Your search keyword '"Rasko DA"' showing total 210 results

1. Contribution of noncanonical antigens to virulence and adaptive immunity in human infection with enterotoxigenic E. coli

Author

Kuhlmann, FM, primary, Laine, RO, additional, Afrin, S, additional, Nakajima, R, additional, Akhtar, M, additional, Vickers, T, additional, Parker, K, additional, Nizam, NN, additional, Grigura, V, additional, Goss, CW, additional, Felgner, PL, additional, Rasko, DA, additional, Qadri, F, additional, and Fleckenstein, JM, additional

Published

2020

2. The pangenome structure of Escherichia coli: Comparative genomic analysis of E. coli commensal and pathogenic isolates

Author

Rasko, DA, Rosovitz, MJ, Myers, GSA, Mongodin, EF, Fricke, WF, Gajer, P, Crabtree, J, Sebaihia, M, Thomson, NR, Chaudhuri, R, Henderson, IR, Sperandio, V, and Ravel, J

Subjects

DNA, Bacterial, Adult, Virulence Factors, Molecular Sequence Data, Computational Biology, Genomics, Microbiology, Genes, Bacterial, Escherichia coli, Animals, Humans, Rabbits, Conserved Sequence, Genome, Bacterial

Abstract

Whole-genome sequencing has been skewed toward bacterial pathogens as a consequence of the prioritization of medical and veterinary diseases. However, it is becoming clear that in order to accurately measure genetic variation within and between pathogenic groups, multiple isolates, as well as commensal species, must be sequenced. This study examined the pangenomic content of Escherichia coli. Six distinct E. coli pathovars can be distinguished using molecular or phenotypic markers, but only two of the six pathovars have been subjected to any genome sequencing previously. Thus, this report provides a seminal description of the genomic contents and unique features of three unsequenced pathovars, enterotoxigenic E. coli, enteropathogenic E. coli, and enteroaggregative E. coli. We also determined the first genome sequence of a human commensal E. coli isolate, E. coli HS, which will undoubtedly provide a new baseline from which workers can examine the evolution of pathogenic E. coli. Comparison of 17 E. coli genomes, 8 of which are new, resulted in identification of ∼2,200 genes conserved in all isolates. We were also able to identify genes that were isolate and pathovar specific. Fewer pathovar-specific genes were identified than anticipated, suggesting that each isolate may have independently developed virulence capabilities. Pangenome calculations indicate that E. coli genomic diversity represents an open pangenome model containing a reservoir of more than 13,000 genes, many of which may be uncharacterized but important virulence factors. This comparative study of the species E. coli, while descriptive, should provide the basis for future functional work on this important group of pathogens. Copyright © 2008, American Society for Microbiology. All Rights Reserved.

Published

2008

3. Origins of the E. coli strain causing an outbreak of hemolytic-uremic syndrome in Germany.

Author

Rasko DA, Webster DR, Sahl JW, Bashir A, Boisen N, Scheutz F, Paxinos EE, Sebra R, Chin CS, Iliopoulos D, Klammer A, Peluso P, Lee L, Kislyuk AO, Bullard J, Kasarskis A, Wang S, Eid J, Rank D, and Redman JC

Abstract

Background: A large outbreak of diarrhea and the hemolytic-uremic syndrome caused by an unusual serotype of Shiga-toxin-producing Escherichia coli (O104:H4) began in Germany in May 2011. As of July 22, a large number of cases of diarrhea caused by Shiga-toxin-producing E. coli have been reported--3167 without the hemolytic-uremic syndrome (16 deaths) and 908 with the hemolytic-uremic syndrome (34 deaths)--indicating that this strain is notably more virulent than most of the Shiga-toxin-producing E. coli strains. Preliminary genetic characterization of the outbreak strain suggested that, unlike most of these strains, it should be classified within the enteroaggregative pathotype of E. coli.Methods: We used third-generation, single-molecule, real-time DNA sequencing to determine the complete genome sequence of the German outbreak strain, as well as the genome sequences of seven diarrhea-associated enteroaggregative E. coli serotype O104:H4 strains from Africa and four enteroaggregative E. coli reference strains belonging to other serotypes. Genomewide comparisons were performed with the use of these enteroaggregative E. coli genomes, as well as those of 40 previously sequenced E. coli isolates.Results: The enteroaggregative E. coli O104:H4 strains are closely related and form a distinct clade among E. coli and enteroaggregative E. coli strains. However, the genome of the German outbreak strain can be distinguished from those of other O104:H4 strains because it contains a prophage encoding Shiga toxin 2 and a distinct set of additional virulence and antibiotic-resistance factors.Conclusions: Our findings suggest that horizontal genetic exchange allowed for the emergence of the highly virulent Shiga-toxin-producing enteroaggregative E. coli O104:H4 strain that caused the German outbreak. More broadly, these findings highlight the way in which the plasticity of bacterial genomes facilitates the emergence of new pathogens. [ABSTRACT FROM AUTHOR]

Published

2011

4. Genomic comparison of multi-drug resistant invasive and colonizing Acinetobacter baumannii isolated from diverse human body sites reveals genomic plasticity

Author

Hsiao William W, Phillippy Adam M, Harris Anthony D, Johnson J Kristie, Sahl Jason W, Thom Kerri A, and Rasko David A

Subjects

Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Acinetobacter baumannii has recently emerged as a significant global pathogen, with a surprisingly rapid acquisition of antibiotic resistance and spread within hospitals and health care institutions. This study examines the genomic content of three A. baumannii strains isolated from distinct body sites. Isolates from blood, peri-anal, and wound sources were examined in an attempt to identify genetic features that could be correlated to each isolation source. Results Pulsed-field gel electrophoresis, multi-locus sequence typing and antibiotic resistance profiles demonstrated genotypic and phenotypic variation. Each isolate was sequenced to high-quality draft status, which allowed for comparative genomic analyses with existing A. baumannii genomes. A high resolution, whole genome alignment method detailed the phylogenetic relationships of sequenced A. baumannii and found no correlation between phylogeny and body site of isolation. This method identified genomic regions unique to both those isolates found on the surface of the skin or in wounds, termed colonization isolates, and those identified from body fluids, termed invasive isolates; these regions may play a role in the pathogenesis and spread of this important pathogen. A PCR-based screen of 74 A. baumanii isolates demonstrated that these unique genes are not exclusive to either phenotype or isolation source; however, a conserved genomic region exclusive to all sequenced A. baumannii was identified and verified. Conclusions The results of the comparative genome analysis and PCR assay show that A. baumannii is a diverse and genomically variable pathogen that appears to have the potential to cause a range of human disease regardless of the isolation source.

Published

2011

5. Visualization of comparative genomic analyses by BLAST score ratio

Author

Ravel Jacques, Myers Garry SA, and Rasko David A

Subjects

Computer applications to medicine. Medical informatics, R858-859.7, Biology (General), QH301-705.5

Abstract

Abstract Background The first microbial genome sequence, Haemophilus influenzae, was published in 1995. Since then, more than 400 microbial genome sequences have been completed or commenced. This massive influx of data provides the opportunity to obtain biological insights through comparative genomics. However few tools are available for this scale of comparative analysis. Results The BLAST Score Ratio (BSR) approach, implemented in a Perl script, classifies all putative peptides within three genomes using a measure of similarity based on the ratio of BLAST scores. The output of the BSR analysis enables global visualization of the degree of proteome similarity between all three genomes. Additional output enables the genomic synteny (conserved gene order) between each genome pair to be assessed. Furthermore, we extend this synteny analysis by overlaying BSR data as a color dimension, enabling visualization of the degree of similarity of the peptides being compared. Conclusions Combining the degree of similarity, synteny and annotation will allow rapid identification of conserved genomic regions as well as a number of common genomic rearrangements such as insertions, deletions and inversions. The script and example visualizations are available at: http://www.microbialgenomics.org/BSR/.

Published

2005

6. Detecting Residual Chronic Salmonella Typhi Carriers on the Road to Typhoid Elimination in Santiago, Chile, 2017-2019.

Author

Lagos RM, Sikorski MJ, Hormazábal JC, Fernandez A, Duarte S, Pasetti MF, Rasko DA, Higginson E, Nkeze J, Kasumba IN, Dougan G, Maes M, Lees A, Tennant SM, and Levine MM

Subjects

Humans, Chile epidemiology, Female, Aged, Male, Middle Aged, Adult, Feces microbiology, Genotype, Whole Genome Sequencing, Travel, Child, Polymorphism, Single Nucleotide, Child, Preschool, Young Adult, Aged, 80 and over, Adolescent, Typhoid Fever epidemiology, Typhoid Fever microbiology, Salmonella typhi genetics, Salmonella typhi isolation & purification, Carrier State epidemiology, Carrier State microbiology

Abstract

Background: In Santiago, Chile, where typhoid had been hyperendemic (1977-1991), we investigated whether residual chronic carriers could be detected among household contacts of non-travel-related typhoid cases occurring during 2017-2019., Methods: Culture-confirmed cases were classified as autochthonous (domestically acquired) versus travel/immigration related. Household contacts of cases had stool cultures and serum Vi antibody measurements to detect chronic Salmonella Typhi carriers. Whole genome sequences of acute cases and their epidemiologically linked chronic carrier isolates were compared., Results: Five of 16 autochthonous typhoid cases (31.3%) were linked to 4 chronic carriers in case households; 2 cases (onsets 23 months apart) were linked to the same carrier. Carriers were women aged 69-79 years with gallbladder dysfunction and Typhi fecal excretion; 3 had highly elevated serum anti-Vi titers. Genomic analyses revealed close identity (≤11 core genome single-nucleotide polymorphism [SNP] differences) between case and epidemiologically linked carrier isolates; all were genotypes prevalent in 1980s Santiago. A cluster of 4 additional autochthonous cases unlinked to a carrier was identified based on genomic identity (0-1 SNPs). Travel/immigration isolate genotypes were typical for the countries of travel/immigration., Conclusions: Although autochthonous typhoid cases in Santiago are currently rare, 5 of 16 such cases (31.3%) were linked to elderly chronic carriers identified among household contacts of cases., Competing Interests: Potential conflicts of interest. M. M. L. and S. M. T. report grants from the Bill & Melinda Gates Foundation during the conduct of the study. M. M. L. and S. M. T. have patents issued for: “Broad spectrum vaccine against typhoidal and nontyphoidal Salmonella disease” (US Patent 9,011,871); and “Compositions and Methods for Producing Bacterial Conjugate Vaccines” (US Patent 10,716,839). M. M. L. also has a patent issued for: “Attenuated Salmonella Enterica Serovar Paratyphi and Uses Thereof” (US Patent 8,137,930). All other authors report no potential conflicts. All authors have submitted the ICMJE Form for Disclosure of Potential Conflicts of Interest. Conflicts that the editors consider relevant to the content of the manuscript have been disclosed., (© The Author(s) 2023. Published by Oxford University Press on behalf of Infectious Diseases Society of America.)

Published

2024

7. Pseudomonas aeruginosa Lipid A Structural Variants Induce Altered Immune Responses.

Author

Hofstaedter CE, O'Keefe IP, Met CM, Wu L, Vanderwoude J, Shin S, Diggle SP, Riquelme SA, Rasko DA, Doi Y, Harro JM, Kopp BT, and Ernst RK

Subjects

Humans, Toll-Like Receptor 4 metabolism, Toll-Like Receptor 4 immunology, Cytokines metabolism, Macrophages immunology, Macrophages metabolism, Macrophages microbiology, Bronchoalveolar Lavage Fluid immunology, Lung microbiology, Lung immunology, Lung metabolism, Pseudomonas aeruginosa immunology, Lipid A metabolism, Lipid A immunology, Cystic Fibrosis microbiology, Cystic Fibrosis immunology, Cystic Fibrosis metabolism, Pseudomonas Infections immunology, Pseudomonas Infections microbiology, Pseudomonas Infections metabolism

Abstract

Pseudomonas aeruginosa causes chronic lung infection in cystic fibrosis (CF), resulting in structural lung damage and progressive pulmonary decline. P. aeruginosa in the CF lung undergoes numerous changes, adapting to host-specific airway pressures while establishing chronic infection. P. aeruginosa undergoes lipid A structural modification during CF chronic infection that is not seen in any other disease state. Lipid A, the membrane anchor of LPS (i.e., endotoxin), comprises the majority of the outer membrane of Gram-negative bacteria and is a potent Toll-like receptor 4 (TLR4) agonist. The structure of P. aeruginosa lipid A is intimately linked with its recognition by TLR4 and subsequent immune response. Prior work has identified P. aeruginosa strains with altered lipid A structures that arise during chronic CF lung infection; however, the impact of the P. aeruginosa lipid A structure on airway disease has not been investigated. Here, we show that P. aeruginosa lipid A lacks PagL-mediated deacylation during human airway infection using a direct-from-sample mass spectrometry approach on human BAL fluid. This structure triggers increased proinflammatory cytokine production by primary human macrophages. Furthermore, alterations in lipid A 2-hydroxylation impact cytokine response in a site-specific manner, independent of CF transmembrane conductance regulator function. It is interesting that there is a CF-specific reduction in IL-8 secretion within the epithelial-cell compartment that only occurs in CF bronchial epithelial cells when infected with CF-adapted P. aeruginosa that lacks PagL-mediated lipid A deacylation. Taken together, we show that P. aeruginosa alters its lipid A structure during acute lung infection and that this lipid A structure induces stronger signaling through TLR4.

Published

2024

8. Factors associated with patient-to-healthcare personnel (HCP) and HCP-to-subsequent patient transmission of methicillin-resistant Staphylococcus aureus .

Author

Adediran TY, Robinson GL, Johnson JK, Liang Y, Bejo S, Leekha S, Rasko DA, Stine OC, Harris AD, and Thom KA

Subjects

Humans, Gloves, Protective, Prospective Studies, Health Personnel, Infection Control, Methicillin-Resistant Staphylococcus aureus, Cross Infection prevention & control, Staphylococcal Infections prevention & control

Abstract

Background: Transient acquisition of methicillin-resistant Staphylococcus aureus (MRSA) on healthcare personnel (HCP) gloves and gowns following patient care has been examined. However, the potential for transmission to the subsequent patient has not been studied. We explored the frequency of MRSA transmission from patient to HCP, and then in separate encounters from contaminated HCP gloves and gowns to a subsequent simulated patient as well as the factors associated with these 2 transmission pathways., Methods: We conducted a prospective cohort study with 2 parts. In objective 1, we studied MRSA transmission from random MRSA-positive patients to HCP gloves and gowns after specific routine patient care activities. In objective 2, we simulated subsequent transmission from random HCP gloves and gowns without hand hygiene to the next patient using a manikin proxy., Results: For the first objective, among 98 MRSA-positive patients with 333 randomly selected individual patient-HCP interactions, HCP gloves or gowns were contaminated in 54 interactions (16.2%). In a multivariable analysis, performing endotracheal tube care had the greatest odds of glove or gown contamination (OR, 4.06; 95% CI, 1.3-12.6 relative to physical examination). For the second objective, after 147 simulated HCP-patient interactions, the subsequent transmission of MRSA to the manikin proxy occurred 15 times (10.2%)., Conclusion: After caring for a patient with MRSA, contamination of HCP gloves and gown and transmission to subsequent patients following HCP-patient interactions occurs frequently if contact precautions are not used. Proper infection control practices, including the use of gloves and gown, can prevent this potential subsequent transmission.

Published

2024

9. Deciphering Bacterial and Archaeal Transcriptional Dark Matter and Its Architectural Complexity.

Author

Mattick JSA, Bromley RE, Watson KJ, Adkins RS, Holt CI, Lebov JF, Sparklin BC, Tyson TS, Rasko DA, and Hotopp JCD

Abstract

Transcripts are potential therapeutic targets, yet bacterial transcripts remain biological dark matter with uncharacterized biodiversity. We developed and applied an algorithm to predict transcripts for Escherichia coli K12 and E2348/69 strains (Bacteria:gamma-Proteobacteria) with newly generated ONT direct RNA sequencing data while predicting transcripts for Listeria monocytogenes strains Scott A and RO15 (Bacteria:Firmicute), Pseudomonas aeruginosa strains SG17M and NN2 strains (Bacteria:gamma-Proteobacteria), and Haloferax volcanii (Archaea:Halobacteria) using publicly available data. From >5 million E. coli K12 ONT direct RNA sequencing reads, 2,484 mRNAs are predicted and contain more than half of the predicted E. coli proteins. While the number of predicted transcripts varied by strain based on the amount of sequence data used for the predictions, across all strains examined, the average size of the predicted mRNAs is 1.6-1.7 kbp while the median size of the predicted bacterial 5'- and 3'- UTRs are 30-90 bp. Given the lack of bacterial and archaeal transcript annotation, most predictions are of novel transcripts, but we also predicted many previously characterized mRNAs and ncRNAs, including post-transcriptionally generated transcripts and small RNAs associated with pathogenesis in the E. coli E2348/69 LEE pathogenicity islands. We predicted small transcripts in the 100-200 bp range as well as >10 kbp transcripts for all strains, with the longest transcript for two of the seven strains being the nuo operon transcript, and for another two strains it was a phage/prophage transcript. This quick, easy, inexpensive, and reproducible method will facilitate the presentation of operons, transcripts, and UTR predictions alongside CDS and protein predictions in bacterial genome annotation as important resources for the research community.

Published

2024

10. Divergent Pseudomonas aeruginosa LpxO enzymes perform site-specific lipid A 2-hydroxylation.

Author

Hofstaedter CE, Chandler CE, Met CM, Gillespie JJ, Harro JM, Goodlett DR, Rasko DA, and Ernst RK

Subjects

Humans, Animals, Mice, Pseudomonas aeruginosa metabolism, Lipid A metabolism, Persistent Infection, Laurates metabolism, Hydroxylation, Cystic Fibrosis microbiology, Pseudomonas Infections microbiology, Dioxygenases metabolism

Abstract

Pseudomonas aeruginosa can survive in a myriad of environments, partially due to modifications of its lipid A, the membrane anchor of lipopolysaccharide. We previously demonstrated that divergent late acyltransferase paralogs, HtrB1 and HtrB2, add acyloxyacyl laurate to lipid A 2- and 2'-acyl chains, respectively. The genome of P. aeruginosa also has genes which encode two dioxygenase enzymes, LpxO1 and LpxO2, that individually hydroxylate a specific secondary laurate. LpxO1 acts on the 2'-acyloxyacyl laurate (added by HtrB2), whereas LpxO2 acts on the 2-acyloxyacyl laurate (added by HtrB1) in a site-specific manner. Furthermore, while both enzyme pairs are evolutionarily linked, phylogenomic analysis suggests the LpxO1/HtrB2 enzyme pair as being of ancestral origin, present throughout the Pseudomonas lineage, whereas the LpxO2/HtrB1 enzyme pair likely arose via horizontal gene transfer and has been retained in P. aeruginosa over time. Using a murine pulmonary infection model, we showed that both LpxO1 and LpxO2 enzymes are functional in vivo , as direct analysis of in vivo lipid A structure from bronchoalveolar lavage fluid revealed 2-hydroxylated lipid A. Gene expression analysis reveals increased lpxO2 but unchanged lpxO1 expression in vivo , suggesting differential regulation of these enzymes during infection. We also demonstrate that loss-of-function mutations arise in lpxO1 and lpxO2 during chronic lung infection in people with cystic fibrosis (CF), indicating a potential role for pathogenesis and airway adaptation. Collectively, our study characterizes lipid A 2-hydroxylation during P. aeruginosa airway infection that is regulated by two distinct lipid A dioxygenase enzymes.IMPORTANCE Pseudomonas aeruginosa is an opportunistic pathogen that causes severe infection in hospitalized and chronically ill individuals. During infection, P. aeruginosa undergoes adaptive changes to evade host defenses and therapeutic interventions, increasing mortality and morbidity. Lipid A structural alteration is one such change that P. aeruginosa isolates undergo during chronic lung infection in CF. Investigating genetic drivers of this lipid A structural variation is crucial in understanding P. aeruginosa adaptation during infection. Here, we describe two lipid A dioxygenases with acyl-chain site specificity, each with different evolutionary origins. Further, we show that loss of function in these enzymes occurs in CF clinical isolates, suggesting a potential pathoadaptive phenotype. Studying these bacterial adaptations provides insight into selection pressures of the CF airway on P. aeruginosa phenotypes that persist during chronic infection. Understanding these adaptive changes may ultimately provide clinicians better control over bacterial populations during chronic infection., Competing Interests: The authors declare no conflict of interest.

Published

2024

11. Gastrointestinal signals in supplemented media reveal a role in adherence for the Shigella flexneri sap autotransporter gene.

Author

León Y, Honigsberg R, Rasko DA, and Faherty CS

Subjects

Shigella flexneri genetics, Epithelial Cells microbiology, Mutation, Escherichia coli, Bacterial Proteins genetics, Type V Secretion Systems genetics, Gastrointestinal Microbiome

Abstract

Shigella flexneri causes severe diarrheal disease worldwide. While many aspects of pathogenesis have been elucidated, significant knowledge gaps remain regarding the role of putative chromosomally-encoded virulence genes. The uncharacterized sap gene encoded on the chromosome has significant nucleotide sequence identity to the fluffy ( flu ) antigen 43 autotransporter gene in pathogenic Escherichia coli . Here, we constructed a Δ sap mutant in S. flexneri strain 2457T and examined the effects of this mutation on bacterial cell aggregation, biofilm formation, and adherence to colonic epithelial cells. Analyses included the use of growth media supplemented with glucose and bile salts to replicate small intestinal signals encountered by S. flexneri . Deletion of the sap gene in 2457T affected epithelial cell adherence, resulted in quicker bacterial cell aggregation, but did not affect biofilm formation. This work highlights a functional role for the sap gene in S. flexneri pathogenesis and further demonstrates the importance of using relevant and appropriate gastrointestinal signals to characterize virulence genes of enteropathogenic bacteria.

Published

2024

12. Genomic, transcriptomic, and phenotypic differences among archetype Shigella flexneri strains of serotypes 2a, 3a, and 6.

Author

Gabor CE, Hazen TH, Delaine-Elias BC, Rasko DA, and Barry EM

Subjects

Serogroup, Gene Expression Profiling, Vaccines, Combined, Shigella flexneri genetics, Genomics

Abstract

Importance: Given the genomic diversity between S. flexneri serotypes and the paucity of data to support serotype-specific phenotypic differences, we applied in silico and in vitro functional analyses of archetype strains of 2457T ( Sf 2a), J17B ( Sf 3a), and CH060 ( Sf 6). These archetype strains represent the three leading S. flexneri serotypes recommended for inclusion in multivalent vaccines. Characterizing the genomic and phenotypic variation among these clinically prevalent serotypes is an important step toward understanding serotype-specific host-pathogen interactions to optimize the efficacy of multivalent vaccines and therapeutics. This study underpins the importance for further large-scale serotype-targeted analyses., Competing Interests: The authors declare no conflict of interest.

Published

2023

13. Global diversity and antimicrobial resistance of typhoid fever pathogens: Insights from a meta-analysis of 13,000 Salmonella Typhi genomes.

Author

Carey ME, Dyson ZA, Ingle DJ, Amir A, Aworh MK, Chattaway MA, Chew KL, Crump JA, Feasey NA, Howden BP, Keddy KH, Maes M, Parry CM, Van Puyvelde S, Webb HE, Afolayan AO, Alexander AP, Anandan S, Andrews JR, Ashton PM, Basnyat B, Bavdekar A, Bogoch II, Clemens JD, da Silva KE, De A, de Ligt J, Diaz Guevara PL, Dolecek C, Dutta S, Ehlers MM, Francois Watkins L, Garrett DO, Godbole G, Gordon MA, Greenhill AR, Griffin C, Gupta M, Hendriksen RS, Heyderman RS, Hooda Y, Hormazabal JC, Ikhimiukor OO, Iqbal J, Jacob JJ, Jenkins C, Jinka DR, John J, Kang G, Kanteh A, Kapil A, Karkey A, Kariuki S, Kingsley RA, Koshy RM, Lauer AC, Levine MM, Lingegowda RK, Luby SP, Mackenzie GA, Mashe T, Msefula C, Mutreja A, Nagaraj G, Nagaraj S, Nair S, Naseri TK, Nimarota-Brown S, Njamkepo E, Okeke IN, Perumal SPB, Pollard AJ, Pragasam AK, Qadri F, Qamar FN, Rahman SIA, Rambocus SD, Rasko DA, Ray P, Robins-Browne R, Rongsen-Chandola T, Rutanga JP, Saha SK, Saha S, Saigal K, Sajib MSI, Seidman JC, Shakya J, Shamanna V, Shastri J, Shrestha R, Sia S, Sikorski MJ, Singh A, Smith AM, Tagg KA, Tamrakar D, Tanmoy AM, Thomas M, Thomas MS, Thomsen R, Thomson NR, Tupua S, Vaidya K, Valcanis M, Veeraraghavan B, Weill FX, Wright J, Dougan G, Argimón S, Keane JA, Aanensen DM, Baker S, and Holt KE

Subjects

Humans, Anti-Bacterial Agents pharmacology, Travel, Drug Resistance, Bacterial genetics, Ciprofloxacin, Salmonella typhi genetics, Typhoid Fever epidemiology

Abstract

Background: The Global Typhoid Genomics Consortium was established to bring together the typhoid research community to aggregate and analyse Salmonella enterica serovar Typhi (Typhi) genomic data to inform public health action. This analysis, which marks 22 years since the publication of the first Typhi genome, represents the largest Typhi genome sequence collection to date (n=13,000)., Methods: This is a meta-analysis of global genotype and antimicrobial resistance (AMR) determinants extracted from previously sequenced genome data and analysed using consistent methods implemented in open analysis platforms GenoTyphi and Pathogenwatch., Results: Compared with previous global snapshots, the data highlight that genotype 4.3.1 (H58) has not spread beyond Asia and Eastern/Southern Africa; in other regions, distinct genotypes dominate and have independently evolved AMR. Data gaps remain in many parts of the world, and we show the potential of travel-associated sequences to provide informal 'sentinel' surveillance for such locations. The data indicate that ciprofloxacin non-susceptibility (>1 resistance determinant) is widespread across geographies and genotypes, with high-level ciprofloxacin resistance (≥3 determinants) reaching 20% prevalence in South Asia. Extensively drug-resistant (XDR) typhoid has become dominant in Pakistan (70% in 2020) but has not yet become established elsewhere. Ceftriaxone resistance has emerged in eight non-XDR genotypes, including a ciprofloxacin-resistant lineage (4.3.1.2.1) in India. Azithromycin resistance mutations were detected at low prevalence in South Asia, including in two common ciprofloxacin-resistant genotypes., Conclusions: The consortium's aim is to encourage continued data sharing and collaboration to monitor the emergence and global spread of AMR Typhi, and to inform decision-making around the introduction of typhoid conjugate vaccines (TCVs) and other prevention and control strategies., Funding: No specific funding was awarded for this meta-analysis. Coordinators were supported by fellowships from the European Union (ZAD received funding from the European Union's Horizon 2020 research and innovation programme under the Marie Sklodowska-Curie grant agreement No 845681), the Wellcome Trust (SB, Wellcome Trust Senior Fellowship), and the National Health and Medical Research Council (DJI is supported by an NHMRC Investigator Grant [GNT1195210])., Competing Interests: MC, ZD, DI, AA, MA, MC, KC, JC, BH, KK, MM, CP, SV, HW, AA, AA, SA, JA, PA, BB, AB, JC, Kd, AD, Jd, PD, CD, SD, ME, LF, DG, GG, MG, AG, CG, MG, RH, RH, YH, JH, OI, JI, JJ, CJ, DJ, JJ, GK, AK, AK, AK, SK, RK, RK, AL, ML, RL, SL, GM, TM, CM, AM, GN, SN, SN, TN, SN, EN, IO, SP, AP, FQ, FQ, SR, SR, DR, PR, RR, TR, JR, SS, SS, KS, MS, JS, JS, VS, JS, RS, SS, MS, AS, AS, KT, DT, AT, MT, MT, RT, NT, ST, KV, MV, BV, FW, JW, GD, SA, JK, DA, SB, KH No competing interests declared, NF NAF chairs the Wellcome Surveillance and Epidemiology of Drug Resistant Infections (SEDRIC) group, which has a focus on antimicrobial resistance. This could be perceived as relevant although not a direct conflict, IB IB has consulted to BlueDot and the NHL Players' Association, AP AJP is chair of the UK Department of Health and Social Care's (DHSC) Joint Committee on Vaccination and Immunisation (JCVI) but does not take part in the JCVI COVID-19 committee. He was a member of WHO SAGE until 2022. AJPs employer, Oxford University has entered into a partnership with AstraZeneca for development of a COVID-19 vaccine. AJP has provided advice to Shionogi & Co., Ltd on development of a COVID19 vaccine, (© 2023, Carey et al.)

Published

2023

14. Clinical and Bacterial Characteristics Associated with Glove and Gown Contamination by Carbapenem-Resistant Klebsiella pneumoniae in the Health Care Setting.

Author

Hazen TH, Adediran T, Hitchcock S, O'Hara LM, Pineles L, Michalski JM, Johnson JK, Nguyen MH, Calfee DP, Miller LG, Harris AD, and Rasko DA

Subjects

Humans, Klebsiella pneumoniae genetics, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents therapeutic use, Carbapenems pharmacology, Carbapenems therapeutic use, Delivery of Health Care, Microbial Sensitivity Tests, beta-Lactamases, Klebsiella Infections microbiology, Carbapenem-Resistant Enterobacteriaceae genetics

Abstract

Carbapenem-resistant Klebsiella pneumoniae (CRKp) is a pathogen of significant concern to public health, as it has become increasingly associated with difficult-to-treat community-acquired and hospital-associated infections. Transmission of K. pneumoniae between patients through interactions with shared health care personnel (HCP) has been described as a source of infection in health care settings. However, it is not known whether specific lineages or isolates of K. pneumoniae are associated with increased transmission. Thus, we used whole-genome sequencing to analyze the genetic diversity of 166 carbapenem-resistant K. pneumoniae isolates from five U.S. hospitals in four states as part of a multicenter study examining risk factors for glove and gown contamination by carbapenem-resistant Enterobacterales (CRE). The CRKp isolates exhibited considerable genomic diversity with 58 multilocus sequence types (STs), including four newly designated STs. ST258 was the most prevalent ST, representing 31% (52/166) of the CRKp isolates, but was similarly prevalent among patients who had high, intermediate, and low CRKp transmission. Increased transmission was associated with clinical characteristics including a nasogastric (NG) tube or an endotracheal tube or tracheostomy (ETT/Trach). Overall, our findings provide important insight into the diversity of CRKp associated with transmission from patients to the gloves and gowns of HCP. These findings suggest that certain clinical characteristics and the presence of CRKp in the respiratory tract, rather than specific lineages or genetic content, are more often associated with increased transmission of CRKp from patients to HCP. IMPORTANCE Carbapenem-resistant Klebsiella pneumoniae (CRKp) is a significant public health concern that has contributed to the spread of carbapenem resistance and has been linked to high morbidity and mortality. Transmission of K. pneumoniae among patients through interactions with shared health care personnel (HCP) has been described as a source of infection in health care settings; however, it remains unknown whether particular bacterial characteristics are associated with increased CRKp transmission. Using comparative genomics, we demonstrate that CRKp isolates associated with high or intermediate transmission exhibit considerable genomic diversity, and there were no K. pneumoniae lineages or genes that were universally predictive of increased transmission. Our findings suggest that certain clinical characteristics and the presence of CRKp, rather than specific lineages or genetic content of CRKp, are more often associated with increased transmission of CRKp from patients to HCP., Competing Interests: The authors declare no conflict of interest.

Published

2023

15. Genomic and Functional Characterization of Longitudinal Pseudomonas aeruginosa Isolates from Young Patients with Cystic Fibrosis.

Author

Chandler CE, Hofstaedter CE, Hazen TH, Rasko DA, and Ernst RK

Subjects

Humans, Pseudomonas aeruginosa genetics, Lung microbiology, Genomics, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents therapeutic use, Cystic Fibrosis complications, Cystic Fibrosis microbiology, Pseudomonas Infections microbiology

Abstract

Individuals with cystic fibrosis (CF) suffer from frequent and recurring microbial airway infections. The Gram-negative bacterium Pseudomonas aeruginosa is one of the most common organisms isolated from CF patient airways. P. aeruginosa establishes chronic infections that persist throughout a patient's lifetime and is a major cause of morbidity and mortality. Throughout the course of infection, P. aeruginosa must evolve and adapt from an initial state of early, transient colonization to chronic colonization of the airways. Here, we examined isolates of P. aeruginosa from children under the age of 3 years old with CF to determine genetic adaptations the bacterium undergoes during this early stage of colonization and infection. These isolates were collected when early aggressive antimicrobial therapy was not the standard of care and therefore highlight strain evolution under limited antibiotic pressure. Examination of specific phenotypic adaptations, such as lipid A palmitoylation, antibiotic resistance, and loss of quorum sensing, did not reveal a clear genetic basis for such changes. Additionally, we demonstrate that the geography of patient origin, within the United States or among other countries, does not appear to significantly influence genetic adaptation. In summary, our results support the long-standing model that patients acquire individual isolates of P. aeruginosa that subsequently become hyperadapted to the patient-specific airway environment. This study provides a multipatient genomic analysis of isolates from young CF patients in the United States and contributes data regarding early colonization and adaptation to the growing body of research about P. aeruginosa evolution in the context of CF airway disease. IMPORTANCE Chronic lung infection with Pseudomonas aeruginosa is of major concern for patients with cystic fibrosis (CF). During infection, P. aeruginosa undergoes genomic and functional adaptation to the hyperinflammatory CF airway, resulting in worsening lung function and pulmonary decline. All studies that describe these adaptations use P. aeruginosa obtained from older children or adults during late chronic lung infection; however, children with CF can be infected with P. aeruginosa as early as 3 months of age. Therefore, it is unclear when these genomic and functional adaptations occur over the course of CF lung infection, as access to P. aeruginosa isolates in children during early infection is limited. Here, we present a unique cohort of CF patients who were identified as being infected with P. aeruginosa at an early age prior to aggressive antibiotic therapy. Furthermore, we performed genomic and functional characterization of these isolates to address whether chronic CF P. aeruginosa phenotypes are present during early infection., Competing Interests: The authors declare no conflict of interest.

Published

2023

16. Molecular concordance of methicillin-resistant Staphylococcus aureus isolates from healthcare workers and patients.

Author

Adediran TY, Hitchcock S, Johnson JK, Stine OC, Leekha S, Thom KA, Liang Y, Rasko DA, and Harris AD

Subjects

Humans, Multilocus Sequence Typing, Phylogeny, Health Personnel, Methicillin-Resistant Staphylococcus aureus, Staphylococcal Infections

Abstract

Background: Methicillin-resistant Staphylococcus aureus (MRSA) is a significant nosocomial pathogen in the ICU. MRSA contamination of healthcare personnel (HCP) gloves and gowns after providing care to patients with MRSA occurs at a rate of 14%-16% in the ICU setting. Little is known about whether the MRSA isolates identified on HCP gown and gloves following patient care activities are the same as MRSA isolates identified as colonizing or infecting the patient., Methods: From a multisite cohort of 388 independent patient MRSA isolates and their corresponding HCP gown and glove isolates, we selected 91 isolates pairs using a probability to proportion size (PPS) sampling method. To determine whether the patient and HCP gown or gloves isolates were genetically similar, we used 5 comparative genomic typing methods: phylogenetic analysis, spa typing, multilocus sequence typing (MLST), large-scale BLAST score ratio (LSBSR), and single-nucleotide variant (SNV) analysis., Results: We identified that 56 (61.5%) of isolate pairs were genetically similar at least by 4 of the methods. Comparably, the spa typing and the LSBSR analyses revealed that >75% of the examined isolate pairs were concordant, with the thresholds established for each analysis., Conclusions: Many of the patient MRSA isolates were genetically similar to those on the HCP gown or gloves following a patient care activity. This finding indicates that the patient is often the primary source of the MRSA isolates transmitted to the HCP, which can potentially be spread to other patients or hospital settings through HCP vectors. These results have important implications because they provide additional evidence for hospitals considering ending the use of contact precautions (gloves and gowns) for MRSA patients.

Published

2023

17. Genomic diversity of non-diarrheagenic fecal Escherichia coli from children in sub-Saharan Africa and south Asia and their relatedness to diarrheagenic E. coli.

Author

Hazen TH, Michalski JM, Tennant SM, and Rasko DA

Subjects

Humans, Child, Male, Female, Child, Preschool, Asia, Southern, Virulence Factors genetics, Africa South of the Sahara epidemiology, Genomics, Escherichia coli, Escherichia coli Infections epidemiology, Escherichia coli Infections microbiology

Abstract

Escherichia coli is a frequent member of the healthy human gastrointestinal microbiota, as well as an important human pathogen. Previous studies have focused on the genomic diversity of the pathogenic E. coli and much remains unknown about the non-diarrheagenic E. coli residing in the human gut, particularly among young children in low and middle income countries. Also, gaining additional insight into non-diarrheagenic E. coli is important for understanding gut health as non-diarrheagenic E. coli can prevent infection by diarrheagenic bacteria. In this study we examine the genomic diversity of non-diarrheagenic fecal E. coli from male and female children with or without diarrhea from countries in sub-Saharan Africa and south Asia as part of the Global Enteric Multicenter Study (GEMS). We find that these E. coli exhibit considerable genetic diversity as they were identified in all E. coli phylogroups and an Escherichia cryptic clade. Although these fecal E. coli lack the characteristic virulence factors of diarrheagenic E. coli pathotypes, many exhibit remarkable genomic similarity to previously described diarrheagenic isolates with differences attributed to mobile elements. This raises an important question of whether these non-diarrheagenic fecal E. coli may have at one time possessed the mobile element-encoded virulence factors of diarrheagenic pathotypes or may have the potential to acquire these virulence factors., (© 2023. The Author(s).)

Published

2023

18. Persistence of Rare Salmonella Typhi Genotypes Susceptible to First-Line Antibiotics in the Remote Islands of Samoa.

Author

Sikorski MJ, Hazen TH, Desai SN, Nimarota-Brown S, Tupua S, Sialeipata M, Rambocus S, Ingle DJ, Duchene S, Ballard SA, Valcanis M, Zufan S, Ma J, Sahl JW, Maes M, Dougan G, Thomsen RE, Robins-Browne RM, Howden BP, Naseri TK, Levine MM, and Rasko DA

Subjects

Humans, Anti-Bacterial Agents pharmacology, Genotype, Plasmids, Microbial Sensitivity Tests, Salmonella typhi, Typhoid Fever epidemiology

Abstract

For decades, the remote island nation of Samoa (population ~200,000) has faced endemic typhoid fever despite improvements in water quality, sanitation, and economic development. We recently described the epidemiology of typhoid fever in Samoa from 2008 to 2019 by person, place, and time; however, the local Salmonella enterica serovar Typhi (S. Typhi) population structure, evolutionary origins, and genomic features remained unknown. Herein, we report whole genome sequence analyses of 306 S. Typhi isolates from Samoa collected between 1983 and 2020. Phylogenetics revealed a dominant population of rare genotypes 3.5.4 and 3.5.3, together comprising 292/306 (95.4%) of Samoan versus 2/4934 (0.04%) global S. Typhi isolates. Three distinct 3.5.4 genomic sublineages were identified, and their defining polymorphisms were determined. These dominant Samoan genotypes, which likely emerged in the 1970s, share ancestry with other 3.5 clade isolates from South America, Southeast Asia, and Oceania. Additionally, a 106-kb pHCM2 phenotypically cryptic plasmid, detected in a 1992 Samoan S. Typhi isolate, was identified in 106/306 (34.6%) of Samoan isolates; this is more than double the observed proportion of pHCM2-containing isolates in the global collection. In stark contrast with global S. Typhi trends, resistance-conferring polymorphisms were detected in only 15/306 (4.9%) of Samoan S. Typhi, indicating overwhelming susceptibility to antibiotics that are no longer effective in most of South and Southeast Asia. This country-level genomic framework can help local health authorities in their ongoing typhoid surveillance and control efforts, as well as fill a critical knowledge gap in S. Typhi genomic data from Oceania. IMPORTANCE In this study, we used whole genome sequencing and comparative genomics analyses to characterize the population structure, evolutionary origins, and genomic features of S. Typhi associated with decades of endemic typhoid fever in Samoa. Our analyses of Samoan isolates from 1983 to 2020 identified a rare S. Typhi population in Samoa that likely emerged around the early 1970s and evolved into sublineages that are presently dominant. The dominance of these endemic genotypes in Samoa is not readily explained by genomic content or widespread acquisition of antimicrobial resistance. These data establish the necessary framework for future genomic surveillance of S. Typhi in Samoa for public health benefit.

Published

2022

19. Dynamics of the Gut Microbiome in Shigella -Infected Children during the First Two Years of Life.

Author

Ndungo E, Holm JB, Gama S, Buchwald AG, Tennant SM, Laufer MK, Pasetti MF, and Rasko DA

Subjects

Infant, Humans, Child, Child, Preschool, RNA, Ribosomal, 16S genetics, Quality of Life, Feces microbiology, Diarrhea microbiology, Gastrointestinal Microbiome genetics, Dysentery, Bacillary epidemiology, Shigella genetics

Abstract

Shigella continues to be a major contributor to diarrheal illness and dysentery in children younger than 5 years of age in low- and middle-income countries. Strategies for the prevention of shigellosis have focused on enhancing adaptive immunity. The interaction between Shigella and intrinsic host factors, such as the microbiome, remains unknown. We hypothesized that Shigella infection would impact the developing microbial community in infancy and, conversely, that changes in the gastrointestinal microbiome may predispose infections. To test this hypothesis, we characterized the gastrointestinal microbiota in a longitudinal birth cohort from Malawi that was monitored for Shigella infection using 16S rRNA amplicon sequencing. Children with at least one Shigella quantitative polymerase chain reaction (qPCR) positive sample during the first 2 years of life (cases) were compared to uninfected controls that were matched for sex and age. Overall, the microbial species diversity, as measured by the Shannon diversity index, increased over time, regardless of case status. At early time points, the microbial community was dominated by Bifidobacterium longum and Escherichia /Shigella . A greater abundance of Prevotella 9 and Bifidobacterium kashiwanohense was observed at 2 years of age. While no single species was associated with susceptibility to Shigella infection, significant increases in Lachnospiraceae NK4A136 and Fusicatenibacter saccharivorans were observed following Shigella infection. Both taxa are in the family Lachnospiraceae, which are known short-chain fatty acid producers that may improve gut health. Our findings identified temporal changes in the gastrointestinal microbiota associated with Shigella infection in Malawian children and highlight the need to further elucidate the microbial communities associated with disease susceptibility and resolution. IMPORTANCE Shigella causes more than 180 million cases of diarrhea globally, mostly in children living in poor regions. Infection can lead to severe health impairments that reduce quality of life. There is increasing evidence that disruptions in the gut microbiome early in life can influence susceptibility to illnesses. A delayed or impaired reconstitution of the microbiota following infection can further impact overall health. Aiming to improve our understanding of the interaction between Shigella and the developing infant microbiome, we investigated changes in the gut microbiome of Shigella -infected and uninfected children over the course of their first 2 years of life. We identified species that may be involved in recovery from Shigella infection and in driving the microbiota back to homeostasis. These findings support future studies into the elucidation of the interaction between the microbiota and enteric pathogens in young children and into the identification of potential targets for prevention or treatment.

Published

2022

20. Erratum for Adediran et al., "Comparative Genomics Identifies Features Associated with Methicillin-Resistant Staphylococcus aureus (MRSA) Transmission in Hospital Settings".

Author

Adediran T, Hitchcock S, O'Hara LM, Michalski JM, Johnson JK, Calfee DP, Miller LG, Hazen TH, Harris AD, and Rasko DA

Published

2022

21. Spatial-temporal and phylogenetic analyses of epidemiologic data to help understand the modes of transmission of endemic typhoid fever in Samoa.

Author

Sikorski MJ, Ma J, Hazen TH, Desai SN, Tupua S, Nimarota-Brown S, Sialeipata M, Rambocus S, Ballard SA, Valcanis M, Thomsen RE, Robins-Browne RM, Howden BP, Naseri TK, Levine MM, and Rasko DA

Subjects

Humans, Anti-Bacterial Agents therapeutic use, Genotype, Phylogeny, Salmonella typhi, Whole Genome Sequencing, Samoa, Typhoid Fever microbiology

Abstract

Salmonella enterica serovar Typhi (S. Typhi) is either widely distributed or proximally transmitted via fecally-contaminated food or water to cause typhoid fever. In Samoa, where endemic typhoid fever has persisted over decades despite water quality and sanitation improvements, the local patterns of S. Typhi circulation remain unclear. From April 2018-June 2020, epidemiologic data and GPS coordinates were collected during household investigations of 260 acute cases of typhoid fever, and 27 asymptomatic shedders of S. Typhi were detected among household contacts. Spatial and temporal distributions of cases were examined using Average Nearest Neighbor and space-time hotspot analyses. In rural regions, infections occurred in sporadic, focal clusters contrasting with persistent, less clustered cases in the Apia Urban Area. Restrictions to population movement during nationwide lockdowns in 2019-2020 were associated with marked reductions of cases. Phylogenetic analyses of isolates with whole genome sequences (n = 186) revealed one dominant genotype 3.5.4 (n = 181/186) that contains three Samoa-exclusive sub-lineages: 3.5.4.1, 3.5.4.2, and 3.5.4.3. Variables of patient sex, age, and geographic region were examined by phylogenetic groupings, and significant differences (p<0.05) associated genetically-similar isolates in urban areas with working ages (20-49 year olds), and in rural areas with age groups typically at home (<5, 50+). Isolates from asymptomatic shedders were among all three sub-lineages. Whole genome sequencing provided evidence of bacterial genetic similarity, which corroborated 10/12 putative epidemiologic linkages among cases and asymptomatic shedders, as well as 3/3 repeat positives (presumed relapses), with a median of one single nucleotide polymorphism difference. These findings highlight various patterns of typhoid transmission in Samoa that differ between urban and rural regions as well as genomic subtypes. Asymptomatic shedders, detectable only through household investigations, are likely an important reservoir and mobile agent of infection. This study advances a "Samoan S. Typhi framework" that supports current and future typhoid surveillance and control efforts in Samoa., Competing Interests: I have read the journal’s policy and the authors of this manuscript have the following competing interests: M.M.L. has a patent entitled “Broad spectrum vaccine against typhoidal and nontyphoidal Salmonella disease” (US 9,011,871 B2) issued. R.M.R.-B. reports non-financial support from the Government of Samoa during the conduct of the study.

Published

2022

22. Erratum for Adediran et al., "Examination of Staphylococcus aureus Isolates from the Gloves and Gowns of Intensive Care Unit Health Care Workers".

Author

Adediran T, Hitchcock S, O'Hara LM, Michalski JM, Johnson JK, Calfee DP, Miller LG, Hazen TH, Harris AD, and Rasko DA

Published

2022

23. Erratum for Adediran et al., "Examination of 388 Staphylococcus aureus Isolates from Intensive Care Unit Patients".

Author

Adediran T, Hitchcock S, O'Hara LM, Michalski JM, Johnson JK, Calfee DP, Miller LG, Hazen TH, Rasko DA, and Harris AD

Published

2022

24. Characterization of Adherent-Invasive Escherichia coli (AIEC) Outer Membrane Proteins Provides Potential Molecular Markers to Screen Putative AIEC Strains.

Author

Saitz W, Montero DA, Pardo M, Araya D, De la Fuente M, Hermoso MA, Farfán MJ, Ginard D, Rosselló-Móra R, Rasko DA, Del Canto F, and Vidal RM

Subjects

Bacterial Adhesion, Biomarkers metabolism, Escherichia coli Infections, Intestinal Mucosa metabolism, Membrane Proteins metabolism, Bacterial Outer Membrane Proteins genetics, Bacterial Outer Membrane Proteins metabolism, Escherichia coli metabolism, Escherichia coli Proteins genetics, Escherichia coli Proteins metabolism

Abstract

Adherent-invasive E. coli (AIEC) is a pathotype associated with the etiopathogenesis of Crohn's disease (CD), albeit with an as-yet unclear role. The main pathogenic mechanisms described for AIEC are adherence to epithelial cells, invasion of epithelial cells, and survival and replication within macrophages. A few virulence factors have been described as participating directly in these phenotypes, most of which have been evaluated only in AIEC reference strains. To date, no molecular markers have been identified that can differentiate AIEC from other E. coli pathotypes, so these strains are currently identified based on the phenotypic characterization of their pathogenic mechanisms. The identification of putative AIEC molecular markers could be beneficial not only from the diagnostic point of view but could also help in better understanding the determinants of AIEC pathogenicity. The objective of this study was to identify molecular markers that contribute to the screening of AIEC strains. For this, we characterized outer membrane protein (OMP) profiles in a group of AIEC strains and compared them with the commensal E. coli HS strain. Notably, we found a set of OMPs that were present in the AIEC strains but absent in the HS strain. Moreover, we developed a PCR assay and performed phylogenomic analyses to determine the frequency and distribution of the genes coding for these OMPs in a larger collection of AIEC and other E. coli strains. As result, it was found that three genes ( chuA , eefC , and fitA ) are widely distributed and significantly correlated with AIEC strains, whereas they are infrequent in commensal and diarrheagenic E. coli strains (DEC). Additional studies are needed to validate these markers in diverse strain collections from different geographical regions, as well as investigate their possible role in AIEC pathogenicity.

Published

2022

25. Comparative Genomics Identifies Features Associated with Methicillin-Resistant Staphylococcus aureus (MRSA) Transmission in Hospital Settings.

Author

Adedrian T, Hitchcock S, O'Hara LM, Michalski JM, Johnson JK, Calfee DP, Miller LG, Hazen TH, Harris AD, and Rasko DA

Subjects

Genome-Wide Association Study, Genomics, Hospitals, Humans, Phylogeny, Staphylococcus aureus genetics, United States epidemiology, Methicillin-Resistant Staphylococcus aureus genetics, Staphylococcal Infections epidemiology

Abstract

Methicillin-resistant Staphylococcus aureus (MRSA) is a serious public health concern in the United States. Patients colonized and/or infected can transmit MRSA to healthcare workers and subsequent patients However, the components of this transmission chain are just becoming evident, including certain patient factors, specific patient-healthcare worker interactions, and microbial factors. We conducted a comparative genomic analysis of 388 isolates from four hospitals in three states: Maryland, California, and New York. Isolates from nasal surveillance or clinical cultures were categorized as high, moderate, or low transmission surrogate outcomes based on the number of times the species was identified on the gloves or gowns of healthcare providers. The comparative analyses included a single gene, multigene, and core genome phylogenetic analysis, as well as a genome-wide association analysis to identify molecular signatures associated with the observed transmission surrogate outcomes, geographic origin, or sample source of isolation. Based on the phylogenetic analysis, 95% ( n  = 372) of the MRSA isolates were from four well-described genomic clades, with most of the isolates being part of the USA300 containing clade ( n  = 187; 48%). Genome-wide association studies also identified genes that were exclusive or prevalent among specific geographic locations. The identified genes provide insights into the transmission dynamics of MRSA isolates providing additional insights into the basis of the geographical differences of MRSA for molecular diagnostics. IMPORTANCE Methicillin-resistant Staphylococcus aureus (MRSA) is considered a serious threat to public health and contributes to the dissemination of S. aureus in both the healthcare and community setting. Transmission of MRSA between patients via healthcare worker (HCW) has been described. However, what is not understood are the genetic determinants that contribute to the transmission of MRSA from patients to HCWs. In this study, we demonstrated that certain genes may be associated with transmission in the hospital setting.

Published

2022

26. Genome sequencing of Pseudomonas aeruginosa strain M2 illuminates traits of an opportunistic pathogen of burn wounds.

Author

Verhoeve VI, Brammer JA, Driscoll TP, Kambouris AR, Rasko DA, Cross AS, and Gillespie JJ

Subjects

Animals, Base Sequence, Humans, Mice, Phenotype, Pseudomonas aeruginosa genetics, Burns genetics, Pseudomonas Infections genetics

Abstract

Pseudomonas aeruginosa is a Gram-negative nosocomial pathogen and one of the most prevalent organisms isolated from burn wounds worldwide. Pseudomonas aeruginosa strain M2 (O5 serotype, type B flagella) is utilized for examining the murine model associated with burns. Pseudomonas aeruginosa M2 is similar in lethality to common laboratory P. aeruginosa strains when infecting CD-1 mice. Conversely, we recently showed that, relative to these strains, P. aeruginosa M2-infected mice are more susceptible to sepsis and demonstrate a 6-log reduction in LD50 from subcutaneous infection at the infection site directly after 10% total body surface area burn. To better understand this striking phenotypic difference from other P. aeruginosa strains employed in burn models, we sequenced the P. aeruginosa M2 genome. A total of 4,136,641 read pairs were obtained, providing an average genome coverage of 97.5X; subsequent assembly yielded a draft genome with 187 contigs comprising 6,360,304 bp with a G + C content of 66.45%. Genome-based phylogeny estimation of 92 P. aeruginosa strains placed P. aeruginosa M2 with P. aeruginosa-12-4-4(59), a nonairway clinical strain isolated from the blood culture of a burn patient. Phylogenomic analyses identified genes shared between P. aeruginosa M2 and P. aeruginosa 14, another strain exhibiting increased lethality in thermal tissues, as well as P. aeruginosa M2 unique genes with diverse functions like degradation of toxic aromatic compounds, iron scavenging, swarming motility and biofilm formation, defense against invasive DNA, and host assault. Predicted lateral gene transfers illuminate proteins heretofore uncharacterized for roles in P. aeruginosa biology. Our work yields a rich resource for assessing P. aeruginosa genes required for increased lethality in burn tissue seroma., (© The Author(s) 2022. Published by Oxford University Press on behalf of Genetics Society of America.)

Published

2022

27. Pathogenomic analyses of Shigella isolates inform factors limiting shigellosis prevention and control across LMICs.

Author

Bengtsson RJ, Simpkin AJ, Pulford CV, Low R, Rasko DA, Rigden DJ, Hall N, Barry EM, Tennant SM, and Baker KS

Subjects

Child, Child, Preschool, Ciprofloxacin pharmacology, Ciprofloxacin therapeutic use, Drug Resistance, Bacterial, Dysentery, Bacillary drug therapy, Dysentery, Bacillary epidemiology, Evolution, Molecular, Genome, Bacterial, Global Health, Humans, Shigella classification, Shigella drug effects, Shigella sonnei pathogenicity, Whole Genome Sequencing, Developing Countries statistics & numerical data, Dysentery, Bacillary microbiology, Dysentery, Bacillary prevention & control, Shigella genetics, Shigella pathogenicity

Abstract

Shigella spp. are the leading bacterial cause of severe childhood diarrhoea in low- and middle-income countries (LMICs), are increasingly antimicrobial resistant and have no widely available licenced vaccine. We performed genomic analyses of 1,246 systematically collected shigellae sampled from seven countries in sub-Saharan Africa and South Asia as part of the Global Enteric Multicenter Study (GEMS) between 2007 and 2011, to inform control and identify factors that could limit the effectiveness of current approaches. Through contemporaneous comparison among major subgroups, we found that S. sonnei contributes ≥6-fold more disease than other Shigella species relative to its genomic diversity, and highlight existing diversity and adaptative capacity among S. flexneri that may generate vaccine escape variants in <6 months. Furthermore, we show convergent evolution of resistance against ciprofloxacin, the current WHO-recommended antimicrobial for the treatment of shigellosis, among Shigella isolates. This demonstrates the urgent need to integrate existing genomic diversity into vaccine and treatment plans for Shigella, providing a framework for the focused application of comparative genomics to guide vaccine development, and the optimization of control and prevention strategies for other pathogens relevant to public health policy considerations., (© 2022. The Author(s).)

Published

2022

28. Editorial Commentary.

Author

Malik RD, Rasko DA, and Ghodssi R

Published

2021

29. Evaluation of a high-throughput, cost-effective Illumina library preparation kit.

Author

Tvedte ES, Michalski J, Cheng S, Patkus RS, Tallon LJ, Sadzewicz L, Bruno VM, Silva JC, Rasko DA, and Dunning Hotopp JC

Subjects

Cost-Benefit Analysis, DNA genetics, Metagenome genetics, Sequence Analysis, DNA economics, Sequence Analysis, DNA methods, Gene Library, High-Throughput Nucleotide Sequencing economics, High-Throughput Nucleotide Sequencing methods

Abstract

Library preparation for high-throughput sequencing applications is a critical step in producing representative, unbiased sequencing data. The iGenomX Riptide High Throughput Rapid Library Prep Kit purports to provide high-quality sequencing data with lower costs compared to other Illumina library kits. To test these claims, we compared sequence data quality of Riptide libraries to libraries constructed with KAPA Hyper and NEBNext Ultra. Across several single-source genome samples, mapping performance and de novo assembly of Riptide libraries were similar to conventional libraries prepared with the same DNA. Poor performance of some libraries resulted in low sequencing depth. In particular, degraded DNA samples may be challenging to sequence with Riptide. There was little cross-well plate contamination with the overwhelming majority of reads belong to the proper source genomes. The sequencing of metagenome samples using different Riptide primer sets resulted in variable taxonomic assignment of reads. Increased adoption of the Riptide kit will decrease library preparation costs. However, this method might not be suitable for degraded DNA., (© 2021. The Author(s).)

Published

2021

30. Comparison of long-read sequencing technologies in interrogating bacteria and fly genomes.

Author

Tvedte ES, Gasser M, Sparklin BC, Michalski J, Hjelmen CE, Johnston JS, Zhao X, Bromley R, Tallon LJ, Sadzewicz L, Rasko DA, and Dunning Hotopp JC

Subjects

Sequence Analysis, DNA methods, Genome, Bacterial, Bacteria genetics, Technology, Escherichia coli genetics, High-Throughput Nucleotide Sequencing methods

Abstract

The newest generation of DNA sequencing technology is highlighted by the ability to generate sequence reads hundreds of kilobases in length. Pacific Biosciences (PacBio) and Oxford Nanopore Technologies (ONT) have pioneered competitive long read platforms, with more recent work focused on improving sequencing throughput and per-base accuracy. We used whole-genome sequencing data produced by three PacBio protocols (Sequel II CLR, Sequel II HiFi, RS II) and two ONT protocols (Rapid Sequencing and Ligation Sequencing) to compare assemblies of the bacteria Escherichia coli and the fruit fly Drosophila ananassae. In both organisms tested, Sequel II assemblies had the highest consensus accuracy, even after accounting for differences in sequencing throughput. ONT and PacBio CLR had the longest reads sequenced compared to PacBio RS II and HiFi, and genome contiguity was highest when assembling these datasets. ONT Rapid Sequencing libraries had the fewest chimeric reads in addition to superior quantification of E. coli plasmids versus ligation-based libraries. The quality of assemblies can be enhanced by adopting hybrid approaches using Illumina libraries for bacterial genome assembly or polishing eukaryotic genome assemblies, and an ONT-Illumina hybrid approach would be more cost-effective for many users. Genome-wide DNA methylation could be detected using both technologies, however ONT libraries enabled the identification of a broader range of known E. coli methyltransferase recognition motifs in addition to undocumented D. ananassae motifs. The ideal choice of long read technology may depend on several factors including the question or hypothesis under examination. No single technology outperformed others in all metrics examined., (© The Author(s) 2021. Published by Oxford University Press on behalf of Genetics Society of America.)

Published

2021

31. Draft Genome Sequences of Two Enteroinvasive Escherichia coli Strains Representative of Major Enteroinvasive E. coli Clades.

Author

Sikorski MJ, Hazen TH, Vyas G, Michalski JM, and Rasko DA

Abstract

There are six described pathotypes of Escherichia coli that cause significant clinical illness in humans. Enteroinvasive E. coli (EIEC) strains have been shown to be separated into three phylogenomic clades. To add to a limited body of EIEC genomic data, we report two high-quality draft genome sequences representing different EIEC phylogenomic clades.

Published

2021

32. Best practices on the differential expression analysis of multi-species RNA-seq.

Author

Chung M, Bruno VM, Rasko DA, Cuomo CA, Muñoz JF, Livny J, Shetty AC, Mahurkar A, and Dunning Hotopp JC

Subjects

Animals, Eukaryota genetics, Gene Expression Profiling standards, Gene Expression Regulation, Humans, Organ Specificity, Prokaryotic Cells metabolism, RNA genetics, RNA-Seq standards, ROC Curve, Sequence Alignment, Sequence Analysis, RNA methods, Single-Cell Analysis methods, Workflow, Gene Expression Profiling methods, High-Throughput Nucleotide Sequencing, RNA-Seq methods, Transcriptome

Abstract

Advances in transcriptome sequencing allow for simultaneous interrogation of differentially expressed genes from multiple species originating from a single RNA sample, termed dual or multi-species transcriptomics. Compared to single-species differential expression analysis, the design of multi-species differential expression experiments must account for the relative abundances of each organism of interest within the sample, often requiring enrichment methods and yielding differences in total read counts across samples. The analysis of multi-species transcriptomics datasets requires modifications to the alignment, quantification, and downstream analysis steps compared to the single-species analysis pipelines. We describe best practices for multi-species transcriptomics and differential gene expression.

Published

2021

33. Contribution of Noncanonical Antigens to Virulence and Adaptive Immunity in Human Infection with Enterotoxigenic E. coli.

Author

Kuhlmann FM, Laine RO, Afrin S, Nakajima R, Akhtar M, Vickers T, Parker K, Nizam NN, Grigura V, Goss CW, Felgner PL, Rasko DA, Qadri F, and Fleckenstein JM

Subjects

Adhesins, Bacterial genetics, Adhesins, Bacterial immunology, Disease Susceptibility, Humans, Virulence, Virulence Factors genetics, Virulence Factors immunology, Adaptive Immunity, Antigens, Bacterial immunology, Enterotoxigenic Escherichia coli immunology, Escherichia coli Infections immunology, Escherichia coli Infections microbiology, Escherichia coli Proteins immunology, Host-Pathogen Interactions immunology

Abstract

Enterotoxigenic Escherichia coli (ETEC) contributes significantly to the substantial burden of infectious diarrhea among children living in low- and middle-income countries. In the absence of a vaccine for ETEC, children succumb to acute dehydration as well as nondiarrheal sequelae related to these infections, including malnutrition. The considerable diversity of ETEC genomes has complicated canonical vaccine development approaches defined by a subset of ETEC pathovar-specific antigens known as colonization factors (CFs). To identify additional conserved immunogens unique to this pathovar, we employed an "open-aperture" approach to capture all potential conserved ETEC surface antigens, in which we mined the genomic sequences of 89 ETEC isolates, bioinformatically selected potential surface-exposed pathovar-specific antigens conserved in more than 40% of the genomes ( n  = 118), and assembled the representative proteins onto microarrays, complemented with known or putative colonization factor subunit molecules ( n  = 52) and toxin subunits. These arrays were then used to interrogate samples from individuals with acute symptomatic ETEC infections. Surprisingly, in this approach, we found that immune responses were largely constrained to a small number of antigens, including individual colonization factor antigens and EtpA, an extracellular adhesin. In a Bangladeshi cohort of naturally infected children <2 years of age, both EtpA and a second antigen, EatA, elicited significant serologic responses that were associated with protection from symptomatic illness. In addition, children infected with ETEC isolates bearing either etpA or eatA genes were significantly more likely to develop symptomatic disease. These studies support a role for antigens not presently targeted by vaccines (noncanonical) in virulence and the development of adaptive immune responses during ETEC infections. These findings may inform vaccine design efforts to complement existing approaches., (Copyright © 2021 American Society for Microbiology.)

Published

2021

34. Risk factors for transmission of carbapenem-resistant Enterobacterales to healthcare personnel gloves and gowns in the USA.

Author

O'Hara LM, Nguyen MH, Calfee DP, Miller LG, Pineles L, Magder LS, Johnson JK, Morgan DJ, Rasko DA, and Harris AD

Subjects

Cross Infection, Delivery of Health Care, Gloves, Protective, Humans, Prospective Studies, Risk Factors, United States, Carbapenems, Drug Resistance, Bacterial, Enterobacteriaceae, Equipment Contamination, Protective Clothing

Abstract

Background: Hospitals are sources for acquisition of carbapenem-resistant Entero-bacterales (CRE), and it is believed that the contamination of healthcare personnel (HCP) hands and clothing play a major role in patient-to-patient transmission of antibiotic-resistant bacteria., Aim: The aim of this study was to determine which HCP types, HCP-patient interactions, and patient characteristics are associated with greater transmission of CRE to HCP gloves and gowns in the hospital., Methods: This was a prospective observational cohort study that enrolled patients with recent surveillance or clinical cultures positive for CRE at five hospitals in four states in the USA. HCP gloves and gown were cultured after patient care. Samples were also obtained from patients' stool, perianal area, and skin of the chest and arm to assess bacterial burden., Findings: Among 313 CRE-colonized patients and 3070 glove and gown cultures obtained after patient care, HCP gloves and gowns were found to be contaminated with CRE 7.9% and 4.3% of the time, respectively. Contamination of either gloves or gowns occurred in 10.0% of interactions. Contamination was highest (15.3%) among respiratory therapists (odds ratio: 3.79; 95% confidence interval: 1.61-8.94) and when any HCP touched the patient (1.52; 1.10-2.12). Associations were also found between CRE transmission to HCP gloves or gown and: being in the intensive care unit, having a positive clinical culture, and increasing bacterial burden on the patient., Conclusion: CRE transmission to HCP gloves and gown occurred frequently. These findings may inform evidence-based policies about what situations and for which patients contact precautions are most important., (Copyright © 2021 The Healthcare Infection Society. Published by Elsevier Ltd. All rights reserved.)

Published

2021

35. Comparative Genomics of Atypical Enteropathogenic Escherichia coli from Kittens and Children Identifies Bacterial Factors Associated with Virulence in Kittens.

Author

Watson VE, Hazen TH, Rasko DA, Jacob ME, Elfenbein JR, Stauffer SH, and Gookin JL

Subjects

Adolescent, Animals, Child, Child, Preschool, Escherichia coli Infections microbiology, Female, Genetic Variation, Humans, Infant, Infant, Newborn, Male, Serogroup, Cats genetics, Enteropathogenic Escherichia coli genetics, Escherichia coli Infections genetics, Escherichia coli Proteins genetics, Genomics, Serotyping, Virulence genetics

Abstract

Typical enteropathogenic Escherichia coli (tEPEC) is a leading cause of diarrhea and associated death in children worldwide. Atypical EPEC (aEPEC) lacks the plasmid encoding bundle-forming pili and is considered less virulent, but the molecular mechanism of virulence is poorly understood. We recently identified kittens as a host for aEPEC where intestinal epithelial colonization was associated with diarrheal disease and death. The purposes of this study were to (i) determine the genomic similarity between kitten aEPEC and human aEPEC isolates and (ii) identify genotypic or phenotypic traits associated with virulence in kitten aEPEC. We observed no differences between kitten and human aEPEC in core genome content or gene cluster sequence identities, and no distinguishing genomic content was observed between aEPEC isolates from kittens with nonclinical colonization (NC) versus those with lethal infection (LI). Variation in adherence patterns and ability to aggregate actin in cultured cells mirrored descriptions of human aEPEC. The aEPEC isolated from kittens with LI were significantly more motile than isolates from kittens with NC. Kittens may serve as a reservoir for aEPEC that is indistinguishable from human aEPEC isolates and may provide a needed comparative animal model for the study of aEPEC pathogenesis. Motility seems to be an important factor in pathogenesis of LI associated with aEPEC in kittens., (Copyright © 2021 American Society for Microbiology.)

Published

2021

36. FADU: a Quantification Tool for Prokaryotic Transcriptomic Analyses.

Author

Chung M, Adkins RS, Mattick JSA, Bradwell KR, Shetty AC, Sadzewicz L, Tallon LJ, Fraser CM, Rasko DA, Mahurkar A, and Dunning Hotopp JC

Abstract

Quantification tools for RNA sequencing (RNA-Seq) analyses are often designed and tested using human transcriptomics data sets, in which full-length transcript sequences are well annotated. For prokaryotic transcriptomics experiments, full-length transcript sequences are seldom known, and coding sequences must instead be used for quantification steps in RNA-Seq analyses. However, operons confound accurate quantification of coding sequences since a single transcript does not necessarily equate to a single gene. Here, we introduce FADU (Feature Aggregate Depth Utility), a quantification tool designed specifically for prokaryotic RNA-Seq analyses. FADU assigns partial count values proportional to the length of the fragment overlapping the target feature. To assess the ability of FADU to quantify genes in prokaryotic transcriptomics analyses, we compared its performance to those of eXpress, featureCounts, HTSeq, kallisto, and Salmon across three paired-end read data sets of (i) Ehrlichia chaffeensis , (ii) Escherichia coli , and (iii) the Wolbachia endosymbiont w Bm. Across each of the three data sets, we find that FADU can more accurately quantify operonic genes by deriving proportional counts for multigene fragments within operons. FADU is available at https://github.com/IGS/FADU IMPORTANCE Most currently available quantification tools for transcriptomics analyses have been designed for human data sets, in which full-length transcript sequences, including the untranslated regions, are well annotated. In most prokaryotic systems, full-length transcript sequences have yet to be characterized, leading to prokaryotic transcriptomics analyses being performed based on only the coding sequences. In contrast to eukaryotes, prokaryotes contain polycistronic transcripts, and when genes are quantified based on coding sequences instead of transcript sequences, this leads to an increased abundance of improperly assigned ambiguous multigene fragments, specifically those mapping to multiple genes in operons. Here, we describe FADU, a quantification tool for prokaryotic RNA-Seq analyses designed to assign proportional counts with the purpose of better quantifying operonic genes while minimizing the pitfalls associated with improperly assigning fragment counts from ambiguous transcripts., (Copyright © 2021 Chung et al.)

Published

2021

37. Draft Genome Sequences of Five Diverse Klebsiella Species Isolates from Intensive Care Unit Patients.

Author

Hazen TH, Hitchcock S, O'Hara LM, Michalski JM, Johnson JK, Calfee DP, Miller LG, Harris AD, and Rasko DA

Abstract

We have examined the draft genomes of five isolates from two different Klebsiella species obtained from intensive care unit patients at two geographically distributed hospitals to examine the genomic diversity of hospital-acquired organisms in this understudied population., (Copyright © 2020 Hazen et al.)

Published

2020

38. Draft Genome Sequence of Pseudomonas aeruginosa Strain PA14-UM.

Author

Lee VT, Ghodssi R, El-Sayed NM, Malik RD, Goloubeva OG, Hazen TH, and Rasko DA

Abstract

Pseudomonas aeruginosa is a Gram-negative nosocomial pathogen that is a leading cause of morbidity and mortality in cystic fibrosis patients and immunocompromised individuals worldwide. The isolate examined in this study, PA14-UM, is a well-characterized isolate utilized in studies from the University of Maryland., (Copyright © 2020 Lee et al.)

Published

2020

39. Genome Sequencing of Escherichia coli and Klebsiella pneumoniae Isolates That Harbor the FOX-5 β-Lactamase Gene.

Author

Hazen TH, Johnson JK, Harris AD, and Rasko DA

Abstract

We generated draft genome assemblies of three Escherichia coli and seven Klebsiella pneumoniae isolates that harbor the FOX-5 β-lactamase-encoding gene., (Copyright © 2020 Hazen et al.)

Published

2020

40. Draft Genome Sequence of Escherichia coli Strain UMD142.

Author

Hazen TH, Poonawala H, Saharia KK, Donnenberg MS, and Rasko DA

Abstract

Escherichia coli can be a harmless commensal organism or cause a range of diseases in humans, including diarrhea, urinary tract infections, meningitis, sepsis, and skin and soft tissue infections. Here, we describe the genome of an isolate that was associated with necrotizing fasciitis and the decompensation of previously undiagnosed cirrhosis., (Copyright © 2020 Hazen et al.)

Published

2020

41. Genome Sequences of Four Shigella boydii Strains Representative of the Major S. boydii Clades.

Author

Sikorski MJ, Hazen TH, Vyas G, Michalski JM, and Rasko DA

Abstract

There are four bacterial species in the genus Shigella that cause shigellosis or dysentery. Shigella boydii is one of the least studied Shigella species but has been shown to be separated into three phylogenomic clades. Here, we report four complete reference sequences of the S. boydii phylogenomic clades., (Copyright © 2020 Sikorski et al.)

Published

2020

42. Host Adaptation Predisposes Pseudomonas aeruginosa to Type VI Secretion System-Mediated Predation by the Burkholderia cepacia Complex.

Author

Perault AI, Chandler CE, Rasko DA, Ernst RK, Wolfgang MC, and Cotter PA

Subjects

Adolescent, Adult, Animals, Burkholderia Infections microbiology, Burkholderia cepacia complex isolation & purification, Child, Child, Preschool, Cystic Fibrosis microbiology, Humans, Infant, Lung microbiology, Mutation, Pseudomonas Infections, Pseudomonas aeruginosa isolation & purification, Type VI Secretion Systems genetics, Young Adult, Burkholderia cepacia complex physiology, Coinfection microbiology, Host Adaptation physiology, Host-Pathogen Interactions physiology, Pseudomonas aeruginosa metabolism, Type VI Secretion Systems metabolism

Abstract

Pseudomonas aeruginosa and Burkholderia cepacia complex (Bcc) species are opportunistic lung pathogens of cystic fibrosis (CF) patients. While P. aeruginosa can initiate long-term infections in younger CF patients, Bcc infections only arise in teenagers and adults. Both P. aeruginosa and Bcc use type VI secretion systems (T6SSs) to mediate interbacterial competition. Here, we show P. aeruginosa isolates from teenage and adult CF patients, but not those from young CF patients, are outcompeted by the epidemic Bcc isolate Burkholderia cenocepacia strain AU1054 in a T6SS-dependent manner. The genomes of susceptible P. aeruginosa isolates harbor T6SS-abrogating mutations, the repair of which, in some cases, rendered the isolates resistant. Moreover, seven of eight Bcc strains outcompeted P. aeruginosa strains isolated from the same patients. Our findings suggest certain mutations that arise as P. aeruginosa adapts to the CF lung abrogate T6SS activity, making P. aeruginosa and its human host susceptible to potentially fatal Bcc superinfection., Competing Interests: Declaration of Interests The authors declare no competing interests., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

43. Early evolutionary loss of the lipid A modifying enzyme PagP resulting in innate immune evasion in Yersinia pestis .

Author

Chandler CE, Harberts EM, Pelletier MR, Thaipisuttikul I, Jones JW, Hajjar AM, Sahl JW, Goodlett DR, Pride AC, Rasko DA, Trent MS, Bishop RE, and Ernst RK

Subjects

Animals, Biological Evolution, Cell Line, Cell Line, Tumor, HEK293 Cells, Humans, Leukocytes, Mononuclear immunology, Lipopolysaccharides immunology, Mice, Mice, Inbred BALB C, Mice, Inbred C57BL, Polymorphism, Single Nucleotide immunology, THP-1 Cells immunology, U937 Cells, Yersinia pseudotuberculosis immunology, Acyltransferases immunology, Immune Evasion immunology, Immunity, Innate immunology, Lipid A immunology, Yersinia pestis immunology

Abstract

Immune evasion through membrane remodeling is a hallmark of Yersinia pestis pathogenesis. Yersinia remodels its membrane during its life cycle as it alternates between mammalian hosts (37 °C) and ambient (21 °C to 26 °C) temperatures of the arthropod transmission vector or external environment. This shift in growth temperature induces changes in number and length of acyl groups on the lipid A portion of lipopolysaccharide (LPS) for the enteric pathogens Yersinia pseudotuberculosis ( Ypt ) and Yersinia enterocolitica ( Ye ), as well as the causative agent of plague, Yersinia pestis ( Yp ). Addition of a C16 fatty acid (palmitate) to lipid A by the outer membrane acyltransferase enzyme PagP occurs in immunostimulatory Ypt and Ye strains, but not in immune-evasive Yp Analysis of Yp pagP gene sequences identified a single-nucleotide polymorphism that results in a premature stop in translation, yielding a truncated, nonfunctional enzyme. Upon repair of this polymorphism to the sequence present in Ypt and Ye , lipid A isolated from a Yp pagP+ strain synthesized two structures with the C16 fatty acids located in acyloxyacyl linkage at the 2' and 3' positions of the diglucosamine backbone. Structural modifications were confirmed by mass spectrometry and gas chromatography. With the genotypic restoration of PagP enzymatic activity in Yp , a significant increase in lipid A endotoxicity mediated through the MyD88 and TRIF/TRAM arms of the TLR4-signaling pathway was observed. Discovery and repair of an evolutionarily lost lipid A modifying enzyme provides evidence of lipid A as a crucial determinant in Yp infectivity, pathogenesis, and host innate immune evasion., Competing Interests: The authors declare no competing interest.

Published

2020

44. Redefining enteroaggregative Escherichia coli (EAEC): Genomic characterization of epidemiological EAEC strains.

Author

Boisen N, Østerlund MT, Joensen KG, Santiago AE, Mandomando I, Cravioto A, Chattaway MA, Gonyar LA, Overballe-Petersen S, Stine OC, Rasko DA, Scheutz F, and Nataro JP

Subjects

Adhesins, Bacterial genetics, Bacterial Adhesion physiology, Case-Control Studies, Cell Line, Child, Preschool, Diarrhea microbiology, Escherichia coli classification, Escherichia coli isolation & purification, Genome, Bacterial genetics, Genomics, Humans, Infant, Infant, Newborn, Trans-Activators genetics, Virulence genetics, Virulence Factors genetics, Whole Genome Sequencing, Bacterial Adhesion genetics, Escherichia coli genetics, Escherichia coli pathogenicity, Escherichia coli Infections epidemiology, Escherichia coli Proteins genetics, Fimbriae Proteins genetics, Fimbriae, Bacterial genetics

Abstract

Although enteroaggregative E. coli (EAEC) has been implicated as a common cause of diarrhea in multiple settings, neither its essential genomic nature nor its role as an enteric pathogen are fully understood. The current definition of this pathotype requires demonstration of cellular adherence; a working molecular definition encompasses E. coli which do not harbor the heat-stable or heat-labile toxins of enterotoxigenic E. coli (ETEC) and harbor the genes aaiC, aggR, and/or aatA. In an effort to improve the definition of this pathotype, we report the most definitive characterization of the pan-genome of EAEC to date, applying comparative genomics and functional characterization on a collection of 97 EAEC strains isolated in the course of a multicenter case-control diarrhea study (Global Enteric Multi-Center Study, GEMS). Genomic analysis revealed that the EAEC strains mapped to all phylogenomic groups of E. coli. Circa 70% of strains harbored one of the five described AAF variants; there were no additional AAF variants identified, and strains that lacked an identifiable AAF generally did not have an otherwise complete AggR regulon. An exception was strains that harbored an ETEC colonization factor (CF) CS22, like AAF a member of the chaperone-usher family of adhesins, but not phylogenetically related to the AAF family. Of all genes scored, sepA yielded the strongest association with diarrhea (P = 0.002) followed by the increased serum survival gene, iss (p = 0.026), and the outer membrane protease gene ompT (p = 0.046). Notably, the EAEC genomes harbored several genes characteristically associated with other E. coli pathotypes. Our data suggest that a molecular definition of EAEC could comprise E. coli strains harboring AggR and a complete AAF(I-V) or CS22 gene cluster. Further, it is possible that strains meeting this definition could be both enteric bacteria and urinary/systemic pathogens., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

45. Best Practices for Successfully Writing and Publishing a Genome Announcement in Microbiology Resource Announcements .

Author

Dunning Hotopp JC, Baltrus DA, Bruno VM, Dennehy JJ, Gill SR, Maresca JA, Matthijnssens J, Newton ILG, Putonti C, Rasko DA, Rokas A, Roux S, Stajich JE, Stedman KM, Stewart FJ, and Thrash JC

Abstract

Microbiology Resource Announcements (MRA) provides peer-reviewed announcements of scientific resources for the microbial research community. We describe the best practices for writing an announcement that ensures that these publications are truly useful resources. Adhering to these best practices can lead to successful publication without the need for extensive revisions., (Copyright © 2020 Dunning Hotopp et al.)

Published

2020

46. Examination of Staphylococcus aureus Isolates from the Gloves and Gowns of Intensive Care Unit Health Care Workers.

Author

Adedrian T, Hitchcock S, O'Hara LM, Michalski JM, Johnson JK, Calfee DP, Miller LG, Hazen TH, Harris AD, and Rasko DA

Abstract

Interactions with health care workers are often thought to be associated with the spread of microbes in the hospital setting. We have examined the genomic diversity of methicillin-resistant Staphylococcus aureus isolates from the gloves and gowns of health care workers from four hospitals in three states., (Copyright © 2020 Adedrian et al.)

Published

2020

47. Examination of 189 Campylobacter Species Isolates from the Global Enteric Multicenter Study.

Author

Risteen RG, Hazen TH, Michalski JM, Poly F, Tennant SM, and Rasko DA

Abstract

We have examined the draft genomes of 189 Campylobacter species isolates from the Global Enteric Multicenter Study, in which Campylobacter species were identified as significant pathogens., (Copyright © 2020 Risteen et al.)

Published

2020

48. Comparative genomic analysis provides insight into the phylogeny and virulence of atypical enteropathogenic Escherichia coli strains from Brazil.

Author

Hernandes RT, Hazen TH, Dos Santos LF, Richter TKS, Michalski JM, and Rasko DA

Subjects

Brazil, Escherichia coli Infections, Escherichia coli Proteins genetics, Humans, Multilocus Sequence Typing, Serotyping, Virulence, Comparative Genomic Hybridization methods, Enteropathogenic Escherichia coli classification, Enteropathogenic Escherichia coli genetics, Genome, Bacterial, Phylogeny, Virulence Factors genetics

Abstract

Background: Atypical enteropathogenic Escherichia coli (aEPEC) are one of the most frequent intestinal E. coli pathotypes isolated from diarrheal patients in Brazil. Isolates of aEPEC contain the locus of enterocyte effacement, but lack the genes of the bundle-forming pilus of typical EPEC, and the Shiga toxin of enterohemorrhagic E. coli (EHEC). The objective of this study was to evaluate the phylogeny and the gene content of Brazilian aEPEC genomes compared to a global aEPEC collection., Methodology: Single nucleotide polymorphism (SNP)-based phylogenomic analysis was used to compare 106 sequenced Brazilian aEPEC with 221 aEPEC obtained from other geographic origins. Additionally, Large-Scale BLAST Score Ratio was used to determine the shared versus unique gene content of the aEPEC studied., Principal Findings: Phylogenomic analysis demonstrated the 106 Brazilian aEPEC were present in phylogroups B1 (47.2%, 50/106), B2 (23.6%, 25/106), A (22.6%, 24/106), and E (6.6%, 7/106). Identification of EPEC and EHEC phylogenomic lineages demonstrated that 42.5% (45/106) of the Brazilian aEPEC were in four of the previously defined lineages: EPEC10 (17.9%, 19/106), EPEC9 (10.4%, 11/106), EHEC2 (7.5%, 8/106) and EPEC7 (6.6%, 7/106). Interestingly, an additional 28.3% (30/106) of the Brazilian aEPEC were identified in five novel lineages: EPEC11 (14.2%, 15/106), EPEC12 (4.7%, 5/106), EPEC13 (1.9%, 2/106), EPEC14 (5.7%, 6/106) and EPEC15 (1.9%, 2/106). We identified 246 genes that were more frequent among the aEPEC isolates from Brazil compared to the global aEPEC collection, including espG2, espT and espC (P<0.001). Moreover, the nleF gene was more frequently identified among Brazilian aEPEC isolates obtained from diarrheagenic patients when compared to healthy subjects (69.7% vs 41.2%, P<0.05)., Conclusion: The current study demonstrates significant genomic diversity among aEPEC from Brazil, with the identification of Brazilian aEPEC isolates to five novel EPEC lineages. The greater prevalence of some virulence genes among Brazilian aEPEC genomes could be important to the specific virulence strategies used by aEPEC in Brazil to cause diarrheal disease., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

49. Cost effective, experimentally robust differential-expression analysis for human/mammalian, pathogen and dual-species transcriptomics.

Author

Shetty AC, Mattick J, Chung M, McCracken C, Mahurkar A, Filler SG, Fraser CM, Rasko DA, Bruno VM, and Dunning Hotopp JC

Subjects

Animals, Cost-Benefit Analysis, Dogs, Humans, Mice, RNA-Seq, Transcriptome, Aspergillus genetics, Bacteria genetics, Gene Expression Profiling economics, Host-Pathogen Interactions genetics, Ixodes genetics

Abstract

As sequencing read length has increased, researchers have quickly adopted longer reads for their experiments. Here, we examine 14 pathogen or host-pathogen differential gene expression data sets to assess whether using longer reads is warranted. A variety of data sets was used to assess what genomic attributes might affect the outcome of differential gene expression analysis including: gene density, operons, gene length, number of introns/exons and intron length. No genome attribute was found to influence the data in principal components analysis, hierarchical clustering with bootstrap support, or regression analyses of pairwise comparisons that were undertaken on the same reads, looking at all combinations of paired and unpaired reads trimmed to 36, 54, 72 and 101 bp. Read pairing had the greatest effect when there was little variation in the samples from different conditions or in their replicates (e.g. little differential gene expression). But overall, 54 and 72 bp reads were typically most similar. Given differences in costs and mapping percentages, we recommend 54 bp reads for organisms with no or few introns and 72 bp reads for all others. In a third of the data sets, read pairing had absolutely no effect, despite paired reads having twice as much data. Therefore, single-end reads seem robust for differential-expression analyses, but in eukaryotes paired-end reads are likely desired to analyse splice variants and should be preferred for data sets that are acquired with the intent to be community resources that might be used in secondary data analyses.

Published

2020

50. Conservation and global distribution of non-canonical antigens in Enterotoxigenic Escherichia coli.

Author

Kuhlmann FM, Martin J, Hazen TH, Vickers TJ, Pashos M, Okhuysen PC, Gómez-Duarte OG, Cebelinski E, Boxrud D, Del Canto F, Vidal R, Qadri F, Mitreva M, Rasko DA, and Fleckenstein JM

Subjects

Antigens, Bacterial analysis, Enterotoxigenic Escherichia coli chemistry, Enterotoxigenic Escherichia coli classification, Enterotoxigenic Escherichia coli isolation & purification, Escherichia coli Infections immunology, Escherichia coli Proteins analysis, Global Health, Humans, Immunoblotting, Membrane Glycoproteins analysis, Peptide Hydrolases analysis, Polymerase Chain Reaction, Whole Genome Sequencing, Antigens, Bacterial genetics, Enterotoxigenic Escherichia coli genetics, Escherichia coli Infections microbiology, Escherichia coli Proteins genetics, Genetic Variation, Membrane Glycoproteins genetics, Peptide Hydrolases genetics

Abstract

Background: Enterotoxigenic Escherichia coli (ETEC) cause significant diarrheal morbidity and mortality in children of resource-limited regions, warranting development of effective vaccine strategies. Genetic diversity of the ETEC pathovar has impeded development of broadly protective vaccines centered on the classical canonical antigens, the colonization factors and heat-labile toxin. Two non-canonical ETEC antigens, the EtpA adhesin, and the EatA mucinase are immunogenic in humans and protective in animal models. To foster rational vaccine design that complements existing strategies, we examined the distribution and molecular conservation of these antigens in a diverse population of ETEC isolates., Methods: Geographically diverse ETEC isolates (n = 1159) were interrogated by PCR, immunoblotting, and/or whole genome sequencing (n = 46) to examine antigen conservation. The most divergent proteins were purified and their core functions assessed in vitro., Results: EatA and EtpA or their coding sequences were present in 57.0% and 51.5% of the ETEC isolates overall, respectively; and were globally dispersed without significant regional differences in antigen distribution. These antigens also exhibited >93% amino acid sequence identity with even the most divergent proteins retaining the core adhesin and mucinase activity assigned to the prototype molecules., Conclusions: EtpA and EatA are well-conserved molecules in the ETEC pathovar, suggesting that they serve important roles in virulence and that they could be exploited for rational vaccine design., Competing Interests: The authors have declared that no competing interests exist.

Published

2019