猪链球菌和猪多杀性巴氏杆菌多重实时荧光PCR方法的建立

【背景】猪链球菌(Streptococcus suis,SS)和猪多杀性巴氏杆菌(Pasteurella multocida,Pm)都是能引起宿主致病的人畜共患病原菌,常出现混合感染,临床诊断上易与猪瘟、猪丹毒等混淆。【目的】快速、有效鉴别猪链球菌病和猪多杀性巴氏杆菌病,建立一种能同时检测2种病原的多重实时荧光定量PCR检测方法。【方法】基于猪链球菌的gdh基因和猪多杀性巴氏杆菌的plpE基因,设计2对特异引物及TaqMan探针,以细菌16S rRNA基因设计通用引物及探针,通过对反应条件优化,建立了一种能同时检测猪链球菌和猪多杀性巴氏杆菌的多重实时荧光定量PCR检测方法。【结果】该方法能够特异性地检测猪链球菌和猪多杀性巴氏杆菌,与细菌分离后的测序结果验证完全一致。此方法对重组质粒标准品的最低检出浓度分别为4.53×10²copies/μL和3.97×10²copies/μL。重复性试验结果显示,该方法的组内和组间变异系数均小于3%。【结论】本实验所建立的方法准确、简便、可靠,能够用于2种病原菌的同时检测,为猪链球菌病和猪多杀性巴氏杆菌病的防治提供了有效的检测工具,具有重要的流行病学意义和临床应用价值。     

马源马链球菌兽疫亚种3株新疆分离株基因型的鉴定及MLST分析

[背景] 马链球菌兽疫亚种（Streptococcus equi subsp. zooepidemicus,SeZ）是引起马腺疫的主要病原,还可引起猪链球菌病,加强该菌的地方株分子流行病学监测对有效防控相关疫病十分必要。[目的] 对新疆地区2个马场SeZ分离株进行鉴定和药敏特性分析,并分析3株新疆分离株的分子流行与菌株的遗传进化特征。[方法] 对分离纯化的3株病原菌（ZHZ113、ZHZ211和ZHZ523）进行染色观察、生化及药敏特性检测,对16S rRNA和SeM基因进行遗传进化分析,以链球菌7个管家基因arcC、nrdE、proS、spi、tdk、tpi和yqiL为目的基因对3株分离菌进行多位点序列分型（Multilocus Sequence Typing,MLST）研究。[结果] 3株SeZ的药敏结果显示这3株分离菌对不同抗生素的耐药程度不同,但均对头孢西丁、庆大霉素、链霉素、红霉素、左氧氟沙星、环丙沙星、土霉素等11种药物敏感。16S rRNA基因序列分析显示这3株分离菌均属于Ⅱ群（兽疫链球菌）。3株菌的MLST分型结果分别为ST39、ST419、ST421型,其中ST419和ST421型为SeZ目前尚未见报道的新ST型。SeM基因分析结果显示马源SeZ在不同国家、不同动物和不同时间段上的流行分布存在差异和动态变化的特点。[结论] 3株SeZ分离菌分别与美国犬源及马源菌株亲缘关系较近,反映部分SeZ株在新疆地区的基因型分布及分子流行特点。     

2016-2019年辽宁省肠炎沙门菌分离株分子分型及其耐药性

目的分析辽宁省肠炎沙门菌分离株的分子分型特征及耐药情况,为辽宁省肠炎沙门菌的分子流行病学及防控措施提供参考依据。方法采用PFGE分子分型方法对辽宁省2016-2019年肠炎沙门菌分离株进行分子分型,应用BioNumerics 7.6软件对酶切片段进行聚类分析,明确菌株的特征及同源性;采用最低抑菌浓度(MIC)法测定菌株对14种药物敏感性。结果共获得49株肠炎沙门菌,分子分型结果证明其呈17种PFGE带型,相似度区间为77.4%~100.0%,有2种优势带型;对萘啶酸的耐药率最高,达89.80%,其次氨苄西林的耐药率为69.39%,对3种以上抗生素的耐药率为55.10%。结论辽宁省肠炎沙门菌PFGE分子分型具有独特的优势带型,存在带型较多的特点;肠炎沙门菌分离株多重耐药状况比较严重,对萘啶酸的耐药率最高。     

中国猪种布鲁氏菌分子流行病学特征分析

【目的】调查猪种布鲁氏菌的基因多态性和分子流行病学特征。【方法】用经典分型方法对菌株的生物型进行鉴定,分析菌株的地理分布特点;用MLVA-16分型方法对60株猪种布鲁氏菌进行基因分型,采用在线软件评估分型方法的分辨率和位点的多态性,用BioNumerics 5.0软件进行聚类分析。【结果】我国流行的猪种布鲁氏菌主要是猪种生物1型(33株)、2型(3株)和3型菌(24株);分布范围较广,包括广东、广西、内蒙古、北京、吉林、宁夏和西藏等地。MLVA-16分型方法对猪种布鲁氏菌具有极高的分辨力,多态性指数为0.992;Panel1、MLVA-11和Panel 2B均具有较高的分辨率,多态性指数分别为0.884、0.916和0.979。60株猪种布鲁氏菌聚为6大类52个基因型,5个共享基因型(GT24,GT25,GT26,GT28,GT29)包括13株布鲁氏菌,各基因型菌株间有潜在的流行病学关联,可能是分别来自相同传染源的暴发流行;另47株布鲁氏菌呈现独特的基因型,表明菌株来自无流行病学关联的零星散发病例。猪种布鲁氏菌的最小生成树表明我国菌株分别与美国、法国和波兰的菌株有完全相同的MLVA-15基因型。【结论】中国猪种布鲁氏菌有较高的遗传多态性,并与美国、法国和阿根廷的菌株有较高的遗传相似性。我国猪种布病以零星散发为主。     

猪链球菌检测技术研究进展

猪链球菌(Streptococcus suis,SS)是引起猪呼吸系统疾病的一类重要的病原菌,给世界养猪业造成了巨大经济损失; SS也可通过伤口、呼吸道等途径感染人。准确、敏感、快速的SS检测方法有助于在生产实践中及时确诊,进而采取相应的预防、治疗和综合防控措施。对SS的检测方法包括选择性培养基、PCR技术、免疫学及分子分型方法等的研究进展进行了综述,并比较了这些方法的优缺点及应用情况,为SS标准诊断方法的建立提供了参考资料。     

耐甲氧西林金黄色葡萄球菌的分子分型及流行现状

耐甲氧西林金黄色葡萄球菌(methicillin-resistant Staphylococcus aureus, MRSA)是一类重要的人畜共患病原菌,在全球范围内引起了相当高的发病率和死亡率。运用有效、可靠的分子分型技术对MRSA的分子流行病学特征进行调查分析,将非常有助于MRSA感染性疾病的防控和治疗。本研究对MRSA的多种分子分型技术的原理和方法学评价以及流行现状进行了概述,为MRSA的分子流行病学研究提供了一定的参考依据;本研究指出每种分型方法都有其特有的分型优势,同时又具有分型限制性。在对MRSA菌株进行分型分析时,应该根据现实需要选择多种分型方法对菌株进行多方位研究,保证分型结果的可靠性,为MRSA的分子流行病学分析提供更加准确详实的依据。     

多位点数目可变串联重复序列在结核分枝杆菌分子流行病学中的应用进展

结核分枝杆菌基因分型VNTR-MIRU方法是近年来结核病分子流行病学研究的热点,已广泛应用于TB流行病学研究的各个领域,包括调查爆发流行,追踪传染源,调查优势菌株以及传播机制等方面.VNTR-MIRU分型方法简单快速,是一种有效的结核分枝杆菌基因型分型方法.     

199株猪链球菌临床分离株血清型、毒力基因及多位点序列分型分析

【背景】猪链球菌（Streptococcus suis,SS）血清型、基因型众多,毒力因子复杂。【目的】了解SS临床分离株血清型、毒力基因分布、分子分型特征及其之间的相关性。【方法】针对199株SS临床分离株,应用PCR技术进行血清分型和毒力基因检测,采用多位点序列分型方法（multilocus sequence typing,MLST）进行基因分型,并分析SS血清型、毒力基因型和序列型（sequence type,ST型）的流行特点及其关联性。【结果】199株SS临床分离株分属于16种血清型（1、2、3、4、6、7、8、9、10、12、15、16、21、24、29和30型）,主要以2、4、3型为主,分别占26.13%（52/199）、14.57%（29/199）和12.06%（24/199）,未定型（NT）菌株占21.61%（43/199）。共鉴定出72种ST型,其中ST1、ST94、ST117、ST7、ST28和ST87为主要ST型,分别占12.56%（25/199）、11.56%（23/199）、9.56%（19/199）、9.04%（18/199）、6.03%（12/199）和3.01%（6/199）,另有24种新发现的ST型（ST1224—ST1227,ST1229—ST1235,ST1241—ST1242,ST1300—ST1310）;分为12个克隆群（cloning complexes,CC）和32个单个ST型。199株SS分离株中毒力基因fbps的检出率最高,为96.98%（193/199）;共有19种毒力基因型,其中66株（33.17%）epf-/mrp-/sly-/gapdh+/fbps+/orf2+型SS为优势毒力基因型。【结论】近年来SS的优势血清型为2、4和3型;ST型具有明显的遗传异质性,种内分化程度较高且与ST型存在一定交叉性;毒力基因分布情况存在差异,毒力基因型呈现多样化。本研究对SS临床分离株的流行特征进行探究,为猪SS病诊断、治疗和制定防控措施提供科学依据。     

浙江某市屠宰场猪链球菌血清型、耐药及致病特征

【目的】猪链球菌(Streptococcus suis)是猪的重要病原菌,同时也是人畜共患病原。猪的扁桃体是猪链球菌主要定殖部位之一,是易感猪和人的重要传染源。因此,对屠宰场健康猪进行猪链球菌流行病学调查,具有重要的公共卫生学意义。【方法】本研究自2020年至2021年,从浙江某市屠宰场采集健康猪扁桃体样品,分离鉴定猪链球菌,采用血清型特异性PCR法分型,通过耐药基因检测、药敏试验、斑马鱼毒力实验分析其耐药及致病特征。【结果】131份健康猪扁桃体样品猪链球菌阳性率为62.59%(82/131),共分离猪链球菌68株,其中16型分离率最高,占比16.18%(11/68),其次为31型(11.76%,8/68)、9型(7.35%,5/68)、3型(7.35%,5/68)等。含2种及以上血清型的扁桃体样品占15.85%(13/82)。药敏试验表明,分离株主要对林可酰胺类(100%,68/68)、大环内酯类(98.53%,67/68)、四环素类(100%,68/68)抗生素耐药,所有菌株均属于多药耐药。值得关注的是,有18株菌对青霉素耐药、3株菌对头孢噻肟耐药、2株菌对利福平耐药、11株菌对利...     

孢子丝菌复合体分子分型研究进展

孢子丝菌复合体属于双相真菌,全球分布,可引起人类及动物的慢性深部感染。不同地域的菌株在致病力、传播途径及药物敏感性等方面均存在差异。孢子丝菌病作为一种人兽共患病,其发病率逐年上升,出现多次暴发流行。分子分型不仅是明确感染源和传播途径、预防和控制疾病流行的有力手段,同时有助于了解孢子丝菌基因型与表型的相关性,在研究其致病机制以及临床诊治过程中都具有十分重要的意义。本文对孢子丝菌的分子分型方法的研究进行综述。     

Eight Novel Capsular Polysaccharide Synthesis Gene Loci Identified in Nontypeable Streptococcus suis Isolates

Streptococcus suis is an important pathogen of pigs and may cause serious disease in humans. Serotyping is one of the important diagnostic tools and is used for the epidemiological study of S. suis. Nontypeable S. suis strains have been reported in many studies; however, the capsular polysaccharide (CPS) synthesis cps loci of nontypeable strains have not been analyzed. In this study, we investigated the genetic characteristics of cps loci in 78 nontypeable strains isolated from healthy pigs. Eight novel cps loci (NCLs) were found, and all of them were located between the orfZ-orfX region and the glf gene. All NCLs possess the wzy and wzx genes, strongly suggesting that the CPSs of these NCLs were synthesized using the Wzx/Wzy-dependent pathway. The cps genes found in the 78 isolates were assigned to 96 homology groups (HGs), 55 of which were NCL specific. The encapsulation of the 78 isolates was also examined using transmission electron microscopy. Fifty-three isolates were found to have a capsule, and these were of varied thicknesses. Our data enhance our understanding of the cps gene cluster diversity of nontypeable S. suis strains and provide insight into the evolution of the S. suis capsular genes.     

Streptococcus suis biofilm: regulation,drug-resistance mechanisms,and disinfection strategies

Streptococcus suis (S. suis) is a major swine pathogen and an important zoonotic agent. Like most pathogens, the ability of S. suis to form biofilms plays a significant role in its virulence and drug resistance. A better understanding of the mechanisms involved in biofilm formation by S. suis as well as of the methods to efficiently remove and kill biofilm-embedded bacteria can be of high interest for the prevention and treatment of S. suis infections. The aim of this literature review is to update our current knowledge of S. suis biofilm formation, regulatory mechanisms, drug-resistance mechanisms, and disinfection strategies.

     

Methods for the detection and characterization of <Emphasis Type="Italic">Streptococcus suis</Emphasis>: from conventional bacterial culture methods to immunosensors

One of the most important zoonotic pathogens worldwide, Streptococcus suis is a swine pathogen that is responsible for meningitis, toxic shock and even death in humans. S. suis infection develops rapidly with nonspecific clinical symptoms in the early stages and a high fatality rate. Recently, much attention has been paid to the high prevalence of S. suis as well as the increasing incidence and its epidemic characteristics. As laboratory-acquired infections of S. suis can occur and it is dangerous to public health security, timely and early diagnosis has become key to controlling S. suis prevalence. Here, the techniques that have been used for the detection, typing and characterization of S. suis are reviewed and the prospects for future detection methods for this bacterium are also discussed.     

基于16S rRNA基因测序技术分析猪链球菌2型感染BALB/c小鼠粪便样本中微生物的变化

【目的】通过研究粪便样本的微生物特点间接探讨猪链球菌2型感染BALB/c小鼠后肠道微生物的变化。【方法】本研究采用IlluminaMiSeq测序技术,测定了健康小鼠和猪链球菌2型感染小鼠粪便中微生物16S rRNA V3-V4区序列,并对群落结构和多样性进行了比较分析。【结果】多样性分析表明,感染组和对照组小鼠的粪便中微生物多样性和群落组成均不相同,存在较大的差异,感染组展示了较高的物种丰度和种群差异性。在门水平上,相对于对照组,感染组增加厚壁菌门和拟杆菌门等有益微生物比例,以提高机体免疫力,但也同时增加了变形杆菌等条件致病菌的比例,增加了疾病发生的可能性。在科水平上,感染组和对照组优势菌均含有瘤胃菌科,但其所占细菌总序列的比例存在较大的差异,分别占感染组和对照组细菌总序列的36.58%和11.02%。在属水平上,感染组和对照组的优势菌属类别及占总微生物比例存在显著的差异。感染组主要以瘤胃菌科UCG-002和乳酸杆菌属为优势菌属,对照组以螺旋体科GWE2-31-10和密螺旋体属2为优势菌属。综上,BALB/c小鼠感染猪链球菌2型后存在肠道微生态失调。【结论】通过本研究,不仅对猪链球菌2型感染后小鼠的粪便微生物多样性和组成种类有了一定的认识,而且为今后筛选有益微生物、通过调整微生物治疗猪链球菌2型感染提供了依据。     

一株分离自流浪猫的猪链球菌9型的分子生物学鉴定北大核心CSCD

【目的】猪链球菌是一种能感染人和猪的人畜共患病病原,并且还可零星感染多种哺乳动物。本试验旨在调查流浪猫携带猪链球菌的情况。【方法】在流浪猫身上分离猪链球菌,经血清凝集实验和PCR检测,鉴定其血清型;经多序列位点分型分析,鉴定其ST型;将所分离的细菌与Gen Bank上已公布的猪链球菌构建16S rRNA的系统发育树,分析该菌株与其他猪链球菌的亲缘关系;药敏纸片法分析其耐药性;小鼠攻毒试验分析其毒力。【结果】本试验在流浪猫身上分离到一株猪链球菌,命名为m70,其血清型为9型。多序列位点分型显示,m70株属于一个新的ST型。与Gen Bank上已公布的猪链球菌16S rRNA进行系统发育树分析,结果显示m70属于一个单独的分支。m70与临床菌株的耐药情况相似,对四环素耐药,对红霉素中介耐药,对氨苄西林敏感。小鼠攻毒试验显示,感染10~8 CFU剂量m70的小鼠,死亡率达到60%–80%（3/5–4/5）,3次攻毒试验的平均LD（50）为5.1×107 CFU;而本实验室保存的猪链球菌强毒株HA9801感染小鼠的平均LD（50）为3.9×107 CFU,两者之间没有显著差异（P〈0.05）。【结论】从流浪猫身上分离得到的猪链球菌m70属于优势血清型,且毒力较强,提示一些流行血清型的猪链球菌强毒株具有从流浪猫传染人的潜在风险。     

In vitro transcriptome analysis of porcine choroid plexus epithelial cells in response to Streptococcus suis: release of pro-inflammatory cytokines and chemokines

The Gram-positive zoonotic bacterium Streptococcus suis (S. suis) is responsible for a wide range of diseases including meningitis in pigs and humans. The blood-cerebrospinal fluid (CSF) barrier is constituted by the epithelial cells of the choroid plexus, which execute barrier function also after bacteria have entered the central nervous system (CNS). We show that the bacterial capsule, a major virulence factor, strongly attenuates adhesion of S. suis to the apical side of porcine choroid plexus epithelial cells (PCPEC). Oligonucleotide microarray analysis and quantitative PCR surprisingly demonstrated that adherent wild-type and capsule-deficient S. suis influenced expression of a pronounced similar pattern of genes in PCPEC. Investigation of purified capsular material provided no evidence for a significant role of the capsule. Enriched among the regulated genes were those involved in “inflammatory response”, “defense response” and “cytokine activity”. These comprised several cytokines and chemokines including the interleukins 6 and 8, which could be detected on protein level. We show that after infection with S. suis the choroid plexus contributes to the immune response by actively producing cytokines and chemokines. Other virulence factors than the bacterial capsule may be relevant in inducing a strong inflammatory response in the CNS during S. suis meningitis.     

Usefulness of Multiple-Locus VNTR Fingerprinting in detection of clonality of community- and hospital-acquired <Emphasis Type="Italic">Staphylococcus aureus</Emphasis> isolates

Staphylococcus aureus has become a major source of hospital infections and the risk of colonisation and infection by community-acquired methicillin-resistant S. aureus (CA-MRSA) is increasingly higher. Because of the importance of S. aureus to public health, many molecular typing methods have been developed to determine its transmission routes and source of infection during epidemiological investigations. In this study we evaluated the usefulness of multiplex PCR based Multi-Locus VNTR Fingerprinting (MLVF) as the first step method for rapid differentiation of Croatian and Polish S. aureus isolates in hospital and community settings. This is a first report of the usefulness of MLVF in typing of hospital-acquired methicillin-sensitive S. aureus (HA-MSSA) and four CA-MRSA isolates. A total of 47 isolates of S. aureus recovered in Croatia in 2004 and in Poland in 2006 and 2007 were tested. The MLVF results were compared to those produced by other typing methods, such as Pulsed-Field Gel Electrophoresis (PFGE), Multi-Locus Sequence Typing (MLST) and spa typing. The MLVF analysis showed almost the same clonality results as the remaining typing methods although some differences were found. Epidemiological data about the relation among S. aureus isolates and the results produced by typing methods applied in the present study indicate that because of the advantages in ease and speed of Variable Number of Tandem Repeats (VNTR) procedure over PFGE, spa typing and MLST, MLVF can be used as a first screening method followed by additional typing.     

Identification of Genes and Genomic Islands Correlated with High Pathogenicity in Streptococcus suis Using Whole Genome Tilling Microarrays

Streptococcus suis is an important zoonotic pathogen that can cause meningitis and sepsis in both pigs and humans. Infections in humans have been sporadic worldwide but two severe outbreaks occurred in China in recent years, while infections in pigs are a major problem in the swine industry. Some S. suis strains are more pathogenic than others with 2 sequence types (ST), ST1 and ST7, being well recognized as highly pathogenic. We analyzed 31 isolates from 23 serotypes and 25 STs by NimbleGen tiling microarray using the genome of a high pathogenicity (HP) ST1 strain, GZ1, as reference and a new algorithm to detect gene content difference. The number of genes absent in a strain ranged from 49 to 225 with a total of 632 genes absent in at least one strain, while 1346 genes were found to be invariably present in all strains as the core genome of S. suis, accounting for 68% of the GZ1 genome. The majority of genes are located in chromosomal blocks with two or more contiguous genes. Sixty two blocks are absent in two or more strains and defined as regions of difference (RDs), among which 26 are putative genomic islands (GIs). Clustering and statistical analyses revealed that 8 RDs including 6 putative GIs and 21 genes within these RDs are significantly associated with HP. Three RDs encode known virulence related factors including the extracellular factor, the capsular polysaccharide and a SrtF pilus. The strains were divided into 5 groups based on population genetic analysis of multilocus sequence typing data and the distribution of the RDs among the groups revealed gain and loss of RDs in different groups. Our study elucidated the gene content diversity of S. suis and identified genes that potentially promote HP.     

Development and Validation of a Real-Time PCR for Chlamydia suis Diagnosis in Swine and Humans

Pigs are the natural host for Chlamydia suis, a pathogen which is phylogenetically highly related to the human pathogen C. trachomatis. Chlamydia suis infections are generally treated with tetracyclines. In 1998, tetracyline resistant C. suis strains emerged on U.S. pig farms and they are currently present in the Belgian, Cypriote, German, Israeli, Italian and Swiss pig industry. Infections with tetracycline resistant C. suis strains are mainly associated with severe reproductive failure leading to marked economical loss. We developed a sensitive and specific TaqMan probe-based C. suis real-time PCR for examining clinical samples of both pigs and humans. The analytical sensitivity of the real-time PCR is 10 rDNA copies/reaction without cross-amplifying DNA of other Chlamydia species. The PCR was successfully validated using conjunctival, pharyngeal and stool samples of slaughterhouse employees, as well as porcine samples from two farms with evidence of reproductive failure and one farm without clinical disease. Chlamydia suis was only detected in diseased pigs and in the eyes of humans. Positive humans had no clinical complaints. PCR results were confirmed by culture in McCoy cells. In addition, Chlamydia suis isolates were also examined by the tet(C) PCR, designed for demonstrating the tetracycline resistance gene tet(C). The tet(C) gene was only present in porcine C. suis isolates.