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.     

儿童感染肺炎链球菌的青霉素结合蛋白基因突变分析

目的 分析儿童感染肺炎链球菌的青霉素结合蛋白基因突变与青霉素耐药水平之间的关系。方法 自2012年1月至2014年12月期间分离的1 317株肺炎链球菌中随机抽取出青霉素MIC=2.0 µg/mL、4.0 µg/mL、≥8.0 µg/mL各20株共60株作为实验菌株,采用PCR方法对实验菌株进行青霉素结合蛋白PBP1a、PBP1b、PBP2a、PBP2b、PBP2x、PBP3的基因扩增,扩增产物进一步纯化和测序,测序结果与青霉素敏感肺炎链球菌R6就国际上公认的PBPs保守序列进行比对分析。结果 60株肺炎链球菌的PBP2b、PBP1a、PBP2x、PBP2a基因的保守区或保守区附件均发现氨基酸突变,未发现PBP3与PBP1b突变。中介与耐药菌株基因突变位点存在重合,主要出现在单一的PBP1a序列的370STMK模体元件内Thr371Ser置换突变或伴有PBP2b序列的Thr451Ala/Ser和Ala624Gly置换突变,同时PBP2a序列的465SLN模体元件前置位发生Ser461Ala的置换突变。结论 肺炎链球菌对青霉素中、高水平耐药菌株绝大部分合并有不同PBP序列中4~6个氨基酸的置换突变,但合并多个氨基酸置换突变并非必然引起耐药水平相应升高。中、高水平耐药与PBP1a、PBP2b、PBP2a的变异关系密切,其中PBP1a的STMK保守区域Thr371Ser置换是引起耐药的主要因素之一。     

Relatedness between Streptococcus pneumoniae and viridans streptococci: transfer of penicillin resistance determinants and immunological similarities of penicillin-binding proteins

The occurrence of highly variable penicillin-binding proteins (PBPs) in penicillin-resistant Streptococcus pneumoniae suggested that transfer of homologous genes from related species may be involved in resistance development. Antiserum and monoclonal antibodies raised against PBPs 1a and 2b from the susceptible S. pneumoniae R6 strain were used to identify related PBPs in 41 S. mitis, S. sanguis I and S. sanguis II strains mostly isolated in South Africa with MIC values ranging from less than 0.15 to 16 mg/ml. Furthermore, the possibility of genetic exchange was examined with 30 penicillin-resistant strains of this collection (MIC greater than 0.06 mg/ml) as donors using S. pneumoniae R6 as recipient in transformation experiments. The majority of S. mitis and S. sanguis II strains but none of the S. sanguis I strains could transform penicillin resistance genes into S. pneumoniae R6. All positive donor strains and all susceptible isolates of S. mitis and S. sanguis II strains contained PBPs which cross-reacted with the anti-PBP 1a and/or anti-PBP 2b antibodies. On the other hand, only five of the 14 S. sanguis I strains contained a PBP that reacted with one of the antibodies. This strongly suggested the presence of genes homologous to the pneumococcal PBP 1a and 2b genes in viridans streptococci, and documents that penicillin resistance determinants can be transformed from viridans streptococci into the pneumococcus.     

Effect of lipoteichoic acid on the uptake of Streptococcus pyogenes by HEp-2 cells

Lipoteichoic acid (LTA) is thought to play a role in the interactions between Streptococcus pyogenes and host cells. We have examined the effect of exogenous LTA on the adherence and entry of S. pyogenes JRS4 strain into HEp-2 epithelial cells. LTA markedly inhibited bacterial entry in a concentration-dependent manner, up to 250 microg ml(-1). In contrast, LTA had only a slight inhibitory effect on adherence. LTA also inhibited the entry but not adherence of Salmonella typhimurium strain into HEp-2 cells. Binding experiments showed a dose-dependent binding of LTA to cells up to 10 microg ml(-1). Confocal laser microscopy imaging and analysis revealed that LTA was internalized by the epithelial cells and colocalized with F-actin. These results might imply that, following binding, exogenous LTA enters HEp-2 cells and exerts a cytotoxic effect that interferes with bacterial internalization. A possible target for LTA activity might be the actin cytoskeleton, which is known to be essential for bacterial uptake.     

The streptococcolytic enzyme zoocin A is a penicillin-binding protein

Zoocin A is a streptococcolytic enzyme produced by Streptococcus equi subsp. zooepidemicus 4881 that has an unknown site of action on the peptidoglycans of susceptible organisms. Analysis of a mutant strain in which the genes for zoocin A and resistance to zoocin A were inactivated revealed that this strain was more susceptible to beta-lactam antibiotics than the parental organism. Purified zoocin A had weak beta-lactamase activity, bound radioactive penicillin covalently, and its streptococcolytic activity was inhibited by penicillin. Thus, zoocin A is a penicillin-binding protein and presumably is a D-alanyl endopeptidase.     

Listeria monocytogenes EGD lacking penicillin-binding protein 5 (PBP5) produces a thicker cell wall

We report on the cloning of the structural gene for penicillin-binding protein 5 (PBP5), lmo2754. We also describe the enzymatic activity of PBP5 and characterize a mutant lacking this activity. Purified PBP5 has dd-carboxypeptidase activity, removing the terminal D-alanine residue from murein pentapeptide side chains. It shows higher activity against low molecular weight monomeric pentapeptide substrates compared to dimeric pentapeptide compound. Similarly, PBP5 preferentially cleaves monomeric pentapeptides present in high-molecular weight murein sacculi. A Listeria monocytogenes mutant lacking functional PBP5 was constructed. Cells of the mutant are viable, showing that the protein is dispensable for growth, but grow slower and have thickened cell walls.     

Purification and partial characterization of a cohaemolysin (CAMP-factor) produced by Streptococcus canis

Abstract A cohaemolysin from the culture supernate of a canine pathogenic group G streptococcus ( S. canis ) was purified to electrophoretic homogeneity. The purification procedure involved ammonium sulphate precipitation, ultrafiltration, gel filtration and preparative isoelectric focusing. The cohaemolysin consisted of a single polypeptide chain, 18.6 kDa, with an isoelectric point at pH 5.1. The protein reacted with an homologous anti-serum, appeared to be trypsin-sensitive and relatively heat-stable. The cohaemolysin did not show any non-specific IgG binding activities.     

Crystal structure of penicillin-binding protein 1a (PBP1a) reveals a mutational hotspot implicated in beta-lactam resistance in Streptococcus pneumoniae

Streptococcus pneumoniae is a major human pathogen whose infections have been treated with beta-lactam antibiotics for over 60 years, but the proliferation of strains that are highly resistant to such drugs is a problem of worldwide concern. Beta-lactams target penicillin-binding proteins (PBPs), membrane-associated enzymes that play essential roles in the peptidoglycan biosynthetic process. Bifunctional PBPs catalyze both the polymerization of glycan chains (glycosyltransfer) and the cross-linking of adjacent pentapeptides (transpeptidation), while monofunctional enzymes catalyze only the latter reaction. Although S. pneumoniae has six PBPs, only three (PBP1a, PBP2x, PBP2b) are major resistance determinants, with PBP1a being the only bifunctional enzyme. PBP1a plays a key role in septum formation during the cell division cycle and its modification is essential for the development of high-level resistance to penicillins and cephalosporins. The crystal structure of a soluble form of pneumococcal PBP1a (PBP1a*) has been solved to 2.6A and reveals that it folds into three domains. The N terminus contains a peptide from the glycosyltransfer domain bound to an interdomain linker region, followed by a central, transpeptidase domain, and a small C-terminal unit. An analysis of PBP1a sequences from drug-resistant clinical strains in light of the structure reveals the existence of a mutational hotspot at the entrance of the catalytic cleft that leads to the modification of the polarity and accessibility of the mutated PBP1a active site. The presence of this hotspot in all variants sequenced to date is of key relevance for the development of novel antibiotherapies for the treatment of beta-lactam-resistant pneumococcal strains.     

Cytoplasmic Membrane-Associated Protein (CAP) Isolated from Streptococcus pyogenes: As a New Bacterial Superantigen

A protein isolated from the cytoplasmic membranes of Streptococcus pyogenes (cytoplasmic membrane-associated protein, CAP) stimulated human T cells in vitro to induce their mitogenic response. This CAP-induced T cell proliferation required the presence of nylon-adherent accessory cells (AC) of either autologous or allogeneic origin in the reaction mixtures. In addition, the reaction was inhibited by monoclonal antibodies (mAbs) against major histocompatibility complex (MHC) class II molecules, HLA-DR and -DQ, but not -DP. Human lymphoid cell lines positive for HLA-DR but not those lacking it were also effective as AC for the reaction. A binding test using fluorescein-labeled protein revealed that CAP bound to the adherent monocytes and HLA-DR⁺ but not to -DR^– lymphoid cell lines. The proliferative response of T cells to CAP was, however, not inhibited by the addition of the lysosomotrophic agent NH₄Cl to the reaction mixtures. These results suggest that the presentation of CAP by AC to human T cells is mediated through binding of the protein to the MHC class II molecules but without being processed in the AC. The proliferative response of T cells was also found to be inhibited by addition of anti-CD2, -CD3 or -T cell receptor (TcR) mAbs. A major population responding to CAP was CD3⁺4⁺8^– T cells. CAP also appears to stimulate T cells bearing Vβ8 sequences much more selectively than T cells bearing other Vβs. These results indicate that this streptococcal membrane protein, CAP, may be a new protein belonging to a group of bacterial superantigens.     

Cloning and characterization of the gene, speC, for pyrogenic exotoxin type C from Streptococcus pyogenes

Summary The structural gene of streptococcal pyrogenic exotoxin type C (SPE C) was cloned from the chromosome of Streptococcus pyogenes strain T18P into Escherichia coli using pBR328 as the vector plasmid. Subcloning enabled the localization of the gene (speC) to a 1.7 kb fragment. Partially purified E. coli-derived SPE C and purified streptococcal-derived SPE C, were shown to have the same molecular weight (23 800) and biological activities. A DNA probe, prepared from cloned speC, cross-hybridized with the structural genes of SPE A and SPE B indicating relatedness at the nucleotide level. The speC-derived probe also hybridized to a fragment of CS112 bacteriophage DNA containing the phage attachment site.     

Epitope mapping of pneumococcal surface protein A of strain Rx1 using monoclonal antibodies and molecular structure modelling

Pneumococcal surface protein A (PspA) is an antigenic variable vaccine candidate of Streptococcus pneumoniae. Epitope similarities between PspA from the American vaccine candidate strain Rx1 and Norwegian clinical isolates were studied using PspA specific monoclonal antibodies (mAbs) made against clinical Norwegian strains. Using recombinant PspA/Rx1 fragments and immunoblotting the epitopes for mAbs were mapped to two regions of amino acids, 1-67 and 67-236. The discovered epitopes were visualized by modelling of the PspA:Fab part of mAb in three dimensions. Flow cytometric analysis showed that the epitopes for majority of mAbs were accessible for antibody binding on live pneumococci. Also, the epitopes for majority of the mAbs are widely expressed among clinical Norwegian isolates.     

Role of M3 protein in the adherence and internalization of an invasive Streptococcus pyogenes strain by epithelial cells

Streptococcus pyogenes utilizes multiple mechanisms for adherence to and internalization by epithelial cells. One of the molecules suggested of being involved in adherence and internalization is the M protein. Although strains of the M3 serotype form the second largest group isolated from patients with severe invasive diseases and fatal infections, not much information is known regarding the interactions of M3 protein with mammalian cells. In this study we have constructed an emm3 mutant of an invasive M3 serotype (SP268), and demonstrated that the M3 protein is involved in both adherence to and internalization by HEp-2 cells. Fibronectin promoted both adherence and internalization of SP268 in an M3-independent pathway. Utilizing speB and speB/emm3 double mutants, it was found that M3 protein is not essential for the maturation of SpeB, as was reported for the M1 protein. Increased internalization efficiency observed in both the speB and emm3/speB mutants suggested that inhibition of S. pyogenes internalization by SpeB is not related to the presence of an intact M3 protein. Thus, other proteins in SP268, which serve as targets for SpeB activity, have a prominent role in the internalization process.     

Characterisation of a monoclonal antibody and its use in the immunoaffinity purification of penicillin-binding protein 2'' of methicillin-resistant Staphylococcus aureus

The additional penicillin-binding protein (PBP) 2' that is important in determining intrinsic resistance in methicillin-resistant strains of Staphylococcus aureus (MRSA) has been purified by affinity chromatography using monoclonal antibodies. Monoclonal antibody 1/423.10.351 reacted in ELISA with detergent extracts of membranes from resistant organisms, but not in immunoblots with PBP 2' separated by SDS-PAGE. Immunoprecipitation experiments showed that antibody 1/423.10.351 reacted with PBP 2' in detergent extracts. The latter antibody, covalently coupled to protein A-Sepharose through the Fc region, served as an affinity matrix to purify PBP 2'. The PBP was detected in immunoblots using a second monoclonal antibody, 2/401.43. Conjugation of this antibody with alkaline phosphatase afforded more rapid detection of PBP 2' for the immunological detection of PBP 2' both in affinity-purified fractions and in resistant strains.     

Epitope analyses of pneumococcal surface protein A: a combination of two monoclonal antibodies detects 94% of clinical isolates

Immunisation of BALB/c mice with seven heat-treated Norwegian clinical isolates of Streptococcus pneumoniae of different serotypes elicited mainly monoclonal antibodies (mAbs) to pneumococcal surface protein A (PspA). It was remarkable that the fusions resulted only in a few mAbs directed against other protein antigens. Dot blot analysis with 16 mAbs using clinical isolates representing 23 different capsular types and the uncapsulated reference strain R36A showed that some of the mAbs bound to PspA epitopes expressed by a low number of strains whereas others bound to broadly distributed epitopes. On the basis of their reactivities, seven of these mAbs could be divided into two groups recognising different subsets of pneumococci. The three mAbs in the narrow reacting group bound to epitopes found in 21-25% of the strains whereas the four mAbs in the broad reacting group detected more than 57% of the analysed strains. The epitopes for these seven antibodies were surface exposed on live exponential phase grown pneumococci as shown by flow cytometry. The finding that a combination of mAb 180,C-1 (IgG2a) from the first group and mAb 170,E-11 (IgG2a) from the second group detected 94% of the examined strains is interesting because PspA has been reported by others to be a serological highly variable protein.     

Immunological detection of penicillin-binding protein 2'' in clinical isolates of methicillin-resistant Staphylococcus aureus and Staphylococcus epidermidis

The additional penicillin-binding protein (PBP 2') that is important in determining intrinsic resistance in methicillin-resistant strains of Staphylococcus aureus (MRSA) has been detected immunologically in strains from a variety of world-wide locations. This additional protein has also been definitively identified both immunologically and as a PBP in methicillin-resistant strains of S. epidermidis (MRSE). The assay described is rapid, specific and sensitive and has been used to detect PBP 2' in S. haemolyticus but not in beta-lactam resistant Streptococci.     

The role of penicillin-binding protein 3 (PBP 3) in cefotaxime resistance in Streptococcus pneumoniae

A pneumococcal strain, with a reduced amount of penicillin-binding protein 3 (PBP 3), permitted an analysis of the role of this protein in cefotaxime resistance. We observed that reduced amounts of PBP 3 sensitize the bacteria to high temperature, to excess glycine and to some D-amino acids. These phenotypes suggest that the amount of PBP 3 may influence the membrane properties of the bacteria. The strain with reduced PBP 3 was transformed to cefotaxime resistance. We show that the PBP 3 mutation, in certain genetic backgrounds, decreases the level of resistance to cefotaxime by a factor of 2. Models are presented to explain this result.     

Novel vaccine strategies with protein antigens of Streptococcus pneumoniae

Infections caused by Streptococcus pneumoniae (pneumococcus) are a major cause of mortality throughout the world. This organism is primarily a commensal in the upper respiratory tract of humans, but can cause pneumonia in high-risk persons and disseminate from the lungs by invasion of the bloodstream. Currently, prevention of pneumococcal infections is by immunization with vaccines which contain capsular polysaccharides from the most common serotypes causing invasive disease. However, there are more than 90 antigenically distinct serotypes and there is concern that serotypes not included in the vaccines may become more prevalent in the face of continued use of polysaccharide vaccines. Also, certain high-risk groups have poor immunological responses to some of the polysaccharides in the vaccine formulations. Protein antigens that are conserved across all capsular serotypes would induce more effective and durable humoral immune responses and could potentially protect against all clinically relevant pneumococcal capsular types. This review provides a summary of work on pneumococcal proteins that are being investigated as components for future generations of improved pneumococcal vaccines.     

青霉素结合蛋白2a单克隆抗体的研制和初步应用

目的研制青霉素结合蛋白2a(PBP2a)单克隆抗体(Mc Ab),为建立耐甲氧西林金黄色葡萄球菌(MRSA)免疫层析检测方法提供检测用抗体。方法以基因工程抗原r PBP2a免疫BALb/c小鼠,通过常规小鼠B淋巴细胞杂交瘤技术制备单克隆抗体,采用免疫印迹技术(Western blotting)分析单克隆抗体特异性。选取敏感、特异的单克隆抗体进行金标记和硝酸纤维膜包被,建立胶体金免疫层析检测方法。结果共获得11株分泌抗r PBP2a的杂交瘤细胞,其中6株分泌的单克隆抗体能够与天然PBP2a呈阳性反应。用其中2株单克隆抗体建立的PBP2a胶体金免疫层析方法,可在5~20 min内完成检测。结论获得了特异性针对PBP2a蛋白的单克隆抗体,并初步建立了检测PBP2a蛋白的胶体金免疫层析检测方法,为临床快速、简便检测产生PBP2a的细菌提供了检测方法。