setsofcompoundswithdiversestructure.Theresultsshowedhighpredictiver2valuesof0.824forCoMFAand0.883forCoMSIArespectively.ThemoleculardockinganalysisrevealedthatbothCoMFAandCoMSIAcontourmapsforsteric,electrostatic,hydrophobic,andhydrogen-bondinginteractionsmatchedwell.ThecombinationofCoMFAandCoMSIAwithmoleculardockingishelpfultounderstandtheinteractionandthestructure-activityrelationshipbetweenALR2anditsinhibitor.ThepresentresultsprovideavaluableguidanceforrationallydesigningARL2inhibitors.

References:

[1]PfeiferMA,SchumerMP.Clinicaltrialsofdiabeticneuropathy:past,present,andfuture[J].Diabetes,1995,44:1?355-1361.
[2]WilliamsonJR,OstrowE,EadesD,etal.Glucose-inducedmicrovascularfunctionalchangesinnondiabeticratsarestereospecificandarepreventedbyanaldosereductaseinhibitor[J].JClinInvest,1990,85:1167-1172.
[3]BrownleeM.Biochemistryandmolecularcellbiologyofdiabeticcomplications[J].Nature,2001,414:813-820.
[4]OyamaT,MiyasitaY,WatanabeH,etal.Theroleofpolyolpathwayinhighglucose-inducedendothelialcelldamages[J].DiabetesResClinPract,2006,73:227-234.
[5]CostanitinoL,RastelliG,VianelloP,etal.Diabetescomplicationsandtheirpotentialprevention:aldosereductaseinhibitionandotherapproaches.DiabetesComplicationsandPotentialPrevention[J].MedResRev,1999,19:3-22.
[6]KadorPF.Theroleofaldosereductaseinthedevelopmentofdiabeticcomplications[J].MedResRev,1988,8:325-352.
[7]KadorPF,KinoshitaJH,SharplessNJ.Aldosereductaseinhibitors:apotentialnewclassofagentsforthepharmacologicalcontrolofcertaindiabeticcomplications[J].JMedChem,1985,28:841-849.
[8]SargesR,OatesPJ.Aldosereductaseinhibitors:recentdevelopments[J].ProgDrugRes,1993,40:99-161.
[9]CostantinoL,RastelliG,CignarellaG,etal.Newaldosereductaseinhibitorsaspotentialagentsforthepreventionoflong-termdiabeticcomplications[J].ExpOpinTherPatents,1997,7:843-858.
[10]LarsonER,LipinskiCA,SargesR.Medicinalchemistryofaldosereductaseinhibitors[J].MedResRev,1988,8:159-186.
[11]CostantinoL,RastelliG,GamberoniMC,etal.Pharmacologicalapproachestothetreatmentofdiabeticcomplications[J].ExpOpinTherPatents,2000,10:1245-1262.
[12]FresneauP,CussacM,MorandJ,etal.Synthesis,activity,andmolecularmodelingofnew2,4-dioxo-5-(naphthylmethylene)-3-thiazolidineaceticacidsand2-thioxoanaloguesaspotentaldosereductaseinhibitors[J].JMedChem,1998,41:4706-4715.
[13]SohdaT,MizunoK,ImamiyaE,etal.Studiesonantidiabeticagents.II.Synthesisof5-[4.(1-methylcyclohexyl-methoxy)benzyl]thiazolidine-2,4-dione(ADD-3878)anditsderivatives[J].ChemPharmBull,1982,30:3580-3600.
[14]ZaskA,JirkovskyI,NowickiJW,etal.Synthesisandantihyperglycemicactivityofnovel5-(naphthalenylsulfonyl)-2,4-thiazolidinediones[J].JMedChem,1990,33:1418-1423.
[15]MomoseY,MeguroK,IkedaH,etal.Studiesonantidiabeticagents.X.Synthesisandbiologicalactivitiesofpioglitazoneandrelatedcompounds[J]].ChemPharmBull,1991,39:1440-1445.
[16]BrunoG,CostantinoL,CuringaC,etal.Synthesisandaldosereductaseinhibitoryactivityof5-arylidene-2,4-thiazolidinedionesy[J].BioorgMedChem,2002,10:1077-1084.
[17]MaccariR,OttanaR,CuringaC,etal.Structure-activityrelationshipsandmolecularmodellingof5-arylidene-2,4-thiazolidinedionesactiveasaldosereductaseinhibitors[J].BioorgMedChem,2005,13:2809-2823.
[18]MaccariR,OttanaR,CiurleoR,etal.Evaluationofinvitroaldoseredutaseinhibitoryactivityof5-arylidene-2,4-thiazolidinediones[J].BioorgMedChemLett,2007,17:3886-3893.
[19]SambasivaraoSV,SoniLK,GuptaAK,etal.Quantitativestructure-activityanalysisof5-arylidene-2,4-thiazolidinedionesasaldosereductaseinhibitors[J].BioorgMedChemLett,2006,16:512-520.
[20]CramerIIIRD,PattersonDE,BunceJD.Comparativemolecularfieldanalysis(CoMFA).1.Effectofshapeonbindingofsteroidstocarrierproteins[J].JAmChemSoc,1988,110:5959-5967.
[21]KlebeG,AbrahamU,MietznerT.Molecularsimilarityindicesinacomparativeanalysis(CoMSIA)ofdrugmoleculestocorrelateandpredicttheirbiologicalactivity[J].JMedChem,1994,37:4130-4146.
[22]TriposAssociates.SybylVersion7.3[M].St.Louis:TriposAssociates,2006.
[23]ClarkM,CramerIIIRD,OpdenboschNV.Validationofthegeneral-purposeTRIPOS5.2forcefield[J].JComputChem,1989,10:982-1012.
[24]GasteigerJ,MarsilliM.Iterativepartialequalizationoforbitalelectronegativity—arapidaccesstoatomiccharges[J].Tetrahedron,1980,36:3219-3228.
[25]JainAN.Surflex:fullyautomaticflexiblemoleculardockingusingamolecularsimilarity-basedsearchengine[J].JMedChem,2003,46:499-511.
[26]WeinerSJ,KollmanPA,CaseDA,etal.Anewforcefieldformolecularmechanicalsimulationofnucleicacidsandproteins[J].JAmChemSoc,1984,106:765-784.
[27]WoldS,RuheA,WoldH,etal.Thecovarianceprobleminlinearregression.Thepartialleastsquares(PLS)approachtogeneralizedinverses[J].SIAMJSciStatComput,1984,5:735-743.
[28]WoldS.Crossvalidatoryestimationofthenumberofcomponentsinfactorandprincipalcomponentsmodels[J].Technometrics,1978,4:397-405.

Memo

Memo:
-
Last Update: 2015-09-30