Steven J. Nigro scite author profile

Acinetobacter baumannii is a nosocomial pathogen that has emerged as a global threat because of high levels of resistance to many antibiotics, particularly those considered to be last-resort antibiotics, such as carbapenems. Although alterations in the efflux pump and outer membrane proteins can cause carbapenem resistance, the main mechanism is the acquisition of carbapenem-hydrolyzing oxacillinase-encoding genes. Of these, oxa23 is by far the most widespread in most countries, while oxa24 and oxa58 appear to be dominant in specific regions. Historically, much of the global spread of carbapenem resistance has been due to the dissemination of two major clones, known as global clones 1 and 2, although new lineages are now common in some parts of the world. The analysis of all publicly available genome sequences performed here indicates that ST2, ST1, ST79 and ST25 account for over 71 % of all genomes sequenced to date, with ST2 by far the most dominant type and oxa23 the most widespread carbapenem resistance determinant globally, regardless of clonal type. Whilst this highlights the global spread of ST1 and ST2, and the dominance of oxa23 in both clones, it could also be a result of preferential selection of carbapenem-resistant strains, which mainly belong to the two major clones. Furthermore, ~70 % of the sequenced strains have been isolated from five countries, namely the USA, PR China, Australia, Thailand and Pakistan, with only a limited number from other countries. These genomes are a vital resource, but it is currently difficult to draw an accurate global picture of this important superbug, highlighting the need for more comprehensive genome sequence data and genomic analysis.

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Structure and context ofAcinetobactertransposons carrying theoxa23carbapenemase gene

Nigro

Hall

2016

J. Antimicrob. Chemother.

121

115

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Theoxa23gene encoding the OXA-23 carbapenemase (and several minor variants of it) is widespread inAcinetobacter baumanniiclinical isolates and compromises treatment with carbapenem antibiotics. The gene is derived from the chromosome ofAcinetobacter radioresistenswhere it is an intrinsic gene, here designatedoxaAr InA. baumanniiand otherAcinetobacterspecies,oxa23is usually preceded by an IS, ISAba1, which supplies the strong promoter required for the gene to confer clinically relevant levels of resistance. TheoxaArgene appears to have been mobilized twice creating Tn2008and Tn2008B, both of which consist of a single ISAba1 and anA. radioresistens-derived fragment. Tn2006and Tn2009are clearly derived from Tn2008Band are each made up of Tn2008Bwith an additional segment of unknown origin and an additional ISAba1, creating a compound transposon. Tn2006, Tn2008and possibly Tn2008Bare globally disseminated, while Tn2009has as yet only been found in China. Of the four ISAba1-associated transposons, Tn2006has been most frequently observed worldwide and Tn2006in Tn6022, known as AbaR4, appears to contribute significantly to the dissemination ofoxa23 Moreover, AbaR4, Tn2006, Tn2008and Tn2009have each been found in conjugative plasmids, further facilitating their spread.

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Variation in the OC Locus of Acinetobacter baumannii Genomes Predicts Extensive Structural Diversity in the Lipooligosaccharide

2014

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Lipooligosaccharide (LOS) is a complex surface structure that is linked to many pathogenic properties of Acinetobacter baumannii. In A. baumannii, the genes responsible for the synthesis of the outer core (OC) component of the LOS are located between ilvE and aspS. The content of the OC locus is usually variable within a species, and examination of 6 complete and 227 draft A. baumannii genome sequences available in GenBank non-redundant and Whole Genome Shotgun databases revealed nine distinct new types, OCL4-OCL12, in addition to the three known ones. The twelve gene clusters fell into two distinct groups, designated Group A and Group B, based on similarities in the genes present. OCL6 (Group B) was unique in that it included genes for the synthesis of L-Rhamnosep. Genetic exchange of the different configurations between strains has occurred as some OC forms were found in several different sequence types (STs). OCL1 (Group A) was the most widely distributed being present in 18 STs, and OCL6 was found in 16 STs. Variation within clones was also observed, with more than one OC locus type found in the two globally disseminated clones, GC1 and GC2, that include the majority of multiply antibiotic resistant isolates. OCL1 was the most abundant gene cluster in both GC1 and GC2 genomes but GC1 isolates also carried OCL2, OCL3 or OCL5, and OCL3 was also present in GC2. As replacement of the OC locus in the major global clones indicates the presence of sub-lineages, a PCR typing scheme was developed to rapidly distinguish Group A and Group B types, and to distinguish the specific forms found in GC1 and GC2 isolates.

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Aminoglycoside resistance in multiply antibiotic-resistant Acinetobacter baumannii belonging to global clone 2 from Australian hospitals

Nigro

Post

Hall

2011

Journal of Antimicrobial Chemotherapy

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Variants of the gentamicin and tobramycin resistance plasmid pRAY are widely distributed in Acinetobacter

Hamidian

Nigro

Hall

2012

Journal of Antimicrobial Chemotherapy

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Steven J. Nigro

Emergence, molecular mechanisms and global spread of carbapenem-resistant Acinetobacter baumannii

Structure and context ofAcinetobactertransposons carrying theoxa23carbapenemase gene

Variation in the OC Locus of Acinetobacter baumannii Genomes Predicts Extensive Structural Diversity in the Lipooligosaccharide

Aminoglycoside resistance in multiply antibiotic-resistant Acinetobacter baumannii belonging to global clone 2 from Australian hospitals

Variants of the gentamicin and tobramycin resistance plasmid pRAY are widely distributed in Acinetobacter

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