Last data update: Dec 02, 2024. (Total: 48272 publications since 2009)
Records 1-26 (of 26 Records) |
Query Trace: Williams MM[original query] |
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Strengthening Bordetella pertussis genomic surveillance by direct sequencing of residual positive specimens
Peng Y , Williams MM , Xiaoli L , Simon A , Fueston H , Tondella ML , Weigand MR . J Clin Microbiol 2024 e0165323 Whole-genome sequencing (WGS) of microbial pathogens recovered from patients with infectious disease facilitates high-resolution strain characterization and molecular epidemiology. However, increasing reliance on culture-independent methods to diagnose infectious diseases has resulted in few isolates available for WGS. Here, we report a novel culture-independent approach to genome characterization of Bordetella pertussis, the causative agent of pertussis and a paradigm for insufficient genomic surveillance due to limited culture of clinical isolates. Sequencing libraries constructed directly from residual pertussis-positive diagnostic nasopharyngeal specimens were hybridized with biotinylated RNA "baits" targeting B. pertussis fragments within complex mixtures that contained high concentrations of host and microbial background DNA. Recovery of B. pertussis genome sequence data was evaluated with mock and pooled negative clinical specimens spiked with reducing concentrations of either purified DNA or inactivated cells. Targeted enrichment increased the yield of B. pertussis sequencing reads up to 90% while simultaneously decreasing host reads to less than 10%. Filtered sequencing reads provided sufficient genome coverage to perform characterization via whole-genome single nucleotide polymorphisms and whole-genome multilocus sequencing typing. Moreover, these data were concordant with sequenced isolates recovered from the same specimens such that phylogenetic reconstructions from either consistently clustered the same putatively linked cases. The optimized protocol is suitable for nasopharyngeal specimens with diagnostic IS481 Ct < 35 and >10 ng DNA. Routine implementation of these methods could strengthen surveillance and study of pertussis resurgence by capturing additional cases with genomic characterization. |
Genome-based prediction of cross-protective, HLA-DR-presented epitopes as putative vaccine antigens for multiple Bordetella species
Natrajan MS , Hall JM , Weigand MR , Peng Y , Williams MM , Momin M , Damron FH , Dubey P , Tondella ML , Pawloski LC . Microbiol Spectr 2023 e0352723 Pertussis, caused by Bordetella pertussis, can cause debilitating respiratory symptoms, so whole-cell pertussis vaccines (wPVs) were introduced in the 1940s. However, reactogenicity of wPV necessitated the development of acellular pertussis vaccines (aPVs) that were introduced in the 1990s. Since then, until the COVID-19 pandemic began, reported pertussis incidence was increasing, suggesting that aPVs do not induce long-lasting immunity and may not effectively prevent transmission. Additionally, aPVs do not provide protection against other Bordetella species that are observed during outbreaks. The significance of this work is in determining potential new vaccine antigens for multiple Bordetella species that are predicted to elicit long-term immune responses. Genome-based approaches have aided the development of novel vaccines; here, these methods identified Bordetella vaccine candidates that may be cross-protective and predicted to induce strong memory responses. These targets can lead to an improved vaccine with a strong safety profile while also strengthening the longevity of the immune response. |
Genomic characterization of cocirculating Corynebacterium diphtheriae and non-diphtheritic Corynebacterium species among forcibly displaced Myanmar nationals, 2017-2019
Xiaoli L , Peng Y , Williams MM , Lawrence M , Cassiday PK , Aneke JS , Pawloski LC , Shil SR , Rashid MO , Bhowmik P , Weil LM , Acosta AM , Shirin T , Habib ZH , Tondella ML , Weigand MR . Microb Genom 2023 9 (9) Respiratory diphtheria is a serious infection caused by toxigenic Corynebacterium diphtheriae, and disease transmission mainly occurs through respiratory droplets. Between 2017 and 2019, a large diphtheria outbreak among forcibly displaced Myanmar nationals densely settled in Bangladesh was investigated. Here we utilized whole-genome sequencing (WGS) to characterize recovered isolates of C. diphtheriae and two co-circulating non-diphtheritic Corynebacterium (NDC) species - C. pseudodiphtheriticum and C. propinquum. C. diphtheriae isolates recovered from all 53 positive cases in this study were identified as toxigenic biovar mitis, exhibiting intermediate resistance to penicillin, and formed four phylogenetic clusters circulating among multiple refugee camps. Additional sequenced isolates collected from two patients showed co-colonization with non-toxigenic C. diphtheriae biovar gravis, one of which exhibited decreased susceptibility to the first-line antibiotics and harboured a novel 23-kb multidrug resistance plasmid. Results of phylogenetic reconstruction and virulence-related gene contents of the recovered NDC isolates indicated they were likely commensal organisms, though 80.4 %(45/56) were not susceptible to erythromycin, and most showed high minimum inhibition concentrations against azithromycin. These results demonstrate the high resolution with which WGS can aid molecular investigation of diphtheria outbreaks, through the quantification of bacterial genetic relatedness, as well as the detection of virulence factors and antibiotic resistance markers among case isolates. |
Genomic surveillance and improved molecular typing of Bordetella pertussis using wgMLST (preprint)
Weigand MR , Peng Y , Pouseele H , Kania D , Bowden KE , Williams MM , Tondella ML . bioRxiv 2020 2020.10.28.360149 Multi-Locus Sequence Typing (MLST) provides allele-based characterization of bacterial pathogens in a standardized framework. However, current MLST schemes for Bordetella pertussis, the causative agent of whooping cough, seldom reveal diversity among the small number of gene targets and thereby fail to delineate population structure. To improve discriminatory power of allele-based molecular typing of B. pertussis, we have developed a whole-genome MLST (wgMLST) scheme from 214 reference-quality genome assemblies. Iterative refinement and allele curation resulted in a scheme of 3,506 coding sequences and covering 81.4% of the B. pertussis genome. This wgMLST scheme was further evaluated with data from a convenience sample of 2,389 B. pertussis isolates sequenced on Illumina instruments, including isolates from known outbreaks and epidemics previously characterized by existing molecular assays, as well as replicates collected from individual patients. wgMLST demonstrated concordance with whole-genome single nucleotide polymorphisms (SNP) profiles, accurately resolved outbreak and sporadic cases in a retrospective comparison, and clustered replicate isolates collected from individual patients during diagnostic confirmation. Additionally, a re-analysis of isolates from two statewide epidemics using wgMLST reconstructed the population structures of circulating strains with increased resolution, revealing new clusters of related cases. Comparison with an existing core-genome (cgMLST) scheme highlights the genomic stability of this bacterium and forms the initial foundation for necessary standardization. These results demonstrate the utility of wgMLST for improving B. pertussis characterization and genomic surveillance during the current pertussis disease resurgence. |
Complete Genome Sequences of Four Macrolide-Resistant Nondiphtheritic Corynebacterium Isolates.
Xiaoli L , Peng Y , Williams MM , Cassiday PK , Nobles S , Unoarumhi Y , Weil LM , Shirin T , Habib ZH , Tondella ML , Weigand MR . Microbiol Resour Announc 2022 11 (9) e0049222 This report describes the complete genome sequences of four isolates of the nondiphtheritic Corynebacterium (NDC) species Corynebacterium pseudodiphtheriticum and Corynebacterium propinquum, recovered during investigation of a large diphtheria outbreak in Bangladesh. These data will assist in better delineating the boundary between these related species and understanding their virulence potential. |
Towards comprehensive understanding of bacterial genetic diversity: large-scale amplifications in Bordetella pertussis and Mycobacterium tuberculosis.
Abrahams JS , Weigand MR , Ring N , MacArthur I , Etty J , Peng S , Williams MM , Bready B , Catalano AP , Davis JR , Kaiser MD , Oliver JS , Sage JM , Bagby S , Tondella ML , Gorringe AR , Preston A . Microb Genom 2022 8 (2) Bacterial genetic diversity is often described solely using base-pair changes despite a wide variety of other mutation types likely being major contributors. Tandem duplication/amplifications are thought to be widespread among bacteria but due to their often-intractable size and instability, comprehensive studies of these mutations are rare. We define a methodology to investigate amplifications in bacterial genomes based on read depth of genome sequence data as a proxy for copy number. We demonstrate the approach with Bordetella pertussis, whose insertion sequence element-rich genome provides extensive scope for amplifications to occur. Analysis of data for 2430 B. pertussis isolates identified 272 putative amplifications, of which 94 % were located at 11 hotspot loci. We demonstrate limited phylogenetic connection for the occurrence of amplifications, suggesting unstable and sporadic characteristics. Genome instability was further described in vitro using long-read sequencing via the Nanopore platform, which revealed that clonally derived laboratory cultures produced heterogenous populations rapidly. We extended this research to analyse a population of 1000 isolates of another important pathogen, Mycobacterium tuberculosis. We found 590 amplifications in M. tuberculosis, and like B. pertussis, these occurred primarily at hotspots. Genes amplified in B. pertussis include those involved in motility and respiration, whilst in M. tuberuclosis, functions included intracellular growth and regulation of virulence. Using publicly available short-read data we predicted previously unrecognized, large amplifications in B. pertussis and M. tuberculosis. This reveals the unrecognized and dynamic genetic diversity of B. pertussis and M. tuberculosis, highlighting the need for a more holistic understanding of bacterial genetics. |
Genomic surveillance and improved molecular typing of Bordetella pertussis using wgMLST
Weigand MR , Peng Y , Pouseele H , Kania D , Bowden KE , Williams MM , Tondella ML . J Clin Microbiol 2021 59 (5) Multi-Locus Sequence Typing (MLST) provides allele-based characterization of bacterial pathogens in a standardized framework. However, classical MLST schemes for Bordetella pertussis, the causative agent of whooping cough, seldom reveal diversity among the small number of gene targets and thereby fail to delineate population structure. To improve discriminatory power of allele-based molecular typing of B. pertussis, we have developed a whole-genome MLST (wgMLST) scheme from 225 reference-quality genome assemblies. Iterative refinement and allele curation resulted in a scheme of 3,506 coding sequences and covering 81.4% of the B. pertussis genome. This wgMLST scheme was further evaluated with data from a convenience sample of 2,389 B. pertussis isolates sequenced on Illumina instruments, including isolates from known outbreaks and epidemics previously characterized by existing molecular assays, as well as replicates collected from individual patients. wgMLST demonstrated concordance with whole-genome single nucleotide polymorphisms (SNP) profiles, accurately resolved outbreak and sporadic cases in a retrospective comparison, and clustered replicate isolates collected from individual patients during diagnostic confirmation. Additionally, a re-analysis of isolates from two statewide epidemics using wgMLST reconstructed the population structures of circulating strains with increased resolution, revealing new clusters of related cases. Comparison with an existing core-genome (cgMLST) scheme highlights the stable gene content of this bacterium and forms the initial foundation for necessary standardization. These results demonstrate the utility of wgMLST for improving B. pertussis characterization and genomic surveillance during the current pertussis disease resurgence. |
Investigation of a Large Diphtheria Outbreak and Co-circulation of Corynebacterium pseudodiphtheriticum among Forcibly Displaced Myanmar Nationals, 2017-2019.
Weil LM , Williams MM , Shirin T , Lawrence M , Habib ZH , Aneke JS , Tondella ML , Zaki Q , Cassiday PK , Lonsway D , Farrque M , Hossen T , Feldstein LR , Cook N , Maldonado-Quiles G , Alam AN , Muraduzzaman AKM , Akram A , Conklin L , Doan S , Friedman M , Acosta AM , Hariri S , Fox LM , Tiwari TSP , Flora MS . J Infect Dis 2020 224 (2) 318-325 BACKGROUND: Diphtheria, a life-threatening respiratory disease, is caused mainly by toxin-producing strains of Corynebacterium diphtheriae, while nontoxigenic Corynebacteria, such as C. pseudodiphtheriticum rarely causes diphtheria-like illness. Recently several global diphtheria outbreaks have resulted from the breakdown of healthcare infrastructures particularly in countries experiencing political conflict. This report summarizes a laboratory and epidemiological investigation of a diphtheria outbreak among Forcibly Displaced Myanmar Nationals in Bangladesh. METHODS: Specimens and clinical information were collected from patients presenting at Diphtheria Treatment Centers. Swabs were tested for toxin-gene (tox) bearing C. diphtheriae by real-time (RT) PCR and culture. The isolation of another Corynebacterium species prompted further laboratory investigation. RESULTS: Among 382 patients; 153 (40%) tested tox-positive for C. diphtheriae by RT-PCR; 31 (20%) PCR-positive swabs were culture-confirmed. RT-PCR revealed 78% (298/382) of patients tested positive for C. pseudodiphtheriticum. Of patients positive for only C. diphtheriae, 63% (17/27) had severe disease compared to 55% (69/126) positive for both Corynebacterium species, and 38% (66/172) for only C. pseudodiphtheriticum. CONCLUSIONS: We report the confirmation of a diphtheria outbreak and identification of a co-circulating Corynebacterium species. The high proportion of C. pseudodiphtheriticum co-detection may explain why many suspected patients testing negative for C. diphtheriae presented with diphtheria-like symptoms. |
Detection and characterization of diphtheria toxin gene-bearing Corynebacterium species through a new real-time PCR assay.
Williams MM , Waller JL , Aneke JS , Weigand MR , Diaz MH , Bowden KE , Simon AK , Peng Y , Xiaoli L , Cassiday PK , Winchell J , Tondella ML . J Clin Microbiol 2020 58 (10) Respiratory diphtheria, characterized by a firmly adherent pseudomembrane, is caused by toxin-producing strains of Corynebacterium diphtheriae, with similar illness produced occasionally by toxigenic Corynebacterium ulcerans or, rarely, Corynebacterium pseudotuberculosis While diphtheria laboratory confirmation requires culture methods to determine toxigenicity, real-time PCR (RT-PCR) provides a faster method to detect the toxin gene (tox). Nontoxigenic tox-bearing (NTTB) Corynebacterium isolates have been described, but impact of these isolates on the accuracy of molecular diagnostics is not well characterized. Here, we describe a new triplex RT-PCR assay to detect tox and distinguish C. diphtheriae from the closely related species C. ulcerans and C. pseudotuberculosis Analytical sensitivity and specificity of the assay were assessed in comparison to culture using 690 previously characterized microbial isolates. The new triplex assay characterized Corynebacterium isolates accurately, with 100% analytical sensitivity for all targets. Analytical specificity with isolates was 94.1%, 100%, and 99.5% for tox, Diph_rpoB, and CUP_rpoB targets, respectively. Twenty-nine NTTB Corynebacterium isolates, representing 5.9% of 494 nontoxigenic isolates tested, were detected by RT-PCR. Whole-genome sequencing of NTTB isolates revealed varied mutations putatively underlying their lack of toxin production, as well as eight isolates with no mutation in tox or the promoter region. This new Corynebacterium RT-PCR method provides a rapid tool to screen isolates and identify probable diphtheria cases directly from specimens. However, the sporadic occurrence of NTTB isolates reinforces the viewpoint that diphtheria culture diagnostics continue to provide the most accurate case confirmation. |
Conserved Patterns of Symmetric Inversion in the Genome Evolution of Bordetella Respiratory Pathogens.
Weigand MR , Peng Y , Batra D , Burroughs M , Davis JK , Knipe K , Loparev VN , Johnson T , Juieng P , Rowe LA , Sheth M , Tang K , Unoarumhi Y , Williams MM , Tondella ML . mSystems 2019 4 (6) Whooping cough (pertussis), primarily caused by Bordetella pertussis, has resurged in the United States, and circulating strains exhibit considerable chromosome structural fluidity in the form of rearrangement and deletion. The genus Bordetella includes additional pathogenic species infecting various animals, some even causing pertussis-like respiratory disease in humans; however, investigation of their genome evolution has been limited. We studied chromosome structure in complete genome sequences from 167 Bordetella species isolates, as well as 469 B. pertussis isolates, to gain a generalized understanding of rearrangement patterns among these related pathogens. Observed changes in gene order primarily resulted from large inversions and were only detected in species with genomes harboring multicopy insertion sequence (IS) elements, most notably B. holmesii and B. parapertussis While genomes of B. pertussis contain >240 copies of IS481, IS elements appear less numerous in other species and yield less chromosome structural diversity through rearrangement. These data were further used to predict all possible rearrangements between IS element copies present in Bordetella genomes, revealing that only a subset is observed among circulating strains. Therefore, while it appears that rearrangement occurs less frequently in other species than in B. pertussis, these clinically relevant respiratory pathogens likely experience similar mutation of gene order. The resulting chromosome structural fluidity presents both challenges and opportunity for the study of Bordetella respiratory pathogens.IMPORTANCE Bordetella pertussis is the primary agent of whooping cough (pertussis). The Bordetella genus includes additional pathogens of animals and humans, including some that cause pertussis-like respiratory illness. The chromosome of B. pertussis has previously been shown to exhibit considerable structural rearrangement, but insufficient data have prevented comparable investigation in related species. In this study, we analyze chromosome structure variation in several Bordetella species to gain a generalized understanding of rearrangement patterns in this genus. Just as in B. pertussis, we observed inversions in other species that likely result from common mutational processes. We used these data to further predict additional, unobserved inversions, suggesting that specific genome structures may be preferred in each species. |
Genomic Survey of Bordetella pertussis Diversity, United States, 2000-2013.
Weigand MR , Williams MM , Peng Y , Kania D , Pawloski LC , Tondella ML . Emerg Infect Dis 2019 25 (4) 780-783 We characterized 170 complete genome assemblies from clinical Bordetella pertussis isolates representing geographic and temporal diversity in the United States. These data capture genotypic shifts, including increased pertactin deficiency, occurring amid the current pertussis disease resurgence and provide a foundation for needed research to direct future public health control strategies. |
Screening and genomic characterization of filamentous hemagglutinin-deficient Bordetella pertussis.
Weigand MR , Pawloski LC , Peng Y , Ju H , Burroughs M , Cassiday PK , Davis JK , DuVall M , Johnson T , Juieng P , Knipe K , Loparev VN , Mathis MH , Rowe LA , Sheth M , Williams MM , Tondella ML . Infect Immun 2018 86 (4) Despite high vaccine coverage, pertussis cases in the United States (US) have increased over the last decade. Growing evidence suggests that disease resurgence results, in part, from genetic divergence of circulating strain populations away from vaccine references. The US exclusively employs acellular vaccines and current Bordetella pertussis isolates are predominantly deficient in at least one immunogen, pertactin (Prn). First detected in the US retrospectively in a 1994 isolate, the rapid spread of Prn deficiency is likely vaccine driven, raising concerns about whether other acellular vaccine immunogens experience similar pressures as further antigenic changes could potentially threaten vaccine efficacy. We developed an electrochemiluminescent antibody capture assay to monitor production of the acellular vaccine immunogen filamentous hemagglutinin (Fha). Screening 722 US surveillance isolates collected from 2010-2016 identified two that were both Prn- and Fha-deficient. Three additional Fha-deficient laboratory strains were also identified from a historic collection of 65 isolates dating back to 1935. Whole-genome sequencing of deficient isolates revealed putative, underlying genetic changes. Only four isolates harbored mutation to known genes involved in Fha production, highlighting the complexity of its regulation. The chromosomes of two Fha-deficient isolates included unexpected structural variation that did not appear to influence Fha production. Furthermore, insertion sequence disruption of fhaB was also detected in a previously identified pertussis toxin-deficient isolate that still produced normal levels of Fha. These results demonstrate the genetic potential for additional vaccine immunogen deficiency and underscore the importance of continued surveillance of circulating B. pertussis evolution in response to vaccine pressure. |
Complete Genome Sequences of Bordetella pertussis Isolates with Novel Pertactin-Deficient Deletions.
Weigand MR , Peng Y , Cassiday PK , Loparev VN , Johnson T , Juieng P , Nazarian EJ , Weening K , Tondella ML , Williams MM . Genome Announc 2017 5 (37) Clinical isolates of the respiratory pathogen Bordetella pertussis in the United States have become predominantly deficient for the acellular vaccine immunogen pertactin through various independent mutations. Here, we report the complete genome sequences for four B. pertussis isolates that harbor novel deletions responsible for pertactin deficiency. |
The History of Bordetella pertussis Genome Evolution Includes Structural Rearrangement.
Weigand MR , Peng Y , Loparev V , Batra D , Bowden KE , Burroughs M , Cassiday PK , Davis JK , Johnson T , Juieng P , Knipe K , Mathis MH , Pruitt AM , Rowe L , Sheth M , Tondella ML , Williams MM . J Bacteriol 2017 199 (8) Despite high pertussis vaccine coverage, reported cases of whooping cough (pertussis) have increased over the last decade in the United States and other developed countries. Although Bordetella pertussis is well known for its limited gene sequence variation, recent advances in long-read sequencing technology have begun to reveal genome structural heterogeneity among otherwise indistinguishable isolates, even within geographically or temporally defined epidemics. We have compared rearrangements among complete genome assemblies from 257 B. pertussis isolates to examine potential evolution of chromosomal structure in a pathogen with minimal gene nucleotide sequence diversity. Discrete changes in gene order were identified that differentiated genomes from vaccine reference strains and clinical isolates of various genotypes, frequently along phylogenetic boundaries defined by single nucleotide polymorphisms. Observed rearrangements were primarily large inversions centered on the replication origin or terminus and flanked by IS481, a mobile genetic element with >240 copies per genome and previously suspected to mediate rearrangements and deletions by homologous recombination. These data illustrate that structural genome evolution in B. pertussis is not limited to reduction but also includes rearrangement. Therefore, although genomes of clinical isolates are structurally diverse, specific changes in gene order are conserved, perhaps due to positive selection, providing novel information for investigation of disease resurgence and molecular epidemiology. IMPORTANCE: Whooping cough, primarily caused by Bordetella pertussis, has resurged in the United States even though coverage with pertussis-containing vaccines remains high. The rise in reported cases has included increased disease rates among all vaccinated age groups, provoking questions about the pathogen's evolution. The chromosome of B. pertussis includes a high number of repetitive, mobile genetic elements that obstruct genome analysis. However, these mobile elements facilitate large rearrangements that alter the order and orientation of essential protein-coding genes which otherwise exhibit little nucleotide sequence diversity. By comparing complete genome assemblies from 257 isolates, we show that specific rearrangements have been conserved throughout recent evolutionary history, perhaps by eliciting changes in gene expression, which may also provide useful information for molecular epidemiology. |
Complete Genome Sequences of Four Bordetella pertussis Vaccine Reference Strains from Serum Institute of India.
Weigand MR , Peng Y , Loparev V , Johnson T , Juieng P , Gairola S , Kumar R , Shaligram U , Gowrishankar R , Moura H , Rees J , Schieltz DM , Williamson Y , Woolfitt A , Barr J , Tondella ML , Williams MM . Genome Announc 2016 4 (6) Serum Institute of India is among the world's largest vaccine producers. Here, we report the complete genome sequences for four Bordetella pertussis strains used by Serum Institute of India in the production of whole-cell pertussis vaccines. |
Epidemiology of pertussis among young Pakistani infants: A community-based prospective surveillance study
Omer SB , Kazi AM , Bednarczyk RA , Allen KE , Quinn CP , Aziz F , Sial K , Phadke VK , Tondella ML , Williams MM , Orenstein WA , Ali SA . Clin Infect Dis 2016 63 S148-s153 BACKGROUND: Pertussis remains a cause of morbidity and mortality among young infants. There are limited data on the pertussis disease burden in this age group from low- and lower-middle-income countries, including in South Asia. METHODS: We conducted an active community-based surveillance study from February 2015 to April 2016 among 2 cohorts of young infants in 4 low-income settlements in Karachi, Pakistan. Infants were enrolled either at birth (closed cohort) or at ages up to 10 weeks (open cohort) and followed until 18 weeks of age. Nasopharyngeal swab specimens were obtained from infants who met a standardized syndromic case definition and tested for Bordetella pertussis using real-time polymerase chain reaction. We determined the incidence of pertussis using a protocol-defined case definition, as well as the US Centers for Disease Control and Prevention (CDC) definitions for confirmed and probable pertussis. RESULTS: Of 2021 infants enrolled into the study, 8 infants met the protocol-defined pertussis case definition, for an incidence of 3.96 (95% confidence interval [CI], 1.84-7.50) cases per 1000 infants. Seven of the pertussis cases met the CDC pertussis case definition (5 confirmed, 2 probable), for incidences of CDC-defined confirmed pertussis of 2.47 (95% CI, .90-5.48) cases per 1000 infants, and probable pertussis of 0.99 (95% CI, .17-3.27) cases per 1000 infants. Three of the pertussis cases were severe according to the Modified Preziosi Scale score. CONCLUSIONS: In one of the first prospective surveillance studies of infant pertussis in a developing country, we identified a moderate burden of pertussis disease in early infancy in Pakistan. |
Complete Genome Sequences of Four Different Bordetella sp. Isolates Causing Human Respiratory Infections.
Weigand MR , Peng Y , Loparev V , Batra D , Bowden KE , Cassiday PK , Davis JK , Johnson T , Juieng P , Miner CE , Rowe L , Sheth M , Tondella ML , Williams MM . Genome Announc 2016 4 (5) Species of the genus Bordetella associate with various animal hosts, frequently causing respiratory disease. Bordetella pertussis is the primary agent of whooping cough and other Bordetella species can cause similar cough illness. Here, we report four complete genome sequences from isolates of different Bordetella species recovered from human respiratory infections. |
Complete Genome Sequences of Bordetella pertussis Vaccine Reference Strains 134 and 10536.
Weigand MR , Peng Y , Loparev V , Batra D , Burroughs M , Johnson T , Juieng P , Rowe L , Tondella ML , Williams MM . Genome Announc 2016 4 (5) Vaccine formulations and vaccination programs against whooping cough (pertussis) vary worldwide. Here, we report the complete genome sequences of two divergent Bordetella pertussis reference strains used in the production of pertussis vaccines. |
Genome Structural Diversity among 31 Bordetella pertussis Isolates from Two Recent U.S. Whooping Cough Statewide Epidemics.
Bowden KE , Weigand MR , Peng Y , Cassiday PK , Sammons S , Knipe K , Rowe LA , Loparev V , Sheth M , Weening K , Tondella ML , Williams MM . mSphere 2016 1 (3) During 2010 and 2012, California and Vermont, respectively, experienced statewide epidemics of pertussis with differences seen in the demographic affected, case clinical presentation, and molecular epidemiology of the circulating strains. To overcome limitations of the current molecular typing methods for pertussis, we utilized whole-genome sequencing to gain a broader understanding of how current circulating strains are causing large epidemics. Through the use of combined next-generation sequencing technologies, this study compared de novo, single-contig genome assemblies from 31 out of 33 Bordetella pertussis isolates collected during two separate pertussis statewide epidemics and 2 resequenced vaccine strains. Final genome architecture assemblies were verified with whole-genome optical mapping. Sixteen distinct genome rearrangement profiles were observed in epidemic isolate genomes, all of which were distinct from the genome structures of the two resequenced vaccine strains. These rearrangements appear to be mediated by repetitive sequence elements, such as high-copy-number mobile genetic elements and rRNA operons. Additionally, novel and previously identified single nucleotide polymorphisms were detected in 10 virulence-related genes in the epidemic isolates. Whole-genome variation analysis identified state-specific variants, and coding regions bearing nonsynonymous mutations were classified into functional annotated orthologous groups. Comprehensive studies on whole genomes are needed to understand the resurgence of pertussis and develop novel tools to better characterize the molecular epidemiology of evolving B. pertussis populations. IMPORTANCE Pertussis, or whooping cough, is the most poorly controlled vaccine-preventable bacterial disease in the United States, which has experienced a resurgence for more than a decade. Once viewed as a monomorphic pathogen, B. pertussis strains circulating during epidemics exhibit diversity visible on a genome structural level, previously undetectable by traditional sequence analysis using short-read technologies. For the first time, we combine short- and long-read sequencing platforms with restriction optical mapping for single-contig, de novo assembly of 31 isolates to investigate two geographically and temporally independent U.S. pertussis epidemics. These complete genomes reshape our understanding of B. pertussis evolution and strengthen molecular epidemiology toward one day understanding the resurgence of pertussis. |
Bordetella pertussis Strain Lacking Pertactin and Pertussis Toxin.
Williams MM , Sen K , Weigand MR , Skoff TH , Cunningham VA , Halse TA , Tondella ML . Emerg Infect Dis 2016 22 (2) 319-22 A Bordetella pertussis strain lacking 2 acellular vaccine immunogens, pertussis toxin and pertactin, was isolated from an unvaccinated infant in New York State in 2013. Comparison with a French strain that was pertussis toxin-deficient, pertactin wild-type showed that the strains carry the same 28-kb deletion in similar genomes. |
Harmonization of Bordetella pertussis real-time PCR diagnostics in the United States in 2012.
Williams MM , Taylor TH Jr , Warshauer DM , Martin MD , Valley AM , Tondella ML . J Clin Microbiol 2014 53 (1) 118-23 Real-time (rt-) PCR is an important diagnostic tool for identification of Bordetella pertussis, B. holmesii, and B. parapertussis. Most United States public health laboratories (USPHLs) target IS481, present in 218-238 copies in the B. pertussis genome, and 32-65 copies in B. holmesii. CDC developed a multi-target PCR assay to differentiate B. pertussis, B. holmesii, and B. parapertussis, and provided protocols and training to 19 USPHLs. The 2012 performance exercise (PE) assessed the capability of USPHLs to detect these three Bordetella species in clinical samples. Laboratories were recruited by the Wisconsin State Proficiency Testing program through the Association of Public Health Laboratories, in partnership with CDC. Spring and Fall PE panels contained 12 samples each of viable Bordetella and non-Bordetella species in saline. Fifty and 53 USPHLs participated in the spring and fall PEs, respectively, using a variety of nucleic acid extraction methods, PCR platforms, and assays. Ninety-six percent and 94% of laboratories targeted IS481 in spring and fall, respectively, either in singleplex or multiplex assays. Seventy two percent and 79% of USPHLs could differentiate B. pertussis and B. holmesii in spring and fall, respectively; 68% and 72% could identify B. parapertussis. IS481 cycle threshold (Ct) values for B. pertussis samples had coefficients of variation (CV) ranging from 10% to 28%. Of the USPHLs who differentiated B. pertussis and B. holmesii, sensitivity and specificity was 96% and 95%, respectively, for the combined panels. The 2012 PEs demonstrated increased harmonization of rt-PCR Bordetella diagnostic protocols in USPHLs compared to the previous survey. |
Molecular epidemiology of the pertussis epidemic in Washington State in 2012.
Bowden KE , Williams MM , Cassiday PK , Milton A , Pawloski L , Harrison M , Martin SW , Meyer S , Qin X , DeBolt C , Tasslimi A , Syed N , Sorrell R , Tran M , Hiatt B , Tondella ML . J Clin Microbiol 2014 52 (10) 3549-57 Although pertussis disease is vaccine-preventable, Washington State experienced a substantial rise in pertussis incidence beginning in 2011. By June 2012, the reported cases reached 2,520 (37.5 cases per 100,000 residents), a 1,300% increase compared with the same period in 2011. We assessed the molecular epidemiology of this statewide epidemic using 240 isolates collected from case-patients reported from 19 of 39 Washington counties during 2012-2013. Typing methods included pulsed-field gel electrophoresis (PFGE), multilocus variable number tandem repeat analysis (MLVA), multilocus sequence typing (MLST), and pertactin gene (prn) mutational analysis. Using the scheme PFGE-MLVA-MLST-prn mutations-Prn deficiency, the 240 isolates comprised 65 distinct typing profiles. Thirty-one PFGE types were found, with the most common types, CDC013 (n=51), CDC237 (n=44), and CDC002 (n=42), accounting for 57% of them. Eleven MLVA types were observed, mainly comprising type 27 (n=183; 76%). Seven MLST types were identified, with the majority of the isolates typing as prn2-ptxP3-ptxA1-fim3-1 (n=157; 65%). Four different prn mutations accounted for the 76% of isolates exhibiting pertactin-deficiency. PFGE provided the highest discriminatory power (D=0.87) and was found to be a more powerful typing method than MLVA and MLST combined (D=0.67). This study provides evidence for the continued predominance of MLVA 27 and prn2-ptxP3-ptxA1, along with the reemergence of the fim3-1 allele. Our results indicate that the B. pertussis population causing this epidemic was diverse, with a few molecular types predominating. PFGE, MLVA, and MLST profiles were consistent with predominate types circulating in the US and other countries. For prn, several mutations were present in multiple molecular types. |
Prevalence and molecular characterization of pertactin-deficient Bordetella pertussis in the United States.
Pawloski LC , Queenan AM , Cassiday PK , Lynch AS , Harrison M , Shang W , Williams MM , Bowden KE , Burgos-Rivera B , Qin X , Messonnier N , Tondella ML . Clin Vaccine Immunol 2013 21 (2) 119-25 Pertussis has made a striking resurgence in the US, returning to record numbers of reported cases last observed in the 1950s. Bordetella pertussis isolates lacking pertactin, a key antigen component of the acellular pertussis vaccine, have been observed, suggesting that B. pertussis is losing pertactin in response to vaccine immunity. Screening of 1300 isolates from outbreak and surveillance studies (historical isolates collected from 1935 up to 2009, the 2010 California pertussis outbreak, US isolates from routine surveillance between 2010-2012, and the 2012 Washington pertussis outbreak) by conventional PCR and later by Western blot and prn sequencing analyses ultimately identified 306 pertactin-deficient isolates. Of these pertactin-deficient strains, 276 were identified as having an IS481 in the prn gene (prnIS481-positive). The first prnIS481-positive isolate was found in 1994, with the next prnIS481-positive isolates not detected until 2010. Pertactin-deficient isolates increased substantially to over 50% in 2012. Sequence analysis of pertactin-deficient isolates revealed various types of mutations in the prn gene, including two deletions, single nucleotide substitutions resulting in a stop codon, an inversion in the promoter, and a single nucleotide insertion resulting in a frame shift mutation. All but one mutation type were found in prn2 alleles. CDC013 was a predominant PFGE profile in the pertactin-positive isolates (203/994), but was found in only 5% (16/306) of the pertactin-deficient isolates. Interestingly, PFGE profiles CDC002 and CDC237 represented 55% (167/306) of the identified pertactin-deficient isolates. These results indicate that there has been a recent, dramatic increase in pertactin-deficient B. pertussis isolates throughout the US. |
Plumbing of hospital premises is a reservoir for opportunistically pathogenic microorganisms: a review
Williams MM , Armbruster CR , Arduino MJ . Biofouling 2013 29 (2) 147-62 Several bacterial species that are natural inhabitants of potable water distribution system biofilms are opportunistic pathogens important to sensitive patients in healthcare facilities. Waterborne healthcare-associated infections (HAI) may occur during the many uses of potable water in the healthcare environment. Prevention of infection is made more challenging by lack of data on infection rate and gaps in understanding of the ecology, virulence, and infectious dose of these opportunistic pathogens. Some healthcare facilities have been successful in reducing infections by following current water safety guidelines. This review describes several infections, and remediation steps that have been implemented to reduce waterborne HAIs. |
Point-of-use membrane filtration and hyperchlorination to prevent patient exposure to rapidly growing mycobacteria in the potable water supply of a skilled nursing facility
Williams MM , Chen TH , Keane T , Toney N , Toney S , Armbruster CR , Butler WR , Arduino MJ . Infect Control Hosp Epidemiol 2011 32 (9) 837-44 BACKGROUND: Healthcare-associated outbreaks and pseudo-outbreaks of rapidly growing mycobacteria (RGM) are frequently associated with contaminated tap water. A pseudo-outbreak of Mycobacterium chelonae-M. abscessus in patients undergoing bronchoscopy was identified by 2 acute care hospitals. RGM was identified in bronchoscopy specimens of 28 patients, 25 of whom resided in the same skilled nursing facility (SNF). An investigation ruled out bronchoscopy procedures, specimen collection, and scope reprocessing at the hospitals as sources of transmission. OBJECTIVE: To identify the reservoir for RGM within the SNF and evaluate 2 water system treatments, hyperchlorination and point-of-use (POU) membrane filters, to reduce RGM. DESIGN: A comparative in situ study of 2 water system treatments to prevent RGM transmission. SETTING: An SNF specializing in care of patients requiring ventilator support. METHODS: RGM and heterotrophic plate count (HPC) bacteria were examined in facility water before and after hyperchlorination and in a subsequent 24-week assessment of filtered water by colony enumeration on Middlebrook and R2A media. RESULTS: Mycobacterium chelonae was consistently isolated from the SNF water supply. Hyperchlorination reduced RGM by 1.5 log(10) initially, but the population returned to original levels within 90 days. Concentration of HPC bacteria also decreased temporarily. RGM were reduced below detection level in filtered water, a 3-log(10) reduction. HPC bacteria were not recovered from newly installed filters, although low quantities were found in water from 2-week-old filters. CONCLUSION: POU membrane filters may be a feasible prevention measure for healthcare facilities to limit exposure of sensitive individuals to RGM in potable water systems. |
Expanded safety and acceptability of the candidate vaginal microbicide Carraguard in South Africa
Altini L , Blanchard K , Coetzee N , De Kock A , Elias C , Ellertson C , Friedland B , Hoosen A , Jones HE , Kilmarx PH , Marumo M , McGrory E , Monedi C , Ndlovu G , Nkompala B , Pistorius A , Ramjee G , Sebola M , Sorhaindo A , Norris Turner A , Tweedy K , Van De Wijgert J , Williams MM , Winikoff B . Contraception 2010 82 (6) (6) 563-571 BACKGROUND: Carraguard's safety and acceptability was assessed among women in Gugulethu and Ga-Rankuwa, South Africa. STUDY DESIGN: A randomized, placebo-controlled, triple-blind trial was conducted in HIV-negative, nonpregnant women who inserted Carraguard or placebo at least three times a week, including before vaginal sex, for 6 to 12 months. Monthly visits included pelvic examination, sexually transmitted infection (STI) testing/treatment and HIV counseling/testing. Acceptability was assessed quarterly. RESULTS: Of 400 women (205 Carraguard, 195 placebo) enrolled, 328 (77%) completed at least 6 months. Incidence of genital epithelial disruption was similar between the Carraguard (13.6 per 100 woman-years) and placebo (21.3 per 100 woman-years) groups (relative risk, 0.64; 95% confidence interval, 0.37-1.10); there were no significant differences in rates of HIV/STI, though the study was not powered to determine effectiveness. Only 2% of adverse events were judged possibly related to (either) gel. More than 94% of women reported at least once liking the gel very much. CONCLUSIONS: Carraguard was not associated with more vaginal, cervical or external genital irritation than placebo, and it was acceptable when used approximately 3.5 times per week, including during sex. 2010 Elsevier Inc. |
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