PCR Detection of Virulence Genes Colv,Stxs and HlyE of Escherichia coli

[Objective] This study aimed to explore the presence of three causative genes Colv,Stxs and HlyE of the pathogenic E.coli from chickens,pigs and food.[Method] By using 44 E.coli strains from chickens,24 from pigs and 26 from food as the experimental materials,virulence genes Colv,Stxs（stx2,stx2e） and HlyE were detected with polymerase chain reaction（PCR） method.[Result] Among all the E.coli strains,the detection rate of Colv was 25% from chickens,4.2% from pigs,and 0 from food;the detection rate of Stx2（Stx2e） from all E.coli strains was 0;the detection rate of HlyE was 2.27% from chickens,0 from pigs,and 11.5% from food.[Conclusion] Virulence gene Colv shows relatively high carrying rate in E.coli from chickens and pigs;HlyE also shows a certain degree of presence in E.coli from chickens and food.

Comparison of extended spectrum β-lactamasesproducing Escherichia coli with non-ESBLsproducing E.coli:drug-resistance and virulence

The virulent factors of Escherichia coil （E.cofi） play an important role in the process of pathopoiesis. The study aimed to compare drug-resistant genes and virulence genes between extended spectrum β-1actamases （ESBLs）-producing E.coli and non-ESBLs-producing E.cofi to provide a reference for physicians in management of hospital infection. From October 2010 to August 2011,96 drug-resistant strains of E. coli isolated were collected from the specimens in Qingdao Municipal Hospital, Qingdao, China. These bacteria strains were divided into a ESBLs-producing group and a non-ESBLs-producing group. Drug sensitivity tests were performed using the Kirby-Bauer （K-B） method. Disinfectant gene, qacEAl-sull and 8 virulence genes （CNF2, hlyA, eaeA, VT1, est, bfpA, elt, and CNF1） were tested by polymerase chain reaction （PCR）. Among the 96 E.coli isolates, the ESBLs-producing E.coli comprised 46 （47.9%） strains and the non-ESBLs-producing E.cofi consisted of 50 （52.1%） strains. The detection rates of multiple drug-resistant strain, qacEAl-sull, CNF2, hlyA, eaeA,VT1, est, bfpA, elt, and CNF1 in 46 ESBLs-producing E.coli isolates were 89.1%, 76.1%, 6.5%, 69.6%, 69.6%, 89.1%, 10.9%, 26.1%, 8.7%, and 19.6%, respectively. In the non-ESBLs-producing E.cofi strains, the positive rates of multiple drug-resistant strain, qacEAl-sull, CNF2, hlyA, eaeA, VT1, est, bfpA, elt, and CNF1 were 62.0%, 80.0%, 16.0%, 28.0%, 64.0%, 38.0%, 6.0%, 34.0%, 10.0%, and 24.0%, respectively. The difference in the detection rates of multiple drug-resistant strain, hlyA and VT1 between the ESBLs-producing E.cofi strains and the non-ESBLs-producing E.cofi strains was statistically significant （P〈0.05）. The positive rate of multiple drug-resistant strains is higher in the ESBLs-producing strains than in the non-ESBLs-producing strains. The expression of some virulence genes hlyA and VT1 varies between the ESBLs-producing strains and the non-ESBLs-producing strains. Increased awareness of clinicians and enhanced testing by laboratories are required to reduce treatment failures and prevent the spread of multiple drug-resistant strains.

Distribution of Virulence-Associated Genes of Avian Pathogenic Escherichia coli Isolates in China

216 avian pathogenic Escherichia coli （APEC） isolates were obtained from poultry with colibacillosis in different areas of China. Among them, 195 were serotyped as 078, 088, and 093. Thirteen virulence-associated genes, including fimC, iucD, iss, tsh, fyuA, irp2, eaeA, hlyE, colV, papC, stx2f, vat, and astA, were submitted to PCR amplification. The fimC gene was the most prevalent with a detection rate of 93.6%, followed by iucD （70.8%）, iss （58.8%）, and tsh （51.4%） in APEC isolates. The detection rate of high pathogenicity islands （HPI）-associatedfyuA and irp2 genes were both 44.9%, with no LEE （the locus of enterocyte effacement） island-associated gene eaeA detected. In terms of distribution patterns of the 13 virulence-associated genes, 5 isolates harborbed 10 genes, 19 isolates contained onlyfimC gene, and only 4 isolates had no virulence-associated gene detected. Different correlations of the virulence-associated genes with O serotypes were also investigated and 50% 078 isolates had a gene distribution patterns of fimC^＋iucD^＋irp2^＋fyuA^＋iss^＋colV^＋tsh^＋.

The Pathogenicity of Chicken Pathogenic <i>Escherichia coli</i>Is Associated with the Numbers and Combination Patterns of Virulence-Associated Genes

Various virulence-associated genes or pathogenicity island are responsible for determining the pathogenicity of Escherichia coli strains. However, the correlation of the number and combination patterns of virulence-associated genes in Escherichia coli strains with their pathogenicity remains largely unknown. In this work, 581 chicken Escherichia coli strains were isolated from 1045 liver samples of dead chickens from 50 chicken farms at four provinces in China during 2007-2012. Based on the pathogenic test of SPF chickens, 320 chickens pathogenic Escherichia coli isolates were identified as highly (n = 193), intermediate (n = 98) and low pathogenic (n = 29) strains, respectively. Furthermore, the number of virulence genes in the 320 chicken pathogenic and 50 non-pathogenic Escherichia coli strains was examined. Our results reveal that thirteen virulence genes in Escherichia coli strains were detected, and all strains carried at least two or more than two virulence-associated genes. This study also suggests that highly pathogenic E. coli strains simultaneously carried at least 8 to13 virulence genes while intermediate pathogenic strains carried at least 5 to 8 virulence genes. The number of virulence-associated genes detected in highly pathogenic strains showed there were more significant differences than that in low pathogenic strains (P irp2, fyuA, and colV in high pathogenic strains was significantly higher than that in low and non-pathogenic strains (P irp2, fyuA, iucA, iucD, iutA, papC, iss, tsh, and colV were more often detected in highly and intermediate pathogenic E. coli strains. Taken together, our results provide evidences demonstrating that the pathogenicity of Escherichia coli strains is closely associated with the number and combination patterns of virulence-associated genes.

A Survey of <i>Escherichia coli</i>O157:H7 Virulence Factors: The First 25 Years and 13 Genomes

Escherichia coli O157:H7 is a human pathogen that was first identified from a foodborne outbreak in 1982, and in the 25 years that followed, many new strains were identified and emerged in numerous outbreaks of human disease. Extensive research has been conducted to identify virulence factor genes involved in the pathogenesis of E. coli O157:H7 and many genome sequences of E. coli O157:H7 strains have become available to the scientific community. Here, we provide a comprehensive overview of the research that has been conducted over the first 25 years to identify 394 known or putative virulence factor genes present in the genomes of E. coli O157:H7 strains. Finally, an examination of the conservation of these 394 virulence factor genes across additional genomes of E. coli O157:H7 is provided which summarizes the first 25 years and 13 genomes of this human pathogen.

<i>Escherichia coli</i>Harbouring Resistance Genes, Virulence Genes and Integron 1 Isolated from Athi River in Kenya

Rivers can act as reservoirs of highly resistant strains and facilitate the dissemination of resistance, virulence and integron 1 genes. A cross-sectional study was carried out where 318 water samples were collected (53 from each site) and from the samples, 318 E. coli isolates were analysed for resistance genes, virulence genes and integron 1 using Polymerase Chain Reaction. 22% of the isolates had blaTEM, 33% had blaCTX-M and 28% had blaCMY. Prevalence of typical Enteropathogenic E. coli strains (carrying both eae and bfp genes) was 5% while the prevalence of atypical Enteropathogenic E. coli (carying only eae) was 1.8%. The prevalence of Enteroaggregative E. coli carrying the aggr genes was 11%. The prevalence of Enterotoxigenic E. coli encoding only lt toxin was 16 (5%) and while those carrying only st toxin was 6.9%. The prevalence of Enteroinvasive E. coli strains encoding as IpaH was 5% while that of strains, adherent invasive E. coli, carrying adherent invasive gene inv was 8.7%. 36% isolates were positive for class 1 integrons which were mostly isolated near the sewage effluent from waste treatment plant. Anthropogenic activities and close proximity to sewage treatment plant were found to play a key role in pollution of water body and accumulation of resistance and virulence genes. These results suggest that waste treatment plant may act as reservoir of resistance, virulence and integron 1 genes and is a potential risk to human and animal health in the region.

Characterization of Virulence Factors in Enteroaggregative and Atypical Enteropathogenic Escherichia coli Strains Isolated from Children with Diarrhea

Enteroaggregative (EAEC) and atypical enteropathogenic (EPEC) Escherichia coli are important bacterial etiologic agents causing diarrhea among children. The aim of the present study was to examine the impact of virulence factors predisposes to diarrhea. In this study some virulence properties were examined on 11 EAEC and 8 EPEC strains identified by Polymerase Chain Reaction (PCR), isolated from stool samples of children were analyzed genotypically and phenoltypically for the prevalence of virulence factors. The most frequently detected factor was resistance to serum (94%), followed by curli fimbriae (78%), biofilm production (73%), and gene coding for Extended-Spectrum Beta-Lactamase (ESBL) (68%). EPEC isolates showed at least three of the evaluated properties, while EAEC isolates showed at least two. The prevalence of these virulence factors between the two strains showed no statistical difference. This study showed the heterogeneity of the virulence profile of the isolates of EAEC and atypical EPEC strains and suggests that this diversity may influence in the disease severity.

Impact of Polymyxin Resistance on Virulence and Fitness among Clinically Important Gram-Negative Bacteria

Humanity is facing an enormous and growing worldwide threat from the emergence of multi-drug-resistant(MDR)Gram-negative bacteria such as Escherichia coli,Klebsiella pneumoniae,and Acinetobacter baumannii.Polymyxin B and E(colistin)constitute the last-line therapies for treating MDR Gram-negative bacteria.Polymyxin is a cationic antibacterial peptide that can destroy the outer membrane of Gram-negative bacteria.With the increasing clinical application of polymyxin,however,there have been many reports of the occurrence of polymyxin-resistant Gram-negative bacteria.This resistance is mainly mediated by the modification or complete loss of lipopolysaccharide(LPS).LPS is also a virulence factor of Gram-negative bacteria,and alterations of LPS may correlate with virulence.Although it is generally believed that the biological costs associated with drug resistance may enable benign susceptible bacteria to overcome resistant bacteria when antibiotic pressure is reduced,some studies have shown that polymyxin-resistant bacteria are associated with higher virulence and greater fitness compared with their susceptible counterparts.To predict the development of polymyxin resis-tance and evaluate interventions for its mitigation,it is important to understand the relative biological cost of polymyxin resistance compared with susceptibility.The impact of polymyxin resistance mecha-nisms on the virulence and fitness of these three Gram-negative bacteria are summarized in this review.

撒坝猪源E.coli高致病性毒力岛通过NLRP3/ASC/Caspase-1途径诱导IPEC-J2细胞焦亡

旨在研究撒坝猪源E.coli高致病性毒力岛(highly pathogenic virulence island,HPI)诱导IPEC-J2细胞焦亡的机制,本研究以LPS+ATP为阳性对照,将实验室前期筛选的E.coli HPI及通过CRISPR/Cas9基因敲除技术构建完成的E.coliΔHPI感染IPEC-J2细胞,观察细胞损伤情况;RT-qPCR测定各组作用0.5、3、6、9、12 h后细胞内焦亡通路中关键因子NOD样受体家族热蛋白结构域相关蛋白3(NOD-like receptor thermal protein domain associated protein 3,NLRP3)、凋亡相关斑点样蛋白(apoptosis-associated speck-like protein containing a CARD,ASC)、胱天蛋白酶-1(caspase-1)、消皮素D(gasderminD,GSDMD)及炎性因子白介素-18(IL-18)、白介素-1β(IL-1β)的mRNA转录水平;激光共聚焦观察NLRP3/Caspase-1炎性复合体组装及表达情况;Western blot测定GSDMD及其活化形式GSDMD-N蛋白表达水平,PI染色检测胞膜完整性。结果表明:LPS+ATP处理显著促进细胞焦亡的发生,阴性对照组细胞正常生长、轮廓清晰,E.coli感染组及LPS+ATP组细胞出现变形、脱落、边界模糊等明显细胞病变效应(cytopathic effect,CPE),且HE染色显示,E.coliHPI感染相较于E.coliΔHPI感染对细胞的损伤更严重;E.coli HPI组中的焦亡通路关键因子及炎性因子mRNA水平在3~9 h均显著(P<0.05)或极显著(P<0.01)高于E.coliΔHPI组;NLRP3/Caspase-1炎性复合体在细胞质中发生组装,且E.coli HPI组NLRP3/Caspase-1蛋白荧光强度、GSDMD、GSDMD-N蛋白表达水平及PI染色阳性率均极显著(P<0.01)高于E.coliΔHPI组;E.coli HPI组的CPE、HE染色、焦亡通路关键因子及炎性因子mRNA水平、GSDMD及GSDMD-N蛋白表达量、NLRP3/Caspase-1共定位情况均与LPS+ATP组相似。结果提示,撒坝猪源E.coliHPI通过上调NLRP3/ASC/Caspase-1信号通路中关键因子mRNA水平,诱导NLRP3/Caspase-1炎性复合体的组装,促进焦亡标志蛋白GSDMD及GSDMD-N的表达,并对IPEC-J2细胞膜进行打孔,从而诱导细胞发生焦亡。

北京某医院感染性腹泻患者致泻性大肠埃希菌毒力和耐药特征分析

目的明确本院感染性腹泻患者致泻性大肠埃希菌毒力和耐药特征。方法采用VITEK MS微生物质谱检测系统初步鉴定,多重实时荧光PCR检测毒力基因,对本院感染性腹泻患者临床分离的致泻性大肠埃希菌(Diarrheagenic Escherichia coli,DEC)进行5种型别鉴定。微量肉汤稀释法和E-test法药敏试验检测DEC菌株的耐药表型特征。二代测序及生物信息学分析其耐药分子特征。采用Fisher确切概率法进行统计学分析。结果本院DEC检出率为11.9%,其中EAEC占比37.5%,非典型EPEC占比34.38%,ETEC占比25.0%,EIEC占比3.12%,未检出EHEC菌株。32株DEC对氨苄西林、四环素、甲氨苄啶/磺胺异恶唑耐药率最高,分别为53.12%、43.75%和37.5%。ESBLs(+)株占比18.75%,其多重耐药菌株检出率为83.83%,显著高于ESBLs(-)菌株,差异有统计学意义(P=0.042)。32株DEC共有25个ST型,优势基因型为ST10共4株(12.5%),ST28、ST31和ST3153各2株(各占比6.25%),其他21个型别各1株菌(各占比3.13%)。EAEC中检出1株携带bla_(NDM-1)的耐碳青霉烯类菌株。结论我院感染性腹泻患者的DEC以aggR、pic、astA、eae 4种毒力基因较为常见,以EAEC、EPEC为主要型别,基因型别呈高度多态性,检出多重耐药菌株。

山羊肺源肠外致病型大肠杆菌和粘质沙雷氏菌混合感染的病原分离鉴定、毒力因子基因检测和耐药性分析

为了确定1例成年山羊突然急性死亡的原因,本试验采用病史调查、病理剖检、病原菌分离和鉴定明确细菌性病原,对分离菌进行致病性试验和药敏试验,并根据药敏试验结果对其余未发病山羊进行给药预防;对分离到的大肠杆菌进一步进行系统进化群分析和毒力因子基因检测。结果显示,死亡山羊剖检可见部分结肠肠段严重出血,心内膜有散在出血斑,瘤胃黏膜局部充血;从肺组织中分离获得大肠杆菌和粘质沙雷氏菌;致病性试验结果显示,大肠杆菌对小鼠的致死率为90%,粘质沙雷氏菌对小鼠无致病性;药敏试验结果显示,大肠杆菌对头孢曲松和丁胺卡那敏感,粘质沙雷氏菌对恩诺沙星、丁胺卡那、庆大霉素和磷霉素中度敏感;使用头孢噻呋钠和恩诺沙星注射液对其余未发病山羊进行预防性注射给药后,未再出现发病死亡。系统进化群分析显示,分离获得的大肠杆菌属于A群;毒力因子基因检测结果显示,该大肠杆菌携带2种毒力标记基因(afa和iutA),因此属于肠外致病型大肠杆菌,该菌还携带其他毒力因子基因(ompA、ompT、traT、iss、iroN、iucD、fimH和gafD);本试验结果可为山羊大肠杆菌和粘质沙雷氏菌混合感染的诊断和治疗提供参考。

市售肉品产志贺毒素大肠杆菌污染情况与耐药性分析——以泰安市为例

产志贺毒素大肠杆菌(STEC)是一类产生一种或一种以上志贺毒素的具有强致病能力的食源性病原菌,现已是威胁人类健康的重要公共卫生问题之一。本文以山东省泰安市为调查点,对商超和农贸市场零售肉中产志贺毒素大肠杆菌(STEC)的污染情况进行调研,170份零售肉样品中9份样品检出STEC阳性,检出率为5.3%;其中商超和农贸市场的检出率分别为3.1%和6.7%,无显著性差异(P>0.05)。通过聚合酶链式反应(PCR)研究24株STEC分离菌株的血清型、毒力基因的携带情况。24株STEC中12株确定O血清型,分别为O26(10株)和O45(2株)。主要携带的毒力基因为stx1,hlyA(62.5%,15/24)和stx2(37.5%,9/24)基因,eaeA基因未检出。通过纸片扩散法对24株产志贺毒素大肠杆菌菌株进行耐药性检测,分离株对麦迪霉素的耐药率最高91.7%,对阿莫西林、氨苄西林的耐药率均为37.5%,对头孢西丁和多粘菌素敏感。综上所述,泰安市零售畜禽肉品中存在STEC不同程度的污染,其中猪肉、牛肉引起食源性疾病风险较大。本研究为相关部门加强市售肉品中STEC的监控提供一定的指导。

携带bla_(CTX-M)禽大肠杆菌的多重耐药特征和体外致病性研究

【目的】探究携带bla_(CTX-M)禽大肠杆菌的分子流行特点。【方法】检测76株携带bla_(CTX-M)禽大肠杆菌的多重耐药谱、系统进化分群及毒力基因,并分析毒力基因与耐药特点、系统进化分群之间的关联性。【结果】药敏结果显示,携带bla_(CTX-M)禽大肠杆菌对氟苯尼考的耐药率最高,达85.53%(65/76);其次是恩诺沙星,为48.68%(37/76);最常见的多重耐药谱为氟苯尼考+恩诺沙星+乙酰甲喹,达10.53%(8/76)。系统进化分群结果显示,主要的亚群为C群和B1群;其中,C群检出率最高,达53.95%(41/76);其次是B1群,为30.26%(23/76);E群、A群、D群和F群的检出率分别为9.21%(7/76)、2.63%(2/76)、2.63%(2/76)和1.32%(1/76);未检测出B2群和分支I群。毒力基因检测结果显示,76株携带bla_(CTX-M)禽大肠杆菌均检出了至少4种毒力因子,且有11株菌同时携带至少11种毒力基因;其中,有13株菌同时检出禽致病性大肠杆菌(avian pathogenic Escherichia coli,APEC)的5个标志性毒力基因(iroN、iutA、hly、OmpT和iss),检出率为17.11%;有11株菌检出ColV质粒的标志基因(cva/cvi、iroN、iucD/iutA、etsAC、OmpT/hlyF和sitA),检出率为14.47%;有28株菌检出耶尔森菌强毒力岛(high pathogenitility island,HPI)的标志基因irp-2和fyuA,检出率为36.82%。【结论】携带bla_(CTX-M)禽大肠杆菌多为多重耐药菌,且多重耐药菌株携带ColV毒力质粒可能性更高;携带bla_(CTX-M)禽大肠杆菌的多重耐药与致病性有关联,即携带bla_(CTX-M)禽大肠杆菌具有多重耐药的同时,具有致病的可能性更高。

鸭源肠致病性大肠杆菌的耐药特征及全基因组学分析

目的了解鸭源肠致病性大肠杆菌(EPEC)的耐药情况及全基因组特征,探究鸭源EPEC的致病潜力,为临床治疗提供理论基础。方法PCR鉴定出EPEC分离株,采用微量肉汤稀释法进行药敏试验,并对其进行全基因组测序,分析EPEC的血清型、ST型、质粒不相容群类型及其携带的耐药基因与毒力基因。结果共鉴定出10株EPEC,血清型包括O71∶H40和O3∶H21两种;所有EPEC菌株均表现出多重耐药,对环丙沙星、链霉素、四环素、多粘菌素B最为耐药,耐药率高达100%,对头孢西丁最为敏感,对阿米卡星、亚胺培南较敏感;所有菌株均携带有四环素耐药基因tet(A),以及超广谱β-内酰胺酶(ESBL)耐药基因,包括bla OXA-10、bla TEM-1A、bla TEM-1B;分离株检测到多种毒力基因,与分泌系统相关的毒力基因最多,未检测到bfp基因及perABC基因。结论鸭源EPEC分离株都为非典型EPEC(aEPEC),具有多重耐药性,检测到多种质粒不相容群,携带多种耐药基因与毒力基因,对人具有潜在致病性,需要加强对鸭源EPEC的监测以有效控制鸭源EPEC的传播,防止其对人类健康造成危害。

1株山鸡源致病性大肠杆菌的分离鉴定

为查明秦皇岛市某山鸡养殖场山鸡大批量死亡病因,试验对分离到的致病优势菌株进行生化鉴定和16S rRNA基因序列分析,并测试分离菌对21种抗生素的敏感性,进一步采用PCR方法检测分离菌的耐药基因。利用清洁级昆明小鼠和SPF鸡胚分别对分离菌进行致病性试验,并采用PCR方法检测分离菌的毒力基因。结果显示:分离菌为革兰氏阴性杆菌,在伊红美蓝培养基上生长出有金属光泽的菌落,生化特性与大肠杆菌生化特性符合率高达99%。BLAST分析发现,分离菌16S rRNA序列与大肠杆菌的基因相似性高达99.8%。分离菌对恩诺沙星和阿米卡星高度敏感,对青霉素、头孢曲松等15种药物耐药。分离菌的磺胺类、β-内酰胺类、四环素类的耐药基因与耐药表型基本相符,其余耐药基因与耐药表型不符,提示该分离菌可能存在其他的耐药机制。致病性试验结果显示,分离菌具有较强致病性,共检测到12种大肠杆菌主要毒力基因。研究表明,分离菌为山鸡源致病性大肠杆菌,且耐药情况复杂,具有较强的毒力和致病性。

2020年国内部分地区奶牛乳腺炎源大肠杆菌的分子流行病学调查

本研究对来自国内11个地区136份乳腺炎乳样开展了大肠杆菌的生物学特性研究。通过大肠杆菌phoA特异性鉴定引物对乳房炎乳样进行大肠杆菌分离与鉴定,采用K-B法对分离株进行药敏检测。建立3体系三重PCR检测方法,利用大肠杆菌9种毒力基因对分离株进行检测。通过PCR检测chuA、yjaA和TspE4.C2,对分离株进行进化分群鉴定。结果显示:136份乳腺炎乳样中共分离到61株大肠杆菌,阳性率为44.85%。分离株对头孢拉定、氨苄西林、四环素耐药率相对较高,分别为37.70%、32.78%和26.22%。分离株中毒力基因ompA和traT携带率较高(98.36%和75.40%),其次为CNF1(54.09%)、irp2(47.54%)和iucD(32.78%),sitD和chuA携带率较少(14.75%和13.11%),但ST2和hlyA基因均未检出。分群结果显示分离株以A群占(67.21%)和B1群(19.67%)为主,D群(8.19%)和B2群(4.91%)较少。本研究为奶牛乳腺炎源大肠杆菌的防控提供数据参考。

血培养大肠埃希菌的耐药特点、毒力基因分布及种系分型

目的检测并分析血培养大肠埃希菌的耐药特点、种系分型和毒力基因分布。方法收集我院2019年1月1日至2020年12月13日连续且非重复血培养大肠埃希菌。采用微量肉汤法测定大肠埃希菌对17种抗菌药物的敏感性;水煮法提取细菌基因组DNA,采用PCR法检测arpA、chuA、yjaA、TspE4C2、ArpAgpE和trpAgpC基因以确定细菌的种系分型;采用多重PCR法检测毒力基因iutA、fimH、fyuA、kpsMTⅡ、cnf1、cvac、hlyA、traT、kpsMTⅢ和PAI;使用卡方检验分析种系分型之间的耐药率及毒力基因分布差异。结果270株血培养大肠埃希菌对头孢曲松、复方新诺明、氨苄西林、氨苄西林/舒巴坦、头孢唑林和环丙沙星的耐药率较高,均大于50.0%;对亚胺培南、厄他培南、阿米卡星和哌拉西林/他唑巴坦的敏感性较高,耐药率均低于5.0%。在种系分型方面,最常见的型别是B2型和D型,分别占总数的38.0%和16.2%,而E型和隐分支Ⅰ型占比<1.0%,较为少见。毒力基因分析发现,fimH和fyuA基因的分布率最高,均在99.0%以上,而kpsMTⅢ、hlyA和cvaC 3种基因的分布率较低,均低于20.0%。卡方检验显示,毒力基因iutA、fimH、fyuA、kpsMTⅡ、cnf1、PAI在B2型的分布显著高于非B2型(P<0.05),且B2型携带的iutA、fyuA、kpsMTⅡ、cnf1、PAI基因显著高于D型(P<0.05)。结论在治疗引起血流感染的大肠埃希菌时,应慎用头孢曲松、复方新诺明、氨苄西林、氨苄西林/舒巴坦、头孢唑林和环丙沙星等药物。血流感染的大肠埃希菌为B2型时,应同时进行中段尿培养以确认感染源并监测治疗的成功率。

2020-2022年广东省儿童弯曲菌的耐药性和分子流行特征分析

目的了解2020-2022年广东省儿童感染空肠弯曲菌和结肠弯曲菌的检出率、耐药特征、毒力特征及多位点序列分型等分子流行特征和病原学特征。方法在广东省广州市2家医院采集2020-2022年疑似感染儿童病例的肛拭子或粪便样本,过滤法分离培养弯曲菌,用微生物质谱系统进行鉴定;采用琼脂稀释法进行抗生素耐药水平分析;提取细菌基因组核酸,开展全基因组测序,基于全基因组测序结果分析弯曲菌耐药基因、毒力基因、多位点序列分型和基于全基因组单核苷酸多态性的系统发育分析。结果本研究的持续性常规监测检出弯曲菌53株,弯曲菌的阳性检出率为2.94%,其中,空肠弯曲菌占81.13%(43/53),结肠弯曲菌占18.87%(10/53)。集中采样处理的多病原监测筛查出弯曲菌16株,其中,空肠弯曲菌11株,结肠弯曲菌5株。对其中46株弯曲菌完成了耐药实验和全基因组测序,包括33株空肠弯曲菌和13株结肠弯曲菌。弯曲菌对临床治疗广泛使用的红霉素的耐药率为21.73%(10/46),对四环素的耐药率为80.43%(37/46),对喹诺酮类抗生素萘啶酸和环丙沙星的耐药率为76.08%(35/46)和71.73%(33/46),对氯霉素的耐药率最低,为2.17%(1/46)。结肠弯曲菌的耐药率普遍高于空肠弯曲菌,在红霉素、庆大霉素、链霉素、泰利霉素和克林霉素指标上的差异具有统计学意义。共检出30株多重耐药菌,有9种多重耐药表型。基于全基因组序列分析,46株弯曲菌携带喹诺酮类、四环素类、β-内酰胺类、氨基糖苷类等抗生素耐药基因;携带5类共128种毒力因子基因;所有46株弯曲菌比对出35种ST型,系统发育分析显示无明显优势ST型,结肠弯曲菌较空肠弯曲菌的SNPs更多。结论2020-2022年广东省弯曲菌的阳性检出趋于稳定,空肠弯曲菌的检出率高于结肠弯曲菌。弯曲菌分离株对四环素和喹诺酮类抗生素耐药严重,多重耐药谱广泛,其中结肠弯曲菌耐药更为严重;耐药基因和耐药表型有较强的关联,具有一定的预测意义。空肠弯曲菌的毒力基因较结肠弯曲菌更为丰富,可能与更高的检出率和致病性有关。系统发育分支明确且序列呈现较高的遗传多样性,无明显优势克隆群。

鸡源大肠杆菌生物被膜形成与耐药性、毒力基因的关联性分析

旨在了解鸡源大肠杆菌临床分离株生物被膜形成能力与耐药性、毒力基因之间的关系。通过刚果红试验、结晶紫染色法测定生物被膜形成能力;采用微量肉汤稀释法检测分离株对阿莫西林、氟苯尼考、庆大霉素等8种抗菌药的耐药性;PCR检测常见耐药、毒力基因携带情况;采用实时荧光定量PCR检测毒力基因在生物被膜阳性菌中的表达量。结果表明,在51株分离株中,生物被膜阳性菌株比例为19.61%,阳性菌株中,OD_(600)最大值为2.233±0.702,最小值为0.374±0.099,其他介于1.455~1.604之间;耐药性检测显示,生物被膜阳性菌株对头孢喹肟、氟苯尼考、庆大霉素、阿米卡星、黏菌素的耐药率均高于阴性菌株,其中对阿米卡星和黏菌素差异显著(P<0.05),但对多西环素耐药率低于阴性菌株,差异显著(P<0.05),二者对阿莫西林+克拉维酸、恩诺沙星耐药率无差异;OD_(600)值最大的E13对8种测定药物全部耐药,6株OD_(600)值介于1.455~1.604的菌株对5种及以上抗菌药产生耐药性,OD_(600)值为0.374的菌株E39为敏感菌株。PCR结果显示耐药基因bla_(CTX-M-9)、bla_(CTX-M-U)、bla_(OXA-1)、mcr-1、rmtB、floR在生物被膜阳性菌株中的检出率高于阴性菌株,菌株E13同时携带9种耐药基因;共检出16种毒力基因,其中fimH、astA、aggR、irp1、iucD、fyuA、ybtA、ompA在生物被膜阳性菌株中的检出率高于阴性菌株,且阳性菌株毒力基因型复杂;以OD_(600)值为0.374的E39菌株为对照,OD_(600)值较大的生物被膜阳性菌株中,fimH、ompA、ompA、iucD、hlyF毒力基因表达呈现上调趋势。综上,与生物被膜阴性菌株相比,大肠杆菌生物被膜阳性菌株耐药更为严重,携带毒力基因型更加复杂多样,且毒力基因表达呈现上调趋势。

青海牧区犊牛腹泻大肠埃希氏菌毒力基因及血清型分布特征研究

为掌握青海牧区致牦牛腹泻大肠埃希氏菌病的流行特征,以期为牦牛大肠埃希氏菌性腹泻的预防和治疗提供依据,对青海省玉树、果洛、海北地区采集的99份犊牦牛腹泻相关样本进行致病性大肠埃希氏菌的分离培养及O抗原血清分型、毒力基因扩增及小鼠毒性试验等研究。结果显示,分离菌株主要携带F17、ompA、fimC、espA、HPI、LEE、VT1、SLT2等毒力基因,未检出K88、K99、LT1等毒力基因,小鼠最低致死剂量为2.5×10^(9)CFU/mL,优势血清型为O25、O55和O107,分别占定型血清的25.40%、14.29%和19.05%,系统主要发育群为B1群。研究结果将为后续青海地区致犊牦牛腹泻大肠杆菌病的治疗、发病机制探讨及疫苗研制提供支撑。