Bacterial superintegrons, a source of new genes with adaptive functions

Data on the structural organization of the platform of integrons, gene cassettes, and integrons with integrated cassettes of genes encoding drug resistance are briefly summarized. Data obtained during recent years about superintegrons or chromosomal integrons, characteristics of their organization, the presence of genes with known adaptive and unidentified functions in them, as well as data on the differences between superintegrons and previously described multiple resistance integrons, are considered in more detail. Studies that provide evidence for translocations of gene cassettes from stationary chromosomal integrons into integrons associated with mobile elements resulting in gene flows in natural bacterial populations, which favors their survival and adaptation to changing environment, are also reviewed.     

Integrons: agents of bacterial evolution

Integrons are assembly platforms - DNA elements that acquire open reading frames embedded in exogenous gene cassettes and convert them to functional genes by ensuring their correct expression. They were first identified by virtue of their important role in the spread of antibiotic-resistance genes. More recently, our understanding of their importance in bacterial genome evolution has broadened with the discovery of larger integron structures, termed superintegrons. These DNA elements contain hundreds of accessory genes and constitute a significant fraction of the genomes of many bacterial species. Here, the basic biology of integrons and superintegrons, their evolutionary history and the evidence for the existence of a novel recombination pathway is reviewed.     

整合子-基因盒系统与细菌耐药机制的研究进展

大量研究表明整合子-基因盒系统是微生物耐药的主要机制,由其介导的耐药基因水平转移是细菌耐药机制产生的主要途径。已知的整合子被分为两大类：传统的整合子和超级整合子。前者存在于转座子、质粒和细菌染色体,其基因盒编码产物可使细菌耐受一种或多种抗菌药物及消毒剂;而后者则只存在于细菌的染色体上,它携带的基因盒更多,且其编码产物则更加复杂,目前只在特定菌株中发现超级整合子。本文就整合子的结构、分布、检测及它对细菌耐药性的影响等几个方面的研究进展进行讨论。     

Molecular characterization of class 3 integrons from Delftia spp

Two environmental strains, Delftia acidovorans C17 and Delftia tsuruhatensis A90, were found to carry class 3 integrons, which have seldom been reported and then only from pathogens in which they are associated with antibiotic resistance genes. The Delftia integrons comprised a highly conserved class 3 integrase gene, upstream and oppositely oriented from a set of three or four gene cassettes that encoded unidentified functions. The A90 integron had one more gene cassette than the C17 integron, but the two were otherwise the same; furthermore, they were located within regions of sequence identity in both strains and linked to chromosomal genes. A screen of other Delftia and related strains did not reveal the presence of additional class 3 integrons. The observations suggest that these integrons were horizontally transferred to Delftia as part of a larger region and reside as chromosomal elements that probably predate transposon dissemination, as has been proposed for certain class 1 integrons.     

Bacterial resistance evolution by recruitment of super-integron gene cassettes

The capture and spread of antibiotic resistance determinants by integrons underlies the rapid evolution of multiple antibiotic resistance among diverse Gram-negative clinical isolates. The association of multiple resistance integrons (MRIs) with mobile DNA elements facilitates their transit across phylogenetic boundaries and augments the potential impact of integrons on bacterial evolution. Recently, ancestral chromosomal versions, the super-integrons (SIs), were found to be genuine components of the genomes of diverse bacterial species. SIs possess evolutionary characteristics and stockpiles of adaptive functions, including cassettes related to antibiotic resistance determinants previously characterized in clinical isolates, which suggest that MRIs and their resistance genes were originally recruited from SIs and their pool of amassed genes. However, the recombination activity of integrons has never been demonstrated in a bacterium other than Escherichia coli. We introduced a naturally occurring MRI (TpR, SulR) on a conjugative plasmid into Vibrio cholerae, a species known to harbour a SI. We show that MRIs can randomly recruit genes directly from the cache of SI cassettes. By applying a selective constraint for the development of antibiotic resistance, we demonstrate bacterial resistance evolution through the recruitment a novel, but phenotypically silent, chloramphenicol acetyltransferase gene from the V. cholerae SI and its precise insertion into the MRI. The resulting resistance profile (CmR, TpR, SulR) could then be disseminated by conjugation to other clinically relevant pathogens at high frequency. These results demonstrate that otherwise phenotypically sensitive strains may still be a genetic source for the evolution of resistance to clinically relevant antibiotics through integron-mediated recombination events.     

Gene cassettes and cassette arrays in mobile resistance integrons

Gene cassettes are small mobile elements, consisting of little more than a single gene and recombination site, which are captured by larger elements called integrons. Several cassettes may be inserted into the same integron forming a tandem array. The discovery of integrons in the chromosome of many species has led to the identification of thousands of gene cassettes, mostly of unknown function, while integrons associated with transposons and plasmids carry mainly antibiotic resistance genes and constitute an important means of spreading resistance. An updated compilation of gene cassettes found in sequences of such 'mobile resistance integrons' in GenBank was facilitated by a specially developed automated annotation system. At least 130 different (<98% identical) cassettes that carry known or predicted antibiotic resistance genes were identified, along with many cassettes of unknown function. We list exemplar GenBank accession numbers for each and address some nomenclature issues. Various modifications to cassettes, some of which may be useful in tracking cassette epidemiology, are also described. Despite potential biases in the GenBank dataset, preliminary analysis of cassette distribution suggests interesting differences between cassettes and may provide useful information to direct more systematic studies.     

Evidence for dynamic exchange of qac gene cassettes between class 1 integrons and other integrons in freshwater biofilms

Class 1 integrons carried by pathogens have acquired over 100 different gene cassettes encoding resistance to antimicrobial compounds, helping to generate a crisis in the management of infectious disease. It is presumed that these cassettes originated from environmental bacteria, but exchange of gene cassettes has surprisingly never been demonstrated outside laboratory or clinical contexts. We aimed to identify a natural environment where such exchanges might occur, and determine the phylogenetic range of participating integrons. Here we examine freshwater biofilms and show that families of cassettes conferring resistance to quaternary ammonium compounds ( qac ) are found on class 1 integrons identical to those from clinical contexts, on sequence variants of class 1 integrons only known from natural environments, and on other diverse classes of integrons only known from the chromosomes of soil and freshwater Proteobacteria . We conclude that gene cassettes might be readily shared between different integron classes found in environmental, commensal and pathogenic bacteria. This suggests that class 1 integrons in pathogens have access to a vast pool of gene cassettes, any of which could confer a phenotype of clinical relevance. Exploration of this resource might allow identification of resistance or virulence genes before they become part of multi-drug-resistant human pathogens.     

产超广谱β-内酰胺酶细菌中I类整合子的研究进展

产超广谱β-内酰胺酶(Extended-spectrum beta-lactamase, ESBLs)细菌的多重耐药性是临床用药的一大难题, 近年研究发现其耐药性的产生与整合子密切相关, 其中临床最常见、研究最深入的是I类整合子。整合子是一种可移动基因元件, 在整合酶的作用下捕捉外源基因盒并使之表达, 是具有基因整合和切除功能的天然克隆和表达系统。研究表明I类整合子可连续捕捉和整合多种耐药基因, 以质粒或转座子为载体在细菌之间传播耐药性, 使ESBLs细菌多重耐药趋势十分严峻。本文就I类整合子的结构特征、I类整合子对耐药基因盒的整合作用及其与ESBLs细菌耐药性的关系等方面进行综述。     

Structural organization and mechanisms of mobility of the gene cassette coding for resistance to antibiotics and bacterial virulence factors

The review is focussed on two types of gene cassettes which are significant in bacterial variability. The first type are cassettes with antibiotic resistance genes; these are the smallest mobile genetic elements including a gene (most commonly an antibiotic resistance gene) and a short sequence acting as a recombination site. Sometimes these cassettes contain genes not responsible for antibiotic resistance but their functions are not yet known. The second type contains large clusters of genes coding for bacterial virulence factors. They were termed "pathogenicity islands" due to their difference in the percentage of G-C pairs in comparison with bacterial chromosomes, in which they are contained. The structural organization and mechanisms of mobility of various types of gene cassettes are discussed.     

Mobile gene cassettes and DNA integration elements

Integrons are unique natural systems for capturing and spreading the antibiotic resistance genes among Gram-negative bacteria. Gene transfer into small genomes and into plasmids is via site-specific recombination. Integrons act as receptors of antibiotic resistance cassettes. There are known more than 50 cassettes conferring resistance to beta-lactams, aminoglycosides, trimethoprim, chloramphenicol, streptomycin, and other antibiotics. The structure of integrons and of gene cassettes are described and the mechanisms of capture, mobilization, and expression of cassettes considered.     

Increased levels of sigJ mRNA in late stationary phase cultures of Mycobacterium tuberculosis detected by DNA array hybridisation

Integrons are genetic elements known for their role in the acquisition and expression of genes conferring antibiotic resistance. Such acquisition is mediated by an integron-encoded integrase, which captures genes that are part of gene cassettes. To test whether integrons occur in environments with no known history of antibiotic exposure, PCR primers were designed to conserved regions of the integrase gene and the gene cassette recombination site. Amplicons generated from four environmental DNA samples contained features typical of the integrons found in antibiotic-resistant and pathogenic bacteria. The sequence diversity of the integrase genes in these clones was sufficient to classify them within three new classes of integron. Since they are derived from environments not associated with antibiotic use, integrons appear to be more prevalent in bacteria than previously observed.     

喹啉降解反应器菌群内整合子检测和菌株耐药性分析

运用PCR技术及克隆文库方法,对一个实验室规模的喹啉降解反应器生物膜系统中的整合子进行了分析。结果表明,在该反硝化喹啉降解反应器的生物膜群落中,整合子携带着丰富多样的基因盒。主要为编码与抗生素耐药性相关的基因盒,如氨基糖苷类耐药基因(aadA基因等),也带有与工业废水环境发现的整合子中可能与芳香族化合物降解有关的基因(如FldF基因)。还有一些功能未知的基因。鉴于耐药性相关基因的广泛存在,对该反应器中分离的优势菌株进行了耐药性分析。结果表明,44.1%的菌株存在耐药性,29.4%的菌株有多重耐药性。它们对4种抗生素的耐药率分别为:氨苄青霉素29.4%、卡那霉素23.5%、氯霉素20.6%、链霉素23.5%。不存在抗生素选择压力环境的微生物群落中分离的群落优势菌株普遍具有抗生素耐药性,而且群落基因组的整合子中携带多种抗生素抗性基因的基因盒。这一现象还未曾见报道,其成因值得进一步研究。     

Class 1 integrons potentially predating the association with tn402-like transposition genes are present in a sediment microbial community

Integrons are genetic elements that contribute to lateral gene transfer in bacteria as a consequence of possessing a site-specific recombination system. This system facilitates the spread of genes when they are part of mobile cassettes. Most integrons are contained within chromosomes and are confined to specific bacterial lineages. However, this is not the case for class 1 integrons, which were the first to be identified and are one of the single biggest contributors to multidrug-resistant nosocomial infections, carrying resistance to many antibiotics in diverse pathogens on a global scale. The rapid spread of class 1 integrons in the last 60 years is partly a result of their association with a specific suite of transposition functions, which has facilitated their recruitment by plasmids and other transposons. The widespread use of antibiotics has acted as a positive selection pressure for bacteria, especially pathogens, which harbor class 1 integrons and their associated antibiotic resistance genes. Here, we have isolated bacteria from soil and sediment in the absence of antibiotic selection. Class 1 integrons were recovered from four different bacterial species not known to be human pathogens or commensals. All four integrons lacked the transposition genes previously considered to be a characteristic of this class. At least two of these integrons were located on a chromosome, and none of them possessed antibiotic resistance genes. We conclude that novel class 1 integrons are present in a sediment environment in various bacteria of the beta-proteobacterial class. These data suggest that the dispersal of this class may have begun before the "antibiotic era."     

Class 1 integrons in Pseudomonas aeruginosa isolates from clinical settings in Amazon region, Brazil

A hundred and six Pseudomonas aeruginosa isolates from clinical cases were screened using PCR for the presence of integrons and associated resistance gene cassettes. Forty-four isolates harboured class 1 integrons (41.5%), of which 29 isolates (66%) also carried gene cassettes. The aacA gene was most frequently found within class 1 integrons (69%), followed by blaOXA family genes (52%). From class 1 integron-positive strains, we detected a total of 15 isolates (34%) carrying no gene cassettes. Restriction fragment-length polymorphism analysis of the integrons variable region revealed some identical structures, as well as distinct profiles indicating heterogeneity among these cassette regions. Multiresistance was observed in 71% of isolates, nevertheless no strong correlation was observed between integron presence and multiresistance. This is the first report showing class 1 integron prevalence and gene cassette content in P. aeruginosa isolates from clinical settings in the Brazilian Amazon.     

Genetic diversity analyses of class 1 integrons and their associated antimicrobial resistance genes in Enterobacteriaceae strains recovered from aquatic habitats in China

Aims: To characterize the molecular diversity of class 1 integrons and antibiotic resistance (AR) genes of Enterobacteriaceae strains recovered from aquatic habitats in Jinan, Shandong Province, China. Methods and Results: Six hundred and thirty‐eight antimicrobial‐resistant Enterobacteriaceae isolated from wastewater were examined for class 1 integron. Of these, 293 were positive for the class 1 integrase gene intI1; among these, 34 gene cassettes and 29 AR genes were detected. Twenty‐nine distinct gene cassette arrays were identified by restriction fragment length polymorphism (RFLP). Seven strains harboring novel gene cassette arrays were subjected to further study, in which antimicrobial susceptibility profiles were determined, and the presence of other AR genes outside of the integrons was assayed. Several of the resistance determinants were found to be transferable by conjugation or transformation. Conclusions: This study established the assessment of class 1 integron and antimicrobial resistance gene patterns among environmental Enterobacteriaceae. Also, a restriction enzyme EcoRII was employed to develop a rapid and simple method for characterizing gene cassette arrays by RFLP analysis, which facilitated further study of novel gene cassette arrays. Significance and Impact of Study: These data not only illustrated the diversity of class 1 integron gene cassettes but also provided direct evidence that integrons mobilized gene cassettes, generating new linkages of resistance genes, and they could be integrated in gene transfer units such as conjugative plasmids to contribute to the dissemination of AR genes by horizontal gene transfer (HGT) in aquatic environments.     

Integrase-directed recovery of functional genes from genomic libraries

Large population sizes, rapid growth and 3.8 billion years of evolution firmly establish microorganisms as a major source of the planet''s biological and genetic diversity. However, up to 99% of the microorganisms in a given environment cannot be cultured. Culture-independent methods that directly access the genetic potential of an environmental sample can unveil new proteins with diverse functions, but the sequencing of random DNA can generate enormous amounts of extraneous data. Integrons are recombination systems that accumulate open reading frames (gene cassettes), many of which code for functional proteins with enormous adaptive potential. Some integrons harbor hundreds of gene cassettes and evidence suggests that the gene cassette pool may be limitless in size. Accessing this genetic pool has been hampered since sequence-based techniques, such as hybridization or PCR, often recover only partial genes or a small subset of those present in the sample. Here, a three-plasmid genetic strategy for the sequence-independent recovery of gene cassettes from genomic libraries is described and its use by retrieving functional gene cassettes from the chromosomal integron of Vibrio vulnificus ATCC 27562 is demonstrated. By manipulating the natural activity of integrons, we can gain access to the caches of functional genes amassed by these structures.     

Molecular characterization of antimicrobial resistance in Salmonella isolated from animals in Japan

Aims:  To investigate the prevalence of integrons and antimicrobial resistance genes in Salmonella recovered from animals in Japan.
Methods and Results:  Forty-eight out of ninety-four (51·1%) Salmonella isolates showed multidrug resistance phenotypes and harboured at least one antimicrobial resistance gene. Twenty-two out of forty-seven (46·8%) Salmonella enterica serovar Typhimurium that were multidrug-resistant were of definitive phage type DT104. Class 1 integrons were identified in 34/94 isolates (36·2%): 21 isolates containing two gene cassettes, aadA2 and bla _PSE–1, and 13 containing one gene cassette, aadA1 , aadA2 or bla _PSE–1. Class 2 integrons containing estX - sat2 - aadA1 gene cassettes were only identified in Salmonella Enteritidis. The β-lactamase-encoding gene, bla _TEM, was only detected in S. Typhimurium. The plasmid-mediated quinolone resistance gene, qnrS1 , was identified in S. Typhimurium and Salmonella Thompson.
Conclusions:  Our results characterized integrons and antimicrobial resistance genes in Salmonella of animal origin. To the best of our knowledge, this is the first report of qnrS in Salmonella from Japan and also the first report of qnrS in S . Thompson.
Significance and Impact of the Study:  Little is known about the molecular basis of antimicrobial resistance in Salmonella isolated from animals. This study provides useful data on the incidence of integrons and resistance genes in Salmonella of animal origin.     

Epidemiology and molecular mechanism of integron-mediated antibiotic resistance in <Emphasis Type="Italic">Shigella</Emphasis>

Integrons are gene capture and expression systems that are characterized by the presence of an integrase gene. This encodes an integrase, a recombined site, and a promoter. They are able to capture gene cassettes from the environment and incorporate them using site-specific recombination. The role of integrons and gene cassettes in the dissemination of multidrug resistance in Gram-negative bacteria is significant. In Shigella species, antimicrobial resistance is often associated with the presence of class 1 and class 2 integrons that contain resistance gene cassettes. Multiple and complex expression regulation mechanisms involving mobile genetic elements in integrons have been developed in the evolution of Shigella strains. Knowledge of the epidemiology and molecular mechanisms of antimicrobial resistance in this important pathogen is essential for the implementation of intervention strategies. This review was conducted to introduce the structures and functions of integrons in Shigella species and mechanisms that control integron-mediated events linked to antibiotic resistance.