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Novel Antimicrobial Agents and Strategies PDF

439 Pages·2014·3.83 MB·English
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Editedby DavidA.Phoenix, FrederickHarris,and SarahR.Dennison NovelAntimicrobialAgents andStrategies RelatedTitles Gualerzi,C.O.,Brandi,L.,Fabbretti,A., Skold,O. Pon,C.L.(eds.) AntibioticsandAntibiotic Antibiotics Resistance Targets,MechanismsandResistance 2011 PrintISBN:978-0-470-43850-3,also 2013 PrintISBN:978-3-527-33305-9,also availableindigitalformats availableindigitalformats Chen,L.,Petersen,J.,Schlagenhauf,P.(eds.) Phoenix,D.A.,Dennison,S.R.,Harris,F. InfectiousDiseases-A AntimicrobialPeptides GeographicGuide 2013 2011 PrintISBN:978-3-527-33263-2,also PrintISBN:978-0-470-65529-0,also availableindigitalformats availableindigitalformats Anderson,R.R.,Groundwater,P.P., DeClercq,E.(ed.) Todd,A.A.,Worsley,A.A. AntiviralDrugStrategies AntibacterialAgents- Chemistry,ModeofAction, 2011 PrintISBN:978-3-527-32696-9,also MechanismsofResistanceand availableindigitalformats ClinicalApplications 2012 PrintISBN:978-0-470-97244-1,also availableindigitalformats Editedby DavidA.Phoenix,FrederickHarris, andSarahR.Dennison Novel Antimicrobial Agents and Strategies TheEditors AllbookspublishedbyWiley-VCHare carefullyproduced.Nevertheless,authors, Prof.DavidA.Phoenix editors,andpublisherdonotwarrantthe LondonSouthBankUniversity informationcontainedinthesebooks, BoroughRoad103 includingthisbook,tobefreeoferrors. London Readersareadvisedtokeepinmindthat SE10AA statements,data,illustrations,procedural UnitedKingdom detailsorotheritemsmayinadvertently beinaccurate. Dr.FrederickHarris UniversityofCentralLancashire LibraryofCongressCardNo.:appliedfor Forensic&InvestigativeScience Preston,Lancashire BritishLibraryCataloguing-in-Publication PR12HE Data UnitedKingdom Acataloguerecordforthisbookis availablefromtheBritishLibrary. Dr.SarahR.Dennison UniversityofCentralLancashire Bibliographicinformationpublishedbythe PharmacyandBiomedicalScience DeutscheNationalbibliothek Preston,Lancashire TheDeutscheNationalbibliothek PR12HE liststhispublicationintheDeutsche UnitedKingdom Nationalbibliografie;detailed bibliographicdataareavailableonthe Internetat<http://dnb.d-nb.de>. Coverdesign Thecovershowsbeta-lactamase,an ©2015Wiley-VCHVerlagGmbh&Co. enzymeproducedbysomebacteria, KGaA,Boschstr.12,69469Weinheim, whichprovidebacterialresistanceto Germany beta-lactamantibioticsinthepresenceof alipidbilayer.Theimagewascreatedby Allrightsreserved(includingthoseof Dr.ManuelaMura,UniversityofCentral translationintootherlanguages).Nopart Lancashire,UK. ofthisbookmaybereproducedinany form–byphotoprinting,microfilm, oranyothermeans–nortransmitted ortranslatedintoamachinelanguage withoutwrittenpermissionfromthe publishers.Registerednames,trademarks, etc.usedinthisbook,evenwhennot specificallymarkedassuch,arenottobe consideredunprotectedbylaw. PrintISBN:978-3-527-33638-8 ePDFISBN:978-3-527-67614-9 ePubISBN:978-3-527-67615-6 MobiISBN:978-3-527-67616-3 oBookISBN:978-3-527-67613-2 Cover-Design Adam-Design,Weinheim, Germany Typesetting LaserwordsPrivateLimited, Chennai,India PrintingandBinding MarkonoPrint MediaPteLtd,Singapore Printedonacid-freepaper V Contents ListofContributors XI Preface XVII 1 TheProblemofMicrobialDrugResistance 1 IzaRadecka,ClaireMartin,andDavidHill 1.1 Introduction 1 1.2 HistoryoftheOrigins,Development,andUseofConventional Antibiotics 1 1.3 ProblemsofAntibioticResistance 4 1.4 MultipleDrug-Resistant(MDR),ExtensivelyDrug-Resistant(XDR), andPan-Drug-Resistant(PDR)Organisms 5 1.5 MDRMechanismsofMajorPathogens 5 1.6 AntimicrobialStewardshipPrograms 11 1.7 Discussion 12 Acknowledgment 13 References 13 2 ConventionalAntibiotics–RevitalizedbyNewAgents 17 AnthonyCoatesandYanminHu 2.1 Introduction 17 2.2 ConventionalAntibiotics 18 2.3 ThePrinciplesofCombinationAntibioticTherapy 20 2.4 AntibioticResistanceBreakers:RevitalizeConventional Antibiotics 21 2.4.1 β-LactamaseInhibitors 21 2.4.2 Aminoglycoside-ModifyingEnzymeInhibitors 23 2.4.3 AntibioticEffluxPumpsInhibitors 23 2.4.4 SynergyAssociatedwithBacterialMembranePermeators 23 2.5 Discussion 25 Acknowledgments 26 References 26 VI Contents 3 DevelopingNovelBacterialTargets:CarbonicAnhydrasesas AntibacterialDrugTargets 31 ClementeCapassoandClaudiuT.Supuran 3.1 Introduction 31 3.2 CarbonicAnhydrases 31 3.3 CAInhibitors 32 3.4 ClassesofCAsPresentinBacteria 33 3.5 PathogenicBacterialCAs 35 3.6 α-CAsinPathogenicBacteria 35 3.7 β-CAsinPathogenicBacteria 37 3.8 γ-CAsfromPathogenicBacteria 39 3.9 Conclusions 40 References 41 4 Magainins–AModelforDevelopmentofEukaryoticAntimicrobial Peptides(AMPs) 47 SarahR.Dennison,FrederickHarris,andDavidA.Phoenix 4.1 Introduction 47 4.2 MagaininsandTheirAntimicrobialAction 49 4.3 MagaininsasAntibiotics 51 4.4 OtherAntimicrobialUsesofMagainins 55 4.5 FutureProspectsforMagainins 57 References 58 5 AntimicrobialPeptidesfromProkaryotes 71 MaryamHassan,MortenKjos,IngolfF.Nes,DzungB.Diep, andFarzanehLotfipour 5.1 Introduction 71 5.2 Bacteriocins 73 5.2.1 Microcins–PeptideBacteriocinsfromGram-NegativeBacteria 73 5.2.2 Lanthibiotics–Post-translationallyModifiedPeptidesfrom Gram-PositiveBacteria 76 5.2.3 Non-modifiedPeptidesfromGram-PositiveBacteria 77 5.3 ApplicationsofProkaryoticAMPs 79 5.3.1 FoodBiopreservation 79 5.3.2 BacteriocinogenicProbiotics 80 5.3.3 ClinicalApplication 81 5.3.4 ApplicationsinDentalCare 82 5.4 DevelopmentandDiscoveryofNovelAMP 82 References 84 6 PeptidomimeticsasAntimicrobialAgents 91 PengTeng,HaifanWu,andJianfengCai 6.1 Introduction 91 6.2 AntimicrobialPeptidomimetics 93 Contents VII 6.2.1 Peptoids 93 6.2.2 β-Peptides 94 6.2.3 Arylamides 96 6.2.4 β-Peptoid–PeptideHybridOligomers 97 6.2.5 Oligoureaandγ4-Peptide-BasedOligomers 98 6.2.6 AApeptides 98 6.2.6.1 α-AApeptides 99 6.2.6.2 γ-AApeptides 101 6.3 Discussion 102 Acknowledgments 103 References 103 7 SyntheticBiologyandTherapiesforInfectiousDiseases 109 HirokiAndo,RobertCitorik,SaraCleto,SebastienLemire,MarkMimee, andTimothyLu 7.1 CurrentChallengesintheTreatmentofInfectiousDiseases 109 7.2 IntroductiontoSyntheticBiology 112 7.3 Vaccinology 113 7.3.1 GeneticEngineeringandVaccineDevelopment 114 7.3.2 RationalAntigenDesignThroughReverseVaccinology 119 7.4 Bacteriophages:ARe-emergingSolution? 122 7.4.1 ABriefHistoryofBacteriophages 122 7.4.2 AddressingtheProblemoftheRestrictedHostRangeofPhages 124 7.4.3 PhageGenomeEngineeringforEnhancedTherapeutics 129 7.4.4 PhagesasDeliveryAgentsforAntibacterialCargos 132 7.5 IsolatedPhagePartsasAntimicrobials 133 7.5.1 EngineeredPhageLysins 133 7.5.2 Pyocins:DeadlyPhageTails 135 7.5.3 UntappedReservoirsofAntibacterialActivity 136 7.6 PredatoryBacteriaandProbioticBacterialTherapy 136 7.7 NaturalProductsDiscoveryandEngineering 139 7.7.1 InSilicoandInVitroGenomeMiningforNaturalProducts 140 7.7.2 StrainEngineeringforNaturalProducts 144 7.7.2.1 ProductionoftheAntimalarialArtemisinin 145 7.7.2.2 Daptomycin(Cubicin) 147 7.7.2.3 Echinomycin 147 7.7.2.4 ClavulanicAcid 148 7.7.2.5 ProductionoftheAntiparasiticAvermectinandItsAnalogs DoramectinandIvermectin 149 7.7.2.6 ProductionofDoxorubicin/Daunorubicin 149 7.7.2.7 DevelopmentofHostsfortheExpressionofNonribosomalPeptides andPolyketides 150 7.7.3 GenerationofNovelMoleculesbyRationalReprogramming 152 7.7.4 EngineeringNRPSandPKSDomains 154 7.7.5 ActivationofCrypticGenes/Clusters 155 VIII Contents 7.7.6 MutasynthesisasaSourceofNovelAnalogs 157 7.8 Summary 157 Acknowledgments 157 References 158 8 Nano-AntimicrobialsBasedonMetals 181 MariaChiaraSportelli,RosariaAnnaPicca,andNicolaCioffi 8.1 Introduction 181 8.2 SilverNano-antimicrobials 182 8.2.1 SynthesisofSilverNanostructures 182 8.2.1.1 PhysicalApproaches 183 8.2.1.2 LaserAblationinLiquids 183 8.2.1.3 ChemicalApproaches 183 8.2.1.4 BiologicalandBiotechnologicalApproaches 184 8.2.1.5 ElectrochemicalApproaches 184 8.2.2 CharacterizationofSilverNanostructures 185 8.2.3 ApplicationsofSilverNanostructures 187 8.2.3.1 Silver-BasedNano-antimicrobials 187 8.3 CopperNano-antimicrobials 190 8.3.1 PreparationandApplicationsofAntimicrobialCu Nanostructures 190 8.3.1.1 PhysicalMethods 190 8.3.1.2 Wet-ChemicalMethods 192 8.3.1.3 ElectrochemicalSyntheses 195 8.3.1.4 LaserAblationinLiquids 196 8.3.1.5 BiologicalSyntheses 197 8.4 ZincOxideNano-antimicrobials 197 8.4.1 SynthesisofZincOxideNanostructures 197 8.4.1.1 PhysicalApproaches 198 8.4.1.2 ChemicalApproaches 198 8.4.1.3 ElectrochemicalApproaches 200 8.5 Conclusions 201 References 201 9 NaturalProductsasAntimicrobialAgents–anUpdate 219 MuhammadSaleem 9.1 Introduction 219 9.2 AntimicrobialNaturalProductsfromPlants 220 9.2.1 AntimicrobialAlkaloidsfromPlants 220 9.2.2 AntimicrobialAlkaloidsfromMicrobialSources 223 9.2.3 AntimicrobialAlkaloidsfromMarineSources 225 9.3 AntimicrobialNaturalProductsBearinganAcetyleneFunction 226 9.4 AntimicrobialCarbohydrates 228 9.5 AntimicrobialNaturalChromenes 228 9.6 AntimicrobialNaturalCoumarins 229

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By integrating knowledge from pharmacology, microbiology, molecular medicine, and engineering, researchers from Europe, the U.S. and Asia cover a broad spectrum of current and potential antimicrobial medications and treatments. The result is a comprehensive survey ranging from small-molecule antibio
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