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Acinetobacter baumannii antibiotic resistance mechanisms

dc.creatorKyriakidis I., Vasileiou E., Pana Z.D., Tragiannidis A.en
dc.date.accessioned2023-01-31T08:47:38Z
dc.date.available2023-01-31T08:47:38Z
dc.date.issued2021
dc.identifier10.3390/pathogens10030373
dc.identifier.issn20760817
dc.identifier.urihttp://hdl.handle.net/11615/75567
dc.description.abstractAcinetobacter baumannii is a Gram-negative ESKAPE microorganism that poses a threat to public health by causing severe and invasive (mostly nosocomial) infections linked with high mortality rates. During the last years, this pathogen displayed multidrug resistance (MDR), mainly due to extensive antibiotic abuse and poor stewardship. MDR isolates are associated with medical history of long hospitalization stays, presence of catheters, and mechanical ventilation, while immun-ocompromised and severely ill hosts predispose to invasive infections. Next-generation sequencing techniques have revolutionized diagnosis of severe A. baumannii infections, contributing to timely diagnosis and personalized therapeutic regimens according to the identification of the respective resistance genes. The aim of this review is to describe in detail all current knowledge on the genetic background of A. baumannii resistance mechanisms in humans as regards beta-lactams (penicillins, cephalosporins, carbapenems, monobactams, and beta-lactamase inhibitors), aminoglycosides, tet-racyclines, fluoroquinolones, macrolides, lincosamides, streptogramin antibiotics, polymyxins, and others (amphenicols, oxazolidinones, rifamycins, fosfomycin, diaminopyrimidines, sulfonamides, glycopeptide, and lipopeptide antibiotics). Mechanisms of antimicrobial resistance refer mainly to regulation of antibiotic transportation through bacterial membranes, alteration of the antibiotic target site, and enzymatic modifications resulting in antibiotic neutralization. Virulence factors that may affect antibiotic susceptibility profiles and confer drug resistance are also being discussed. Reports from cases of A. baumannii coinfection with SARS-CoV-2 during the COVID-19 pandemic in terms of resistance profiles and MDR genes have been investigated. © 2021 by the authors.en
dc.language.isoenen
dc.sourcePathogensen
dc.source.urihttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85103516603&doi=10.3390%2fpathogens10030373&partnerID=40&md5=0d816889a2b4a6036f2615715134ad16
dc.subject2,4 diaminopyrimidine derivativeen
dc.subjectamikacinen
dc.subjectaminoglycosideen
dc.subjectantibiotic agenten
dc.subjectantibody drug conjugateen
dc.subjectapramycinen
dc.subjectastromicinen
dc.subjectazithromycinen
dc.subjectaztreonamen
dc.subjectbeta lactamen
dc.subjectbeta lactamaseen
dc.subjectbeta lactamase AmpCen
dc.subjectbeta lactamase inhibitoren
dc.subjectbleomycinen
dc.subjectbrentuximab vedotinen
dc.subjectcarbapenemen
dc.subjectcarbapenem derivativeen
dc.subjectcarbapenemaseen
dc.subjectcefepimeen
dc.subjectcefiderocolen
dc.subjectcefotaximeen
dc.subjectceftazidimeen
dc.subjectceftriaxoneen
dc.subjectcephalosporin derivativeen
dc.subjectcephalosporinaseen
dc.subjectchloramphenicolen
dc.subjectciprofloxacinen
dc.subjectclarithromycinen
dc.subjectclindamycinen
dc.subjectcolistinen
dc.subjectcotrimoxazoleen
dc.subjectdaptomycinen
dc.subjectdiamineen
dc.subjectdibekacinen
dc.subjectDNAen
dc.subjectdoxycyclineen
dc.subjectenrofloxacinen
dc.subjecteravacyclineen
dc.subjecterythromycinen
dc.subjectexopolysaccharideen
dc.subjectextended spectrum beta lactamaseen
dc.subjectflorfenicolen
dc.subjectfolic aciden
dc.subjectfosfomycinen
dc.subjectgentamicinen
dc.subjectglutathioneen
dc.subjectglutathione reductaseen
dc.subjectglutathione transferaseen
dc.subjectglycopeptideen
dc.subjectglycosyltransferaseen
dc.subjecthygromycinen
dc.subjectimipenemen
dc.subjectisavuconazoleen
dc.subjectisepamicinen
dc.subjectkanamycinen
dc.subjectlevofloxacinen
dc.subjectlincomycinen
dc.subjectlincosamideen
dc.subjectlinezoliden
dc.subjectlipopeptideen
dc.subjectlividomycinen
dc.subjectmacrolideen
dc.subjectmembrane fusion proteinen
dc.subjectmeropenemen
dc.subjectmetallo beta lactamaseen
dc.subjectminocyclineen
dc.subjectmonobactam derivativeen
dc.subjectmultidrug and toxin extrusion protein 1en
dc.subjectmultidrug and toxin extrusion protein 2en
dc.subjectneomycinen
dc.subjectnetilmicinen
dc.subjectnorfloxacinen
dc.subjectofloxacinen
dc.subjectoleandomycinen
dc.subjectouter membrane proteinen
dc.subjectoxazolidinone derivativeen
dc.subjectoxytetracyclineen
dc.subjectparomomycinen
dc.subjectpenicillin binding proteinen
dc.subjectpenicillin derivativeen
dc.subjectpleuromutilinen
dc.subjectpolymyxinen
dc.subjectpolymyxin Ben
dc.subjectpolypeptide antibiotic agenten
dc.subjectporinen
dc.subjectquinoline derived antiinfective agenten
dc.subjectquinolone derivativeen
dc.subjectribostamycinen
dc.subjectrifampicinen
dc.subjectrifamycinen
dc.subjectrifapentineen
dc.subjectRNAen
dc.subjectRNA 16Sen
dc.subjectsisomicinen
dc.subjectspectinomycinen
dc.subjectstreptogramin derivativeen
dc.subjectstreptomycinen
dc.subjectsulfonamideen
dc.subjectteicoplaninen
dc.subjecttelavancinen
dc.subjecttetracyclineen
dc.subjecttetracycline derivativeen
dc.subjectthiamphenicolen
dc.subjecttigecyclineen
dc.subjecttobramycinen
dc.subjecttrimethoprimen
dc.subjectvancomycinen
dc.subjectvirulence factoren
dc.subjectAcinetobacteren
dc.subjectAcinetobacter baumanniien
dc.subjectantibiotic resistanceen
dc.subjectantibiotic sensitivityen
dc.subjectantifungal resistanceen
dc.subjectantimicrobial activityen
dc.subjectartificial ventilationen
dc.subjectbacterial geneen
dc.subjectbacterial virulenceen
dc.subjectbacterium identificationen
dc.subjectbioinformaticsen
dc.subjectcarbapenem resistant Acinetobacter baumanniien
dc.subjectchemical structureen
dc.subjectcoronavirus disease 2019en
dc.subjectDNA replicationen
dc.subjectenzyme modificationen
dc.subjectglucose metabolismen
dc.subjecthigh throughput sequencingen
dc.subjecthumanen
dc.subjectJNK signalingen
dc.subjectKlebsiella pneumoniaeen
dc.subjectlength of stayen
dc.subjectMAPK signalingen
dc.subjectmethicillin resistant Staphylococcus aureusen
dc.subjectminimum inhibitory concentrationen
dc.subjectmortalityen
dc.subjectmultidrug resistanceen
dc.subjectmultilocus sequence typingen
dc.subjectnosocomial transmissionen
dc.subjectpolymerase chain reactionen
dc.subjectprotein synthesisen
dc.subjectPseudomonas aeruginosaen
dc.subjectquorum sensingen
dc.subjectReviewen
dc.subjectsequence homologyen
dc.subjecttransmission electron microscopyen
dc.subjecttype VI secretion systemen
dc.subjectvirus virulenceen
dc.subjectwhole genome sequencingen
dc.subjectMDPI AGen
dc.titleAcinetobacter baumannii antibiotic resistance mechanismsen
dc.typeotheren


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