A sensitive chemiluminescence assay for pertussis toxin and for evaluation of cell-free pertussis toxoids

Abstract Pertussis toxin (PT) inhibited luminol-enhanced chemiluminescence induced in rabbit peritoneal neutrophils by N'-formyl- l -methionyl- l -leucyl- l -phenylalanine (fMLP) at doses as low as 0.8 ng·ml⁻¹, even in the presence of a 10-fold higher concentration of filamentous haemagglutinin (FHA). A cell-free extract of Bordetella pertusis , containing predominantly PT and FHA, suppressed the neutrophil response to fMLP. After toxoiding with carbodiimide, the inhibitory activity of the extract was abolished and an enhancement of neutrophil chemiluminescence was observed due to FHA activity. Abrogation of the chemiluminescent response of neutrophils to fMLP is proposed as a sensitive, in vitro assay for PT, and may be useful for monitoring the residual toxin activity in pertussis toxoids and for determining the anti-toxic effects of anti-PT antibodies.     

Structure and membrane-targeting of a Bordetella pertussis effector N-terminal domain

BteA, a 69-kDa cytotoxic protein, is a type III secretion system (T3SS) effector in the classical Bordetella, the etiological agents of pertussis and related mammalian respiratory diseases. Like other cytotoxicity-mediating effectors, BteA uses its multifunctional N-terminal domain to target phosphatidylinositol (PI)-rich microdomains in the host membrane. Despite their structural similarity, T3SS effectors exhibit a variable range of membrane interaction modes, and currently only limited structural information is available for the BteA membrane-targeting domain and the molecular mechanisms underlying its function. Employing a synergistic combination of structural methods, here we determine the structure of this functional domain and uncover key molecular determinants mediating its interaction with membranes. Residues 29–121 of BteA form an elongated four-helix bundle packed against two shorter perpendicular helices, the second of which caps the domain in a critical ‘tip motif’. A flexible region preceding the BteA helical bundle contains the characteristic β-motif required for binding its cognate chaperone BtcA. We show that BteA targets PI(4,5)P₂-containing lipoprotein nanodiscs and binds a soluble PI(4,5)P₂ analog via an extensive positively charged surface spanning its first two helices, and that this interaction is weaker for PI(3,5)P₂ and abolished for PI(4)P. We confirmed this model of membrane-targeting by observation of BteA-induced changes in the structure of PI(4,5)P₂-containing phospholipid bilayers using small-angle X-ray scattering (SAXS). We also extended these results to a larger BteA domain (residues 1–287), confirming its interaction with bilayers using calorimetry, fluorescence and SAXS methods. This novel view of the structural underpinnings of membrane targeting by BteA is an important step towards a comprehensive understanding of cytotoxicity in Bordetella, as well as interactions of a broad range of pathogens with their respective hosts.     

林麝源支气管败血波氏杆菌FMDBb1株的分离鉴定及全基因组序列分析

[背景] 呼吸系统疾病是圈养麝常见疾病之一,其中部分由支气管败血波氏杆菌引起,但目前关于林麝源支气管败血波氏杆菌的研究甚少。[目的] 对分离自患病林麝鼻黏液的一株疑似支气管败血波氏杆菌进行分离鉴定和全基因组序列分析,为林麝相关疾病的防治奠定基础。[方法] 将病原菌纯化培养后,通过菌落形态和生化试验初步鉴定病原菌类型,然后进行药敏试验和小鼠致病性试验以观察其耐药和毒力表型,最后对其进行全基因组测序,通过平均核苷酸一致性（Average Nucleotide Identity,ANI）比对在全基因组水平进一步评估物种间的亲缘关系,并进行基因功能注释和遗传进化分析。[结果] 该病原菌经ANI分类属于经典波氏杆菌亚种,结合菌落形态和生化结果综合鉴定为支气管败血波氏杆菌,菌株命名为FMDBb1,药敏表型显示其对林可霉素、利福平及大多数β-内酰胺类抗生素耐药,对小鼠的半数致死量为8.55×10⁶ CFU。全基因组测序显示该菌基因组大小为5 133 936 bp,基因功能注释显示其拥有强代谢能力,基因组内检测到65个经典波氏杆菌毒力因子,以及1个粉霉素和1个利福平的靶向耐药基因,同时发现19个插入序列和1个噬菌体区域的存在。序列类型为ST33,克隆复合体类型为CC6,管家基因联合建树分析显示与分离于韩国短毛猫的KVNON-570株相似性最高。[结论] 研究分离了林麝源支气管败血波氏杆菌并对其进行了全基因组测序及分析,为该病原菌感染的防治提供了宝贵的信息。     

Almost half of the RTX domain is dispensable for complement receptor 3 binding and cell-invasive activity of the Bordetella adenylate cyclase toxin

The whooping cough agent Bordetella pertussis secretes an adenylate cyclase toxin (CyaA) that through its large carboxy-proximal Repeat-in-ToXin (RTX) domain binds the complement receptor 3 (CR3). The RTX domain consists of five blocks (I–V) of characteristic glycine and aspartate-rich nonapeptides that fold into five Ca²⁺-loaded parallel β-rolls. Previous work indicated that the CR3-binding structure comprises the interface of β-rolls II and III. To test if further portions of the RTX domain contribute to CR3 binding, we generated a construct with the RTX block II/III interface (CyaA residues 1132–1294) linked directly to the C-terminal block V fragment bearing the folding scaffold (CyaA residues 1562–1681). Despite deletion of 267 internal residues of the RTX domain, the Ca²⁺-driven folding of the hybrid block III/V β-roll still supported formation of the CR3-binding structure at the interface of β-rolls II and III. Moreover, upon stabilization by N- and C-terminal flanking segments, the block III/V hybrid-comprising constructs competed with CyaA for CR3 binding and induced formation of CyaA toxin-neutralizing antibodies in mice. Finally, a truncated CyaAΔ_1295-1561 toxin bound and penetrated erythrocytes and CR3-expressing cells, showing that the deleted portions of RTX blocks III, IV, and V (residues 1295–1561) were dispensable for CR3 binding and for toxin translocation across the target cell membrane. This suggests that almost a half of the RTX domain of CyaA is not involved in target cell interaction and rather serves the purpose of toxin secretion.     

Analysis of Swedish Bordetella pertussis isolates with three typing methods: characterization of an epidemic lineage

Three Bordetella pertussis typing methods, pulsed-field gel electrophoresis (PFGE), multi-locus sequence typing (MLST), and multi-locus variable number tandem repeat analysis (MLVA) were compared using a collection of Swedish strains. Of the three typing methods used, PFGE was found to be the most discriminatory. MLVA and MLST were less discriminatory, but may be valuable for strain discrimination when culture is not possible as they are based on PCR. The combination of MLVA/MLST was found to be equally discriminatory as PFGE and should therefore also be considered. The relationship between predominant lineages in Sweden and the Netherlands, characterized by the PFGE type BpSR11 and the allele for the pertussis toxin promoter ptxP3, respectively, was investigated. Linkage was found between the PFGE type BpSR11 and ptxP3 in that all BpSR11 strains carried ptxP3. On the other hand ptxP3 was found in several other PFGE-types. The presence of the ptxP3 allele in different genetic backgrounds may indicate horizontal gene transfer within B. pertussis or homoplasy. Alternatively, this observation may be due to convergence of PFGE types.     

Globins Synthesize the Second Messenger Bis-(3′-5′)-Cyclic Diguanosine Monophosphate in Bacteria

Globin-coupled sensors are heme-binding signal transducers in Bacteria and Archaea in which an N-terminal globin controls the activity of a variable C-terminal domain. Here, we report that BpeGReg, a globin-coupled diguanylate cyclase from the whooping cough pathogen Bordetella pertussis, synthesizes the second messenger bis-(3′-5′)-cyclic diguanosine monophosphate (c-di-GMP) upon oxygen binding. Expression of BpeGReg in Salmonella typhimurium enhances biofilm formation, while knockout of the BpeGReg gene of B. pertussis results in decreased biofilm formation. These results represent the first identification a signal ligand for any diguanylate cyclase and provide definitive experimental evidence that a globin-coupled sensor regulates c-di-GMP synthesis and biofilm formation. We propose that the synthesis of c-di-GMP by globin sensors is a widespread phenomenon in bacteria.     

A dynamic metabolic flux balance based model of fed‐batch fermentation of bordetella pertussis

A mathematical model based on a dynamic metabolic flux balance (DMFB) is developed for a process of fed‐batch fermentation of Bordetella pertussis. The model is based on the maximization of growth rate at each time interval subject to stoichiometric constraints. The model is calibrated and verified with experimental data obtained in two different bioreactor experimental systems. It was found that the model calibration was mostly sensitive to the consumption or production rates of tyrosine and, for high supplementation rates, to the consumption rate of glutamate. Following this calibration the model correctly predicts biomass and by‐products concentrations for different supplementation rates. Comparisons of model predictions to oxygen uptake and carbon emission rates measurements indicate that the TCA cycle is fully functional. © 2013 American Institute of Chemical Engineers Biotechnol. Prog., 29: 520–531, 2013     

Calcium,Acylation, and Molecular Confinement Favor Folding of Bordetella pertussis Adenylate Cyclase CyaA Toxin into a Monomeric and Cytotoxic Form

The adenylate cyclase (CyaA) toxin, a multidomain protein of 1706 amino acids, is one of the major virulence factors produced by Bordetella pertussis, the causative agent of whooping cough. CyaA is able to invade eukaryotic target cells in which it produces high levels of cAMP, thus altering the cellular physiology. Although CyaA has been extensively studied by various cellular and molecular approaches, the structural and functional states of the toxin remain poorly characterized. Indeed, CyaA is a large protein and exhibits a pronounced hydrophobic character, making it prone to aggregation into multimeric forms. As a result, CyaA has usually been extracted and stored in denaturing conditions. Here, we define the experimental conditions allowing CyaA folding into a monomeric and functional species. We found that CyaA forms mainly multimers when refolded by dialysis, dilution, or buffer exchange. However, a significant fraction of monomeric, folded protein could be obtained by exploiting molecular confinement on size exclusion chromatography. Folding of CyaA into a monomeric form was found to be critically dependent upon the presence of calcium and post-translational acylation of the protein. We further show that the monomeric preparation displayed hemolytic and cytotoxic activities suggesting that the monomer is the genuine, physiologically active form of the toxin. We hypothesize that the structural role of the post-translational acylation in CyaA folding may apply to other RTX toxins.     

一株减毒百日咳鲍特菌的构建及生物学特性分析

百日咳是传染性强、感染率高的急性呼吸道传染病,主要感染婴幼儿,是婴儿死亡的主要原因之一。百日咳鲍特菌（Bordetella pertussis）是引起百日咳的最主要病原菌。近年来世界各地多次出现百日咳暴发,迫切需研制更加有效的新型百日咳疫苗。本研究构建了一株减毒百日咳活疫苗BPTM1,利用同源重组方法敲除编码百日咳鲍特菌主要毒力因子百日咳毒素（pertussis toxin,PTX）和皮肤坏死毒素（dermonecrotic toxin,DNT）的基因,并用大肠埃希菌的同源基因置换了负责气管细胞毒素（tracheal cytotoxin,TCT）转运的基因ampG。通过聚合酶链反应验证了毒素及相关基因的敲除和置换,蛋白免疫印迹法检测表明PTX的S1亚基未表达。体外生长曲线和体内定植曲线均表明,相比于野生型百日咳鲍特菌BPMM,减毒BPTM1的生长和定植能力未受影响,其所致肺部病理效应减轻,而所诱导的百日咳鲍特菌特异性IgG、IgG1、IgG2a抗体保持高水平。本研究表明,减毒百日咳鲍特菌BPTM1有可能成为百日咳疫苗的候选疫苗。     

Development of vaccines against pertussis caused by Bordetella holmesii using a mouse intranasal challenge model

Bordetella holmesii is recognized as the third causative agent of pertussis (whooping cough) in addition to Bordetella pertussis and Bordetella parapertussis. Pertussis caused by B. holmesii is not rare around the world. However, to date, there is no effective vaccine against B. holmesii. We examined the protective potency of pertussis vaccines available in Japan and vaccines prepared from B. holmesii. A murine model of respiratory infection was exploited to evaluate protective potency. No Japanese commercial pertussis vaccines were effective against B. holmesii. In contrast, a wBH vaccine and an aBH vaccine prepared from B. holmesii were both protective. Passive immunization with sera from mice immunized with aBH vaccine established protection against B. holmesii, indicating that B. holmesii‐specific serum antibodies might play an important role in protection. Immuno‐proteomic analysis with sera from mice immunized with aBH vaccine revealed that the sera recognized a BipA‐like protein of B. holmesii. An aBH vaccine prepared from a BipA‐like protein‐deficient mutant strain did not have a protective effect against B. holmesii. Taken together, our results suggest that the BipA‐like protein plays an important role in the protective efficacy of aBH vaccine.