健康猪直肠粪便中沙门菌I类整合子与耐药基因的检测

目的了解安徽省规模化猪场健康猪直肠粪便中沙门菌分离株多重耐药情况及其与I类整合子和耐药基因的携带关系。方法采用标准K-B纸片法对22株沙门菌分离株进行15种抗生素敏感试验;应用PCR技术对沙门菌分离株进行I类整合子及耐药基因检测。结果 22株沙门菌分离株中有20株(90.91%)对2种以上抗生素耐药,属于多重耐药株,羧氨苄青霉素-四环素-卡那霉素-氯霉素-氟苯尼考是主要多重耐药谱;22株沙门菌中有19株(86.4%)携带I类整合子,tetB、aph(3)-IIa和cmlA基因分别检出最高。结论沙门菌多重耐药性与整合子携带之间的关系密切,耐药表型测定结果与耐药基因检测结果基本一致,基因组DNA携带的耐药基因种类多于质粒。     

伤寒沙门菌耐药质粒体内接合转移的研究

目的研究伤寒沙门菌耐药质粒pRST98在小鼠体内向大肠埃希菌的接合转移,比较质粒在体内、外接合转移的异同。方法由于伤寒沙门菌是一种只对人类致病的病原菌,因此将伤寒沙门菌的耐药质粒pRST98导入遗传背景明确的鼠伤寒沙门菌低毒株RIA中,用接合子pRST98/RIA口饲BALB/c小鼠进行体内接合转移。结果在体外伤寒沙门菌很容易将pRST98转移给大肠埃希菌E.coliK12W1485(F-)RifrLac+,该接合子又可将pRST98转移给鼠伤寒沙门菌RIA,但在不同宿主菌中耐药标志的表达有差异。未经人工感染小鼠肠道分离的大肠埃希菌耐药情况严重,口饲pRST98/RIA后出现了部分耐药标志与pRST98耐药谱相同的大肠埃希菌,但有些抗生素的耐药标记未能表达。质粒检测显示体内形成的接合子均含耐药质粒pRST98。结论伤寒沙门菌耐药质粒pRST98在动物体内、外均可转移给大肠埃希菌,但同一质粒在体内、外大肠埃希菌株中耐药标志表达有差异,即使在同一小鼠体内分离的不同接合子,pRST98/E.coli菌株耐药性亦有不同,显示耐药质粒表达的多样性和复杂性。     

一株猪源鼠伤寒沙门氏菌的耐药性鉴定及其消除

猪源鼠伤寒沙门氏菌临床分离株17Y,检测其对19种抗生素的耐药性,结果耐14种抗生素。用高温及高浓度SDS处理后,获得对11种抗生素的敏感性,该菌株命名为17S1。PCR检测证明,大部分耐药基因存在于质粒上,包括I型整合子携带耐药基因,且随着质粒的消除而被消除。所鉴定的耐药基因有blaTEM、blaOXA-1、cat1、tet(B)、aacC2、aadA8b、dhfrXⅡ和sul1等。喹诺酮类药物的靶基因gyrA与parC位于染色体上。GyrA在耐药决定区第87位氨基酸突变(N78D),导致了喹诺酮类药物的耐药性逆转。敏感菌中扩增不到质粒毒力基因spv与rck。耐药性消除后的菌株17S1对小鼠的毒力降低(LD50增加10倍),在小鼠体内的增长与散速度也显著降低(P<0.05)。以上证据表明,鼠伤寒沙门氏菌的多重耐药性主要由质粒决定,研究开发新型质粒消除剂将对克服鼠伤寒沙门氏菌多重耐药性具有重要意义。     

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。     

整合子与细菌耐药性

整合子是携带编码抗生素耐药基因盒的DNA片段,在细菌获得和传播耐药基因方面起着重要的作用。本文对整合子和基因盒种类、结构以及在耐药基因获得和传播中的作用机制进行了综述。     

整合子与细菌耐药性的相关研究进展

整合子是广泛存在于细菌中的一种可移动基因元件,它可以捕获外来基因盒并使其在细菌体内得到表达,在细菌耐药性的传播过程中扮演着重要角色。过去研究认为,细菌耐药是在质粒及转座子~([1])等基因水平上广泛传播,近几年大量研究表明,细菌可通过位点特异性重组的方式将耐药基因盒捕获并整合到自身的染色体或者质粒DNA上,即细菌体内存在一种天然的基因克隆表达系统——整合子。细菌耐药的高频次出现已成为临床医疗工作中的瓶颈,整合子不仅在细菌耐药中起关键作用,而且在细菌适应性及基因进化中具有普遍又重要的意义。     

大肠埃希菌耐药性水平传播实验研究

目的研究重症监护病房（ICU）患者标本中分离的大肠埃希菌的耐药情况以及耐药性水平传播的实验研究。方法采取双纸片法（K-B）检测细菌的耐药性;产超广谱β-内酰胺酶（ESBLs）大肠埃希菌为供体菌,耐利福平大肠埃希菌（对其他抗生素敏感）作为受体菌进行接合实验;采用聚合酶链反应（PCR）技术扩增整合子和耐药基因。结果30株大肠埃希菌中产ESBLs菌株检出率为46．7％;接合培养后,接合菌携带23kb和25kb大质粒,而无供体菌中一系列小质粒;供体菌和接合菌均携带I型整合子。结论大肠埃希菌耐药性严重,且呈多重耐药性;产ESBLs菌株可通过质粒和整合子将耐药基因转移给敏感菌,导致耐药性传播。     

整合子与多重耐药大肠埃希菌相关性研究

目的探讨整合子在多重耐药大肠埃希菌耐药性中的作用。方法对临床分离的93株多重耐药大肠埃希菌的I、Ⅱ型整合酶基因进行检测,并分析药敏结果。结果多重耐药临床分离株中Ⅰ型整合子阳性率为60.2%。所检出整合子共有3种长度即1000、1600和2000 bp;主要携带aadA和dfrA类基因盒;未检出Ⅱ型整合子。结论整合子形成是细菌产生多重耐药的重要原因。     

大连市伤寒沙门菌耐药性及耐药基因分析

目的检测多重耐药伤寒沙门菌对抗菌药物的敏感性及其耐药基因携带情况,为伤寒沙门菌引起的腹泻治疗提供科学依据。方法采用微量肉汤稀释的方法测定大连地区临床分离的78株伤寒沙门菌对12种抗生素的敏感性;用PCR方法检测TEM型β内酰胺酶基因、catA和catB氯霉素乙酰基转移酶基因以及cmlA氯霉素外排泵蛋白基因、aac(6′)Ⅰb和aac3Ⅱ型氨基糖苷类修饰酶基因、qacEΔ1sul1耐消毒剂和磺胺基因、多重耐药外排基因acrB等8种耐药基因。结果78株沙门菌对12种药物有不同程度耐药(1.28%~74.35%)。得到9株多重耐药菌株,其中5株检出TEM型β内酰胺酶基因;7株耐氯霉素的伤寒沙门菌菌株中,2株仅检出catA基因,1株仅检出catB基因,1株仅检出cmlA氯霉素外排泵蛋白基因,2株同时检出catA基因和cmlA氯霉素外排泵蛋白基因;2株检出aac(6′)Ⅰb基因,1株检出aac3Ⅱ型氨基糖苷类修饰酶基因;4株检出耐消毒剂和磺胺基因qacEΔ1sul1;6株检出多重耐药外排基因acrB。结论大连地区临床分离的伤寒沙门菌存在严峻的耐药现象,多种耐药基因存在于耐药伤寒沙门菌中,可能是导致菌株对多种抗菌药物耐药的原因。     

质粒介导的喹诺酮耐药基因qnr的分类、耐药机制及其在国内的流行状况北大核心CSCD

喹诺酮类抗菌药物从早期主要用于治疗尿道感染发展到后来治疗肠道感染和呼吸道感染,目前已在临床、畜牧业和水产业中广泛使用,细菌对其耐药性也逐渐呈蔓延趋势,耐药机制日趋复杂。喹诺酮类耐药机制主要分为染色体介导的耐药和质粒介导的耐药,后者对细菌耐药性的广泛传播起着重要作用。1998年首次报道了质粒介导的喹诺酮类耐药机制,即质粒上qnr基因介导的细菌对氟喹诺酮耐药机制,qnr基因可在不同细菌中迅速水平传播,引发的感染不易控制,使得院内感染大范围的流行。此外,qnr基因通常与β-内酰胺类耐药基因相关或存在于复杂整合子中与其它多重耐药基因共同整合,缩小了临床医生治疗相关细菌感染时选药或联合用药的空间,给我们带来了严峻的挑战。本文就qnr基因的发现历史、耐药机理及在国内的流行状况做了详细概述。     

A comparison of antibiotic resistance integrons in cattle from separate beef meat production systems at slaughter

Aims: To compare antibiotic resistance integrons in cattle from three separate grass‐fed, grain‐fed and certified organic cattle production systems at slaughter. Methods and Results: In this study 198 samples from three separate cattle production systems were tested by PCR for the presence of class 1 and class 2 integrons. Integron‐containing bacteria were readily isolated from pen faeces and hide samples regardless of production system. Lower numbers of integron‐containing bacteria were isolated from the remaining sample types. Ninety‐one class 1 and 34 class 2 integron‐containing bacteria were isolated. Characterization of the integrons demonstrated a high degree of similarity across the three production systems with aadA1 and aadA2 routinely present. Integrons harbouring the cassette array cmlA5–bla_OXA‐10–aadA1 and the putative insertion sequence IS1066 were isolated from organic and grass‐fed cattle and have not been described previously. Conclusions: Integrons carrying antibiotic resistance genes were common in cattle from differing production systems at slaughter and the likelihood of presence appears unrelated to the production system. Significance and Impact of the Study: Similar integron arrays are present in different cattle production systems suggesting that their presence may be independent of production practices. This is the first report of two novel integron structures present in Aeromonas.     

Four Novel Resistance Integron Gene-Cassette Occurrences in Bacterial Isolates from Zhenjiang, China

Integrons, which are widely distributed among bacteria and are strongly associated with resistance, are specialized genetic elements that are capable of capturing, integrating, and mobilizing gene cassette. In this work, we investigated classes 1, 2, and 3 integrons associated integrases genes in 365 bacteria isolates, amplified and analyzed the structure of class 1 integron, detected 8 resistant gene cassettes [dfr17, aadA5, aadA1, aadA2, dhfrI, aadB, aac(6′)-II, and pse-I], and found four novel gene-cassette arrays. We also found that commensal bacteria in the common microenvironment had the same integron gene cassette, which provided direct evidence that integron was an important horizontal transmission element.     

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.     

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.     

Simultaneous PCR Detection of Multiple Classes of Integron Integrase Genes for Determining the Presence of Multidrug-Resistant Bacteria in Environmental Samples

Dissemination of multidrug-resistant bacteria, particularly in hospitals, has become a serious public health problem. Integrons impart antibiotic multidrug resistance in gram-negative and some gram-positive bacteria by capturing and then disseminating antibiotic resistance genes. This mechanism plays a major role in contributing to the alarmingly high prevalence of bacterial drug resistance. A universal polymerase chain reaction (PCR) primer set was attempted to design to more sensitively and specifically detect integrons in environmental samples. One set, designated intCiF3_a, intCiF3_b, intCiiiR3_a, and intCiiiR3_b, simultaneously amplifies the conserved region of the tyrosine recombinase gene family between box I and box II. This primer set generates PCR products derived from classes 1, 2, and 3 integron integrases from environmental samples such as wastewater. An unexpected finding of this study was the detection of new putative integron integrase gene sequences. This is the subject of ongoing research, which aims to provide a clear understanding of the risk to human health posed by these genetic elements.     

Salmonella enterica isolates from pasture‐raised poultry exhibit antimicrobial resistance and class I integrons

Aims: While considerable foodborne pathogen research has been conducted on conventionally produced broilers and turkeys, few studies have focused on free‐range (organic) or pastured poultry. The current surveillance study was designed to isolate, identify and genetically characterize Salmonella from pastured poultry farm environment and from retail samples. Methods and Results: In this study, 59 isolates were collected from two pastured poultry farms (n = 164; pens, feed, water and insect traps) and retail carcasses (n = 36) from a local natural foods store and a local processing plant. All isolates were serotyped and analysed phenotypically (antimicrobial resistance profiles) and genotypically (DNA fingerprints, plasmid profiles and integron analysis). Salmonella enterica was detected using standard microbiological methods. Salmonella Kentucky was the most prevalent serotype detected from the sampled sources (53%), followed by Salmonella Enteritidis (24%), Bareilly (10%), Mbandaka (7%), Montevideo (5%) or Newport (2%). All isolates were resistant to sulfisoxazole and novobiocin, and the majority (40/59) possessed class I integrons shown by PCR detection. Each Salmonella serotype elicited a distinct pulsed‐field gel electrophoresis fingerprint profile, and unique differences were observed among the serotypes. Conclusions: The findings of this study show that Salmonella serotypes isolated from pasture‐raised poultry exhibit antimicrobial resistance and class I integrons. Significance and Impact of the Study: This study demonstrates that despite the cessation of antibiotic usage in poultry production, antibiotic resistant Salmonella may still be recovered from the environment and poultry products.     

The identification of CTX-M-14, TEM-52, and CMY-1 enzymes in Escherichia coli isolated from the Han River in Korea

From water samples collected monthly between 2000 and 2001 from the Han River in Seoul, sixteen strains of Escherichia coli which confer resistance to at least 10 kinds of antimicrobial agents were isolated. From these isolates, 2 kinds of extended-spectrum β-lactamases (ESBLs) and one plasmid-mediated AmpC β-lactamase were detected; CTX-M-14 from 10 isolates, TEM-52 from 5 isolates, and CMY-1 from one isolate. Class 1 integron gene cassettes, such as aadA1, dfr12-orfF-aadA2, and dfr17-aadA5, were also detected and the integrons are the same as those found in E. coli isolated from swine, poultry, and humans in Korea. The result of this study indicated the importance of river water as a reservoir for antimicrobial resistance genes and resistant bacteria.