A solute binding protein of Streptococcus pneumoniae iron transport

Streptococcus pneumoniae causes considerable morbidity and mortality throughout the world. Iron acquisition is an important virulence factor for bacterial pathogens. Two loci, piu and pia, were identified as responsible for the hemoglobin utilization of S. pneumoniae. The binding activity and surface accessibility of the solute binding protein of PiuA were studied. PiuA is a lipoprotein, binds hemin and hemoglobin, resides on the cytoplasmic membrane, and is not exposed on the surface of S. pneumoniae. The localization of PiuA has implications in its role in hemoglobin utilization and possible use as a pneumococcal vaccine.     

肺炎链球菌血红素结合脂蛋白PiuA的表达、纯化和表征

【背景】肺炎链球菌是社区获得性肺炎最常见的致病菌之一,它也会引起脑膜炎、鼻窦炎、中耳炎、菌血症等一系列疾病,对人类(特别是儿童、老人、免疫缺陷患者)健康造成重大威胁。铁是肺炎链球菌生存和感染所必需的元素之一,其中血红素转运系统PiuABCD是肺炎链球菌最重要的铁转运系统。【目的】克隆、表达和纯化肺炎链球菌血红素转运系统脂蛋白PiuA,并在体外表征PiuA蛋白的血红素结合特性。【方法】将肺炎链球菌D39菌株中的piuA(spd_1652)基因连接到载体pBAD-HisA上,在大肠杆菌Top10菌株中进行异源表达,然后运用Ni-NTA亲和层析纯化PiuA-His蛋白,并用肠激酶切掉His标签获得不含标签的PiuA蛋白,最后运用圆二色谱、紫外光谱和荧光光谱表征PiuA蛋白的血红素结合特性。【结果】构建了pBAD/HisA-PiuA重组表达载体,获得了纯度大于95%的PiuA蛋白,圆二色谱显示PiuA蛋白与Hemin结合后,其二级结构不发生改变;紫外光谱结果显示PiuA蛋白具有血红素结合能力;荧光光谱结果显示apo-PiuA蛋白与Hemin结合常数K=3.4×10~5 L/mol。【结论】肺炎链球菌血红素转运系统脂蛋白PiuA能够特异地结合血红素,为肺炎链球菌的生存和感染提供必需的铁源,PiuA蛋白的体外表征结果为针对PiuABCD血红素转运系统设计抗菌药物奠定了基础。     

Streptococcus pneumoniae heat shock protein 70 does not induce human antibody responses during infection

Mouse monoclonal antibodies (mAbs) were developed against Streptococcus pneumoniae in search for potential common pneumococcal proteins as vaccine antigens. mAb 230,B-9 (IgG1) reacted by immunoblotting with a 70-kDa protein which was isolated by immunoaffinity chromatography and subsequent preparative electrophoresis. N-terminal amino acid sequencing showed homology to that of heat shock protein 70 (hsp70). The hsp70 epitope reactive with mAb 230,B-9 was found in all the pneumococci examined as well as in other streptococci and enterococci. The epitope was not expressed in several other examined Gram-positive or -negative bacteria. Pneumococcal hsp70 has by other investigators been proposed to be a vaccine candidate. Binding experiments using flow cytometry showed that the epitope was not surface-exposed on live exponential phase grown S. pneumoniae. Human patient sera did not react with affinity-purified pneumococcal hsp70. Therefore the pneumococcal hsp70 does not seem to be of special interest in a vaccine formulation. The human sera contained antibodies to high molecular proteins co-purified with hsp70. Some of these proteins could be the pneumococcal surface protein A.     

Distribution and genetic diversity of the ABC transporter lipoproteins PiuA and PiaA within Streptococcus pneumoniae and related streptococci

Streptococcus pneumoniae is a major cause of morbidity and mortality worldwide. The existence of approximately 90 antigenically distinct capsular serotypes has greatly complicated the development of an effective pneumococcal vaccine. Virulence-associated proteins common and conserved among all capsular types now represent the best strategy to combat pneumococcal infections. PiuA and PiaA are the lipoprotein components of two pneumococcal iron ABC transporters and are required for full virulence in mouse models of infection. Here we describe a study of the distribution and genetic diversity of PiuA and PiaA within typical and atypical S. pneumoniae, Streptococcus oralis, and Streptococcus mitis strains. The genes encoding both PiuA and PiaA were present in all typical pneumococci tested, (covering 20 and 27 serotypes, respectively). The piuA gene was highly conserved within the typical pneumococci (0.3% nucleotide divergence), but was also present in "atypical" pneumococci and the closely related species S. mitis and S. oralis, showing up to 10.4% nucleotide divergence and 7.5% amino acid divergence from the typical pneumococcal alleles. Conversely, the piaA gene was found to be specific to typical pneumococci, 100% conserved, and absent from the oral streptococci, including isolates of S. mitis known to possess pneumolysin and autolysin. These are desirable qualities for a vaccine candidate and as a diagnostic tool for S. pneumoniae.     

Isolation,identification of Streptococcus pneumoniae from infected rhesus monkeys and control efficacy

Background Streptococcus pneumoniae can cause a wide variety of illnesses. Primate animals can be infected by the pneumococcus. A disease occurred among rhesus monkeys in winter 2006. Methods Routine clinical observation, necropsies, bacteriological examinations were conducted, and PCR, pathogenicity to BALB/c mice and antibiotic susceptibility test were examined additionally. Results We conclude that the agent is S. pneumoniae. Based on the antibiotic susceptibility test, a dose of 20 mg/kg body weight daily of Erythromycin was given intramuscular injection for 5 days, resulting in the disappearance of clinical signs, and no newly case reappear be observed till today. Conclusions Therefore, it is suggested that the outbreak of respiratory disease in the rhesus monkeys was because of transmission of S. pneumoniae among rhesus monkeys. The antibiotic therapy finding underscores the utility of Erythromycin to cure the infected rhesus monkeys without causing side effects and without contributing to the further development of antibiotic resistance.     

Local and systemic immunity against Streptococcus pneumoniae: Humoral responses against a non-capsulated temperature-sensitive mutant

Abstract Temperature-sensitive mutants of Streptococcus pneumoniae were isolated after chemical mutagenesis. Intranasal immunization with temperature-sensitive mutant J/3 induced higher levels of circulating antibody than those obtained after immunization with the heat-killed parental wild type. Moreover, local immunization with mutant J/3 induced high levels of anti- S. pneumoniae IgG and IgA in the lower respiratory tract, whereas only moderate IgG (and no IgA) antibodies were detected in lung lavage fluids from mice immunized intranasally with the heat-killed strain.     

肺炎链球菌转化模型的建立与优化

建立肺炎链球菌转化模型,优化转化体系,提高转化率,以便于进一步研究其致病的分子机制。制备肺炎链球菌感受态,首先在不同菌密度下转化外源DNA,计数抗生素筛选平板上的转化菌落,比较其转化率,确定转化的最适菌密度;然后在此菌密度下比较CSP诱导不同时相的转化率,同时用RT-PCR检测感受态调控基因comE的表达。对所用血清3型菌株而言转化的最适菌密度在OD550=0.09~0.10之间;CSP-2诱导10 min后转化率最高,可达(15.6±3)%;comE的表达也在CSP-2诱导10 min后达到最高。在实验室条件下,肺炎链球菌转化受多种因素的影响,必需控制好各种因素,选择最优条件才能获得稳定、高效的转化。     

Human transferrin as a source of iron for Streptococcus intermedius

Streptococcus intermedius is well known to produce severe infections in various areas of the body. In this study, we evaluated the ability of S. intermedius to utilise human transferrin as a source of iron and investigated the mechanism by which iron can be obtained from this plasma protein. Adding either ferrous sulfate or holotransferrin to an iron-deficient culture medium allowed growth of S. intermedius. Cultivation of S. intermedius under an iron-poor condition was associated with the over expression of a 58 kDa cell surface protein. Neither siderophore activity nor reductase activity could be detected. Moreover, cells of S. intermedius did not show transferrin-binding activity or proteolytic activity toward transferrin. It was found that S. intermedius could rapidly decrease the pH of the medium during cell growth, resulting in a release of iron from holotransferrin. When the buffering capacity of the culture medium was significantly increased, the holotransferrin could not support growth of S. intermedius. It is suggested that under certain circumstances, S. intermedius may migrate from its normal niche (oral cavity), reach a particular site and create a localised environment where the pH can be lowered with the subsequent release of iron from transferrin. This would allow bacterial growth and initiation of the infectious process.     

MALDI-TOF MS对肺炎链球菌鉴定与分型的应用

目的 探讨MALDI-TOF MS对肺炎链球菌鉴定和质谱分型的应用价值。方法 收集2009年1月至2013年5月温州医科大学附属第二医院临床分离的112株肺炎链球菌标本,采用Optochin敏感试验和全自动细菌分析仪对收集的菌株进行鉴定验证,并用Microflex MALDI-TOF质谱仪进行分析鉴定。根据质谱图的相似性进行细菌同源聚类树分析并构建质谱分型模型,采用荚膜肿胀试验对参与分型的菌株进行血清型比较。结果 除20株不符合检测条件之外,92株临床菌株和1株标准株经质谱分析均为肺炎链球菌,选取的60株菌株以0.5的差异水平,将60株肺炎链球菌分为18个质谱型别,在这些菌株的血清分型中有19F、19A、23F、23A、3和14六个血清型别,分布于不同的MALDI-TOF MS分型中,其中19F有18株,占30%（18/60）,分布在6种不同的MALDI-TOF MS分型中,也有3型血清型较为集中地分布于相应的MALDI-TOF MS一个型别里。结论 MALDI-TOF MS能快速、准确、简便地鉴定肺炎链球菌,且能达到种的水平。对比血清型,按照0.5差异水平,建立的18个质谱分型部分的型别与血清型有一致性,但也存有差异。     

Versatility of choline metabolism and choline-binding proteins in Streptococcus pneumoniae and commensal streptococci

The pneumococcal choline-containing teichoic acids are targeted by choline-binding proteins (CBPs), major surface components implicated in the interaction with host cells and bacterial cell physiology. CBPs also occur in closely related commensal species, Streptococcus oralis and Streptococcus mitis , and many strains of these species contain choline in their cell wall. Physiologically relevant CBPs including cell wall lytic enzymes are highly conserved between Streptococcus pneumoniae and S. mitis . In contrast, the virulence-associated CBPs, CbpA, PspA and PcpA, are S. pneumoniae specific and are thus relevant for the characteristic properties of this species.     

Transformation of a type 4 encapsulated strain of Streptococcus pneumoniae

Streptococcus pneumoniae strain JNR.7/87 is a highly virulent, type 4 encapsulated Gram-positive bacterium whose transformability has not been tested previously, and whose genome is currently being sequenced. The strain was transformed at very low efficiency by addition of exogenous competence-stimulating peptide: However, the efficiency was too low and irreproducible to be useful in many genetic studies. Therefore, the effects on transformation efficiency of changing different components of competence-stimulating peptide-induced transformation have been examined. Screening of growth media was followed by optimization of pre-induction culture acidification, glycine concentration, and induction time. An optimized protocol was developed whereby S. pneumoniae strain JNR.7/87 was transformed reproducibly with a streptomycin resistance (SmR) marker at an efficiency of approximately 10(5) colony forming units per 10(8) cells.     

Molecular characterization of Streptococcus pneumoniae,particularly serotype19A/ST320, which emerged in Krasnoyarsk,Russia

Streptococcus pneumoniae , a common human pathogen, colonizes the nasopharynx and causes diseases including acute otitis media (AOM). Herein, pneumococcal serotype distributions in children before and after PCV7 vaccination and in patients with pneumococcal disease in Siberian Russia (Krasnoyarsk) are reported. Analyses included antimicrobial susceptibility testing, sequence typing (ST), pulsed field gel electrophoresis, virulence‐related surface protein gene (VSG) typing with novel primers and structural analysis by scanning electron microscopy. In healthy children (HC) prior to administration of PCV7, drug‐susceptible serotype23F/ST1500 was a major pneumococcal genotype. In the PCV7 trial, multidrug‐resistant serotype19A/ST320 emerged in vaccinees after PCV7, exhibiting a PCV7‐induced serotype replacement. Multidrug‐resistant serotype19A/ST320 was evident in patients with AOM. Community‐acquired pneumonia (CAP) isolates showed genetic similarities to the AOM (ST320) genotype, constituting a common non‐invasive AOM–CAP group. In contrast, meningitis isolates were more divergent. Overall, 25 ST types were identified; five (20%) of which were Krasnoyarsk‐native. Regarding VSGs, PI‐1 (rlrA /rrgB ), PI‐2 (pitA /B ), psrP and cbpA were present at 54.3%, 38.6%, 48.6%, and 95.7%, respectively, with two major VSG content types, PI‐1^?/PI‐2^?/psrP ⁺/cbpA ⁺ and PI‐1⁺/PI‐2⁺/psrP ^‐/cbpA ⁺, being found for HC and non‐invasive diseases, respectively. A major clone of serotype19A/ST320 (PI‐1⁺/PI‐2⁺) produced the longest pneumococcal wire (pilus) structures in colonies. ST1016 (PI‐1^?/PI‐2^?) in HC had HEp‐2 cell‐adherent pili. These results suggest that serotype19A/ST320 and related genotypes, with the VSG content type PI‐1⁺/PI‐2⁺/psrP ^?/cbpA ⁺, emerged in vaccinees after PCV7 in Siberia, accompanying diseases in non‐vaccinated children, and that some genotypes (serotypes19A/ST320 and 18/ST1016) produced novel pneumococcal structures, predicting their roles in colony formation and adherence.

     

肺炎链球菌SP0306蛋白的表达纯化及结晶研究

SP0306蛋白是肺炎链球菌TIGR4菌株中的一种假想的转录因子,但其蛋白三维结构及生物学功能尚未明了,生物信息学分析提示其可能调控碳水化合物代谢相关基因的表达。成功构建了SP0306蛋白的全长表达载体PET28a-sp0306,利用大肠杆菌BL21(DE3)菌株进行原核表达,获得了以可溶形式表达的目的蛋白。经Ni-NTA柱亲和层析及DEAE阴性离子交换层析纯化后,获得了高纯度的目的蛋白。采用悬滴气相扩散法获得了质量较好的SP0306蛋白晶体,并初步进行了晶体X射线衍射,为其最终的三维结构解析及生物学功能研究奠定了基础。     

In vitro compared activity of telithromycin and azithromycin against northwest Italian isolates of Streptococcus pyogenes and Streptococcus pneumoniae with different erythromycin susceptibility

Aims: This study compared the in vitro activity of telithromycin with that of azithromycin against 438 Streptococcus pyogenes and 198 Streptococcus pneumoniae, isolated over the period 2005–2007 from specimens of different human origin obtained in three Piemonte Region’s hospitals. Methods and Results: The determination of antimicrobial activity was evaluated by the microdilution broth method and the erythromycin‐resistant (Ery‐R) phenotypes by the triple‐disc test. Exactly 78·8% of S. pyogenes and 69·2% of S. pneumoniae were erythromycin‐susceptible (Ery‐S). Concerning S. pyogenes, telithromycin was active against M and inducible MLS_B, subtype‐C, phenotypes but not against constitutive MLS_B strains. Telithromycin acted well against all S. pneumoniae, irrespective of their mechanism of macrolide‐resistance. On the contrary, the Ery‐R isolates, both S. pyogenes and S. pneumoniae, were resistant to azithromycin. Conclusions: Our results indicate that macrolide resistance in streptococci still persist in northwest Italy (21·2% of S. pyogenes and 30·8% of S. pneumoniae) and that telithromycin is confirmed as being extremely active even against recent clinical Ery‐R streptococcal isolates. Significance and Impact of the Study: The present study emphasizes that an active surveillance of the phenotype distribution and antibacterial resistance in streptococci is essential in guiding the effective use of empirical treatment option for streptococcal infections, also at regional level.     

114株肺炎链球菌的临床分布及药敏分析

目的波市妇女儿童医院肺炎链球菌的临床分布和耐药情况,为临床合理用药提供依据。方法对该院2009年6月1日至2011年3月31日期间分离的114株肺炎链球菌进行分析,菌株鉴定采用法国生物梅里埃公司的VITEK60分析仪,药敏试验采用K-B法,用参考菌株做质量控制。结果该院分离的肺炎链球菌主要来自儿童（84.21%）,标本来源主要是痰液（61.4%）,其次是血液（9.65%）,其他（28.95%）。肺炎链球菌的耐药率：林可霉素92.19%,红霉素90.12%,青霉素G85.53%,左旋氧氟沙星20.24%,氨苄西林16.67%,头孢唑啉8.7%,头孢曲松5.8%,头孢噻肟4.11%,万古霉素0%,氨苄西林/舒巴坦0%,哌拉西林/他唑巴坦0%。结论宁波市妇女儿童医院肺炎链球菌对某些药物的耐药率很高,有必要对其进行耐药率监测,指导临床合理选择抗菌药物。     

侵袭性和非侵袭性肺炎链球菌耐药率的比较分析

目的研究侵袭性和非侵袭性肺炎链球菌的耐药谱的差异,指导合理应用抗生素及感染管理。方法回顾性统计分析2009至2011年来天台县人民医院就诊患者分离肺炎链球菌的标本来源及耐药性,比较侵袭性和非侵袭性肺炎链球菌耐药率之间的差异。结果共分离出肺炎链球菌642株,痰液中分离出584株,非痰液中分离出58株,其中血液中分离出32株,脑脊液中分离出20株,其他分离出6株,所有肺炎链球菌对万古霉素和利奈唑胺均敏感,对青霉素、红霉素、克林霉素、四环素及复方新诺明耐药严重,对左氧氟沙星、氯霉素比较敏感;侵袭性分离株对青霉素、红霉素、克林霉素、左氧氟沙星、四环素及氯霉素的耐药率显著高于非侵袭性肺炎链球菌。结论该院分离的肺炎链球菌主要来自痰液标本,耐青霉素肺炎链球菌的检出率高,大环内酯类耐药严重,存在一定比例的侵袭性感染,非侵袭菌株与侵袭性菌株耐药谱之间存在一定差异,临床治疗应该区别对待,系统的监测细菌耐药性,合理选择抗菌药物。     

Deletion analysis of the essentiality of penicillin-binding proteins 1A, 2B and 2X of Streptococcus pneumoniae

Abstract An internal fragment from each of the penicillinebinding protein (PBP) 1A, 2B and 2X genes of Streptococcus pneumoniae , which included the region encoding the active-site serine residue, was replaced by a fragment encoding spectinomycin resistance. The resulting constructs were tested for their ability to transform S. pneumoniae strain R6 to spectinomycin resistance. Spectinomycin-resistant transformants could not be obtained using either the inactivated PBP 2X or 2B genes, suggesting that deletion of either of these genes was a lethal event, but they were readily obtained using the inactivated PBP 1A gene. Analysis using the polymerase chain reaction confirmed that the latter transformants had replaced their chromosomal copy of the PBP 1A gene with the inactivated copy of the gene. Deletion of the PBP 1A gene was therefore tolerated under laboratory conditions and appeared to have little effect on growth or susceptibility to benzylpenicillin.     

Streptococcus pneumoniae proteomics: determinants of pathogenesis and vaccine development

Streptococcus pneumoniae is a major pathogen that is responsible for a variety of invasive diseases. The bacteria gain entry initially by establishing a carriage state in the nasopharynx from where they migrate to other sites in the body. The worldwide distribution of the bacteria and the severity of the diseases have led to a significant level of interest in the development of vaccines against the bacteria. Current vaccines, based on the bacterial polysaccharide, have a number of limitations including poor immunogenicity and limited effectiveness against all pneumococcal serotypes. There are many challenges in developing vaccines that will be effective against the diverse range of isolates and serotypes for this highly variable bacterial pathogen. This review considers how proteomic technologies have extended our understanding of the pathogenic mechanisms of nasopharyngeal colonization and disease development as well as the critical areas in developing protein-based vaccines.