MRSA的7种新SCCmec型别及其抗药特性

为探明海口地区耐甲氧西林金黄色葡萄球菌(MRSA)的耐药性和携带的葡萄球菌染色体mec盒(SCCmec)型别,对收集的1174株金黄色葡萄球菌用PBP2a检测法确证为MRSA有686株,用多重PCR对58株进行SCCmec分型测定,并用K-B琼脂扩散法和E-test法测定其对临床常用7类抗生素的代表性药物耐药性。结果在17株中又发现了7种新的SCCmec型别,其结构特点为:New3含A、F、H、M4个位点,New4型含F、H、M3个位点,New5含D、B、M3个位点,New6型含A、B、M3个位点,New7型含H、E、C、M4个位点,New8型含A、M两个位点,New9型含A、C、M3个位点;它们均与报道型别的结构特点存在明显差异;且携带新型的MRSA菌株,其分布特点及抗药性也与已报道的菌株存在差异:多分自门诊病人,且耐药性高,抗药谱较广,值得引起高度重视和关注。     

耐甲氧西林金黄色葡萄球菌染色体盒的研究进展

耐甲氧西林金黄色葡萄球菌（MRSA）的产生是由甲氧西林敏感的金黄色葡萄球菌（MSSA）获得外源性的SCCmec所致。MRSA菌株可以产生一种新的青霉素结合蛋白PBP2a,PBP2a降低了与β-内酰胺类抗生素的亲合力,从而对β-内酰胺类抗生素产生耐药性。PBP2a由mecA基因编码,mecA基因存在于葡萄球菌盒式染色体（Staphylococcal cassette chromosome mec,SCCmec）中,SCCmec是一种可移动的遗传元件,该元件还携带除mecA基因外的其他抗菌药物的耐药基因,造成多重耐药（Multidrug-resistance,MDR）。SCCmec目前主要分为8型,其中又分为若干亚型。SCCmec的基因型与MRSA的流行背景有关,不同地区的SCCmec基因分型分布可能不同。     

耐甲氧西林金黄色葡萄球菌的分子流行病学研究

了解我院患者耐甲氧西林金黄色葡萄球菌（MRSA）的分子流行病学特点,为临床抗感染治疗提供依据。收集2007年1月~2008年9月我院分离的耐甲氧西林金黄色葡萄球菌共54株,采用PCR进行SCCmec基因分型、葡萄球菌A蛋白（SPA）分型,并检测杀白细胞毒素（PVL）基因,同时应用脉冲场凝胶电泳（PFGE）进行同源性分析。54株MRSA菌株SCCmec基因分型为SCCmecⅡ型17株,SCCmecⅢ型33株,SCCmecⅣ型2株,SCCmecⅤ型2株;SPA基因分型将28株归属为t030,9株为t002,8株为t037,5株为t570,2株为t437,t163和t796各1株;PVL毒素检测只有2株SCCmecⅣ型菌株阳性;PFGE证实院内MRSA感染主要为2种克隆株传播,同时还有其他型别出现。本院MRSA流行传播的SCCmec基因型主要以Ⅲ型占优势,同时发现有携带PVL毒素的CA-MRSA分离株流行,应引起密切关注。     

金黄色葡萄球菌所致肺部感染的耐药特点及其Panton—Valentine杀白细胞素基因的携带状况分析

目的分析金黄色葡萄球菌所致肺部感染的耐药性特点及其Panton—Valentine杀白细胞素基因的携带状况。方法回顾性调查了温州医学院第一附属医院2005年1月至2006年1月医院感染的金黄色葡萄球菌所致肺部感染患者132例,对其体外药敏试验进行分析;并利用多重PCR检测其PVL基因,应用多位点基因序列分型（multilocus sequence typing,MLST）技术对PVL基因阳性的菌株进行序列分型。耐甲氧西林金黄色葡萄球菌（methicillin-resistant Staphylococcus aureus,MRSA）的SCCmec基因分型采用多重聚合酶链反应。结果致肺部感染的132株金黄色葡萄球菌的耐药现象较为严重,仅对万古霉素、呋喃妥因及复方新诺明等药物的敏感率较高;其中经多重PCR筛选出10株携带PVL基因的金葡菌,全部为MRSA菌株,3株为ST239-SCCⅢ,2株为ST398-SCCmecⅢ,2株为ST398-SCCmecⅣ,ST25-SCCmecⅢ、ST59-SCCmecⅠ和ST88-SCCmecⅢ各1株。结论肺部感染的金黄色葡萄球菌对多种抗生素耐药,呈多重耐药性;其携带PVL基因占一定比例。     

临床分离耐甲氧西林溶血性葡萄球菌的SCCmec分型及同源性分析

目的了解临床分离耐甲氧西林溶血性葡萄球菌（MRSH）的SCCmec基因型别及相同SCCmec型别菌株的同源性。方法多重PCR进行SCCmec分型,ERIC-PCR法对相同SCCmec型别菌株进行同源性分析。结果83株临床分离MRSH菌株中,SCCmecI型有23株（27．7％）,SCCmecⅡ型有10株（12．1％）,SCCmecm型有24株（28．9％）,SCCmecIV型有1株（1．2％）,I、Ⅱ混合型有8株（9．6％）,I、Ⅲ混合型有6株（7．2％）,Ⅱ、11混合型有5株（6．0％）,I、Ⅱ、Ⅲ混合型有3株（3．6％）,未分型3株（3．6％）。ERIC—PCR结果显示,23株SCCmecI型分为11型,其中A型5株,B型5株,C型3株,其余8株各为1型,2株未分型;10株SCCmecⅡ型分为6型,其中D型4株,E型2株,3株各为1型,1株未分型;24株SCCmecm型分为9型,其中F型11株,G型2株,H型2株,I型2株,5株各为1型,2株未分型。结论临床分离MRSH中,SCCmecI、Ⅲ型为多,部分菌株呈混合型别;相同SCCmec型别的部分菌株之间可能存在克隆传播。     

MRSA的7种新SCCmec型别及其抗药特性

为探明海口地区耐甲氧西林金黄色葡萄球菌(MRSA)的耐药性和携带的葡萄球菌染色体mec盒(SCCmec)型别,对收集的1174株金黄色葡萄球菌用PBP2a检测法确证为MRSA有686株,用多重PCR对58株进行SCCmec分型测定,并用K-B琼脂扩散法和E-test法测定其对临床常用7类抗生素的代表性药物耐药性。结果在17株中又发现了7种新的SCCmec型别,其结构特点为:New3含A、F、H、M4个位点,New4型含F、H、M3个位点,New5含D、B、M3个位点,New6型含A、B、M3个位点,New7型含H、E、C、M4个位点,New8型含A、M两个位点,New9型含A、C、M3个位点;它们均与报道型别的结构特点存在明显差异;且携带新型的MRSA菌株,其分布特点及抗药性也与已报道的菌株存在差异:多分自门诊病人,且耐药性高,抗药谱较广,值得引起高度重视和关注。     

类SCC样甲氧西林敏感性金黄色葡萄球菌的基因组学分析

金黄色葡萄球菌(Staphylococcus aureus, S. aureus), 作为一种常见的致病菌常可导致严重感染性疾病. 金黄色葡萄球菌的主要特点是易产生耐药性. 临床上运用多重PCR方法对S. aureus耐药菌株进行分型. SCC作为一种mecA基因的转运载体, 介导金黄色葡萄球菌产生耐药性. 本研究报道了一株新甲氧西林敏感性金黄色葡萄球菌的全基因组序列信息, 即类SCC样MSSA463菌株, 经多重PCR方法, 该菌株被误鉴定为耐甲氧西林金黄色葡萄球菌, 结果与药敏结果相冲突. 为此, 运用焦磷酸测序方法完成了该菌株的全基因组测序, 并与已知金黄色葡萄球菌的基因组序列信息不同, 发现可读框(CZ049; AB037671)存在于attL, attR反向重复序列的临近下游. 这些结果提示, 在金黄色葡萄球菌与其他微生物之间可能存在一种水平基因转移, 并改变了金黄色葡萄球菌对药物的敏感性, 推测attL, attR反向重复序列可能作为外源性基因的插入部位而存在.     

SCCmec遗传元件及其在耐甲氧西林金黄色葡萄球菌分子分型中的应用

携带mec基因簇的葡萄球菌盒式染色体(Staphylococcal chromosome cassette mec, SCCmec)遗传元件的获得是耐甲氧西林金黄色葡萄球菌(Methicillin-resistant Staphylococcus aureus, MRSA)耐药的主要原因。SCCmec由一个mec基因簇、一个染色体重组酶(ccr)基因簇及3个J区组成。mec基因簇含有mecA及其调控基因,mecA基因编码的耐药决定簇使MRSA对β-内酰胺类抗生素耐药;ccr基因簇编码的重组酶负责SCCmec元件的整合与切离;J区差异大,导致不同来源MRSA菌株携带SCCmec的大小不一,在组成上也具有多样性。这些特征为利用SCCmec元件进行MRSA分型创造了条件。文章介绍了SCCmec元件的结构和功能,综述了基于SCCmec的MRSA分型研究。     

我国社区儿童皮肤感染金黄色葡萄球菌的耐药研究

为分析我国社区儿童皮肤感染来源的金黄色葡萄球菌流行特点及耐药现状,明确社区获得性耐甲氧西林金黄色葡萄球菌(CA-MRSA)中mecA基因携带情况及葡萄球菌盒式染色体SCCmec基因分型情况,并为临床治疗选择合理而有效的治疗方案提供依据,本文对全国13家儿童医院1 416例皮肤感染患儿的皮损分泌物进行细菌培养,应用琼脂稀释法检测16种抗生素对培养出的金黄色葡萄球菌的最小抑菌浓度,应用聚合酶链式反应对CA-MRSA进行mecA基因检测及SCCmec基因分型。从1 416例患儿皮损中培养出金黄色葡萄球菌1 043株,对16种抗生素的药敏试验结果显示,耐药率前3位依次为红霉素97.3%,青霉素96.7%,克林霉素89%,其次为四环素42.2%、氯霉素15%、庆大霉素9.8%、环丙沙星6.6%、复方新诺明4.6%、苯唑西林3.4%、头孢呋辛3.1%、利福平2.4%、头孢曲松1.7%、头孢唑啉1.6%、夫西地酸1.3%、莫匹罗星0.8%。CA-MRSA分离率为3.4%,各地区均未发现万古霉素耐药或中介耐药菌株。35株CA-MRSA均携带mecA基因,SCCmec基因分型结果为Ⅳ型14株（40%）、Ⅴ型19株（54.3%）、未定型2株（5.7%）。本研究提示,治疗我国社区儿童皮肤金黄色葡萄球菌感染性疾病,仍首选全身应用耐青霉素酶的半合成青霉素和第1、2代头孢菌素,其他可选择的有夫西地酸、复方新诺明、利福平、万古霉素,外用治疗选择莫匹罗星,具有较好的抗菌活性。我国儿童CA-MRSA中mecA携带率100%,SCCmec Ⅳ和Ⅴ型为主要类型。     

金黄色葡萄球菌的耐药性分析及基因分型研究

目的通过分析上海地区院内分离金黄色葡萄球菌的药敏谱型及对耐甲氧西林的金黄色葡萄球菌（MRSA）进行基因谱型的研究,了解金黄色葡萄球菌的院内流行状况。方法对临床分离出的43株金黄色葡萄球菌进行药敏试验和SCCmec基因盒的多重PCR检测,并将结果整合后用MEGA3．1软件分析其进化相关关系。结果药敏结果显示43株金葡菌对青霉素和甲氧西林的耐药率最高。甲氧西林的耐药率达到62．8％。MecA阳性菌株SCCmec的分型显示均为Ⅱ型或Ⅲ型,且所占比例相近,未见Ⅰ型和Ⅳ型。进化树分析发现了在同一医院中亲缘关系相近的菌株,为院内感染流行株。结论MecA基因介导的MRSA在分离菌株中所占比例高,存在院内感染爆发性流行。     

Identification in methicillin-susceptible Staphylococcus hominis of an active primordial mobile genetic element for the staphylococcal cassette chromosome mec of methicillin-resistant Staphylococcus aureus

We previously reported that the methicillin resistance gene mecA is carried by a novel type of mobile genetic element, SCCmec (staphylococcal cassette chromosome mec), in the chromosome of methicillin-resistant Staphylococcus aureus (MRSA). These elements are precisely excised from the chromosome and integrated into a specific site on the recipient chromosome by a pair of recombinase proteins encoded by the cassette chromosome recombinase genes ccrA and ccrB. In the present work, we detected homologues of the ccr genes in Staphylococcus hominis type strain GIFU12263 (equivalent to ATCC 27844), which is susceptible to methicillin. Sequence determination revealed that the ccr homologues in S. hominis were type 1 ccr genes (ccrA1 and ccrB1) that were localized on a genetic element structurally very similar to SCCmec except for the absence of the methicillin-resistance gene, mecA. This genetic element had mosaic-like patterns of homology with extant SCCmec elements, and we designated it SCC(12263) and considered it a type I staphylococcal cassette chromosome (SCC). The ccrB1 gene identified in the S. hominis strain is the first type 1 ccrB gene discovered to retain its function through the excision process as judged by two criteria: (i) SCC(12263) was spontaneously excised during cultivation of the strain and (ii) introduction of the S. hominis ccrB1 into an MRSA strain carrying a type I SCCmec whose ccrB1 gene is inactive generated SCCmec excisants at a high frequency. The existence of an SCC without a mec determinant is indicative of a staphylococcal site-specific mobile genetic element that serves as a vehicle of transfer for various genetic markers between staphylococcal species.     

Molecular characterization of methicillin-resistant Staphylococcus aureus in hospitals in Niigata, Japan: divergence and transmission

The major methicillin-resistant Staphylococcus aureus(MRSA) distributed among hospitals in Japan is New York/Japan clone [multilocus sequence type 5 (ST5), agr type 2 and methicillin resistance locus type (SCC mec) II] which possesses both the toxic shock syndrome toxin 1 gene (tst) and staphylococcal enterotoxin C gene (sec). In this study, we collected 245 MRSA strains from four hospitals during 2001 to 2005 in Niigata, Japan, and analyzed tst and sec genes and SCC mec type among them. A total of 13 strains were further examined for their genotypes, virulence gene patterns and drug resistance. Among the 245 strains four tst sec genes patterns were observed; tst(+) sec(+) strains represented a majority of 86.5% and 9.4% were tst(-) sec(-). SCCmec typing revealed that 91.4% had type II, 4.1% type IV and 4.1% type I. Multilocus sequence typing (MLST) revealed that 10 of the 13 typed strains belonged to clonal complex 5 (7 had ST5 while 3 were single locus variants of ST5) with similar characteristics to the New York/Japan clone and possessed multi-drug resistance with high virulence gene content. The remaining 3 strains were ST8 (n=2) and ST91 (n=1). The ST91 strain had SCC mec IV and seemed to originate in the community, while ST8 strains exhibited SCC mec type I, which is distinct from community type IV. The data suggest that MRSA in hospitals in Niigata now mainly includes the New York/Japan clone (undergoing genomic divergence and clonal expansion) and other minor types (e.g. ST8) as well as the community type.     

Jumping the barrier to beta-lactam resistance in Staphylococcus aureus

Although the staphylococcal methicillin resistance determinant, mecA, resides on a mobile genetic element, staphylococcus cassette chromosome mec (SCCmec), its distribution in nature is limited to as few as five clusters of related methicillin-resistant Staphylococcus aureus (MRSA) clones. To investigate the potential role of the host chromosome in clonal restriction of the methicillin resistance determinant, we constructed plasmid pYK20, carrying intact mecA, and introduced it into several methicillin-susceptible Staphylococcus aureus strains, five of which were naive hosts (i.e., mecA not previously resident on the host chromosome) and five of which were experienced hosts (i.e., methicillin-susceptible variants of MRSA strains from which SCCmec was excised). We next assessed the effect of the recipient background on the methicillin resistance phenotype by population analysis, by assaying the mecA expression of PBP2a by Western blot analysis, and by screening for mutations affecting mecA. Each experienced host transformed with pYK20 had a resistance phenotype and expressed PBP2a similar to that of the parent with chromosomal SCCmec, but naive hosts transformed with pYK20 selected against its expression, indicative of a host barrier. Either inducible beta-lactamase regulatory genes blaR1-blaI or homologous regulatory genes mecR1-mecI, which control mecA expression, acted as compensatory elements, permitting the maintenance and expression of plasmid-carried mecA.     

Distribution and regulation of the mobile genetic element-encoded phenol-soluble modulin PSM-mec in methicillin-resistant Staphylococcus aureus

The phenol-soluble modulin PSM-mec is the only known staphylococcal toxin that is encoded on a mobile antibiotic resistance determinant, namely the staphylococcal cassette chromosome (SCC) element mec encoding resistance to methicillin. Here we show that the psm-mec gene is found frequently among methicillin-resistant Staphylococcus aureus (MRSA) strains of SCCmec types II, III, and VIII, and is a conserved part of the class A mec gene complex. Controlled expression of AgrA versus RNAIII in agr mutants of all 3 psm-mec-positive SCCmec types demonstrated that expression of psm-mec, which is highly variable, is controlled by AgrA in an RNAIII-independent manner. Furthermore, psm-mec isogenic deletion mutants showed only minor changes in PSMα peptide production and unchanged (or, as previously described, diminished) virulence compared to the corresponding wild-type strains in a mouse model of skin infection. This indicates that the recently reported regulatory impact of the psm-mec locus on MRSA virulence, which is opposite to that of the PSM-mec peptide and likely mediated by a regulatory RNA, is minor when analyzed in the original strain background. Our study gives new insight in the distribution, regulation, and role in virulence of the PSM-mec peptide and the psm-mec gene locus.     

Prospective surveillance of community-onset and healthcare-associated methicillin-resistant Staphylococcus aureus isolated from a university-affiliated hospital in Japan

We conducted a prospective comparative study of community-onset (CO) and healthcare-associated (HA) methicillin-resistant Staphylococcus aureus(MRSA) strains between 2000 and 2001 at Tokyo Women's Medical University Hospital (1,500 beds) in Japan. Of the 172 consecutive MRSA isolates analyzed, 13 (8%) were categorized as CO-MRSA. The mean age of patients with CO-MRSA was significantly younger than that of patients with HA-MRSA. Most CO-MRSA strains were isolated from skin and more likely to be susceptible to erythromycin, clindamycin, tetracycline, levofloxacin, and spectinomycin compared to HA-MRSA isolates. Pulsed-field gel electrophoresis (PFGE) analysis, staphylococcal cassette chromosome mec(SCCmec) typing, and multi-locus sequence typing (MLST) revealed that CO-MRSA strains were divided into the following multi-clones: 3 clone A: II: ST5 (PFGE type: SCCmec type: MLST sequence type); 1 L: II: ST5; 1 H: IV: ST1; 1 I: IV: ST81; 2 D: IV: ST8; 1 B: IV: ST89; 1 B: IV: ST379; and 3 B: IV: ST91. Of the 159 HAMRSA strains, 124 (78%) belonged to a single clone (PFGE clone A: SCCmec type II: tst and sec positive: coagulase type II: multi-drug resistance). Four CO-MRSA strains belonging to PFGE clone B: SCCmec type IV: MLST clonal complex 509 (ST89, 91, 379) had the exfoliative toxin B (etb) genes, but all CO-MRSA and HA-MRSA strains did not possess the Panton-Valentine leukocidin (pvl) genes. These results demonstrate that multiple lineages of CO-MRSA have the potential for dissemination in the community in Japan.     

Characterisation of virulence genes in methicillin susceptible and resistant Staphylococcus aureus isolates from a paediatric population in a university hospital of Medellín, Colombia

Virulence and antibiotic resistance are significant determinants of the types of infections caused by Staphylococcus aureus and paediatric groups remain among the most commonly affected populations. The goal of this study was to characterise virulence genes of methicillin-susceptible S. aureus (MSSA) and methicillin-resistant S. aureus (MRSA) strains isolated from a paediatric population of a Colombian University Hospital during 2009. Sixty MSSA and MRSA isolates were obtained from paediatric patients between zero-14 years. We identified the genes encoding virulence factors, which included Panton-Valentine leucocidine (PVL), staphylococcal enterotoxins A-E, exfoliative toxins A and B and toxic shock syndrome toxin 1. Typing of the staphylococcal chromosome cassette mec (SCCmec) was performed in MRSA strains. The virulence genes were more diverse and frequent in MSSA than in MRSA isolates (83% vs. 73%). MRSA strains harboured SCCmec types IVc (60%), I (30%), IVa (7%) and V (3%). SCCmec type IVc isolates frequently carried the PVL encoding genes and harboured virulence determinants resembling susceptible strains while SCCmec type I isolates were often negative. PVL was not exclusive to skin and soft tissue infections. As previously suggested, these differences in the distribution of virulence factor genes may be due to the fitness cost associated with methicillin resistance.