Last data update: Dec 09, 2024. (Total: 48320 publications since 2009)
Records 1-30 (of 45 Records) |
Query Trace: Strockbine N[original query] |
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Campylobacteriosis outbreak linked to municipal water, Nebraska, USA, 2021(1)
Jansen L , Birn R , Koirala S , Oppegard S , Loeck B , Hamik J , Wyckoff E , Spindola D , Dempsey S , Bartling A , Roundtree A , Kahler A , Lane C , Hogan N , Strockbine N , McKeel H , Yoder J , Mattioli M , Donahue M , Buss B . Emerg Infect Dis 2024 30 (10) 1998-2005 In September 2021, eight campylobacteriosis cases were identified in a town in Nebraska, USA. We assessed potential exposures for a case-control analysis. We conducted whole-genome sequencing on Campylobacter isolates from patients' stool specimens. We collected large-volume dead-end ultrafiltration water samples for Campylobacter and microbial source tracking testing at the Centers for Disease Control and Prevention. We identified 64 cases in 2 waves of illnesses. Untreated municipal tap water consumption was strongly associated with illness (wave 1 odds ratio 15.36; wave 2 odds ratio 16.11). Whole-genome sequencing of 12 isolates identified 2 distinct Campylobacter jejuni subtypes (1 subtype/wave). The town began water chlorination, after which water testing detected coliforms. One dead-end ultrafiltration sample yielded nonculturable Campylobacter and avian-specific fecal rRNA genomic material. Our investigation implicated contaminated, untreated, municipal water as the source. Results of microbial source tracking supported mitigation with continued water chlorination. No further campylobacteriosis cases attributable to water were reported. |
Shiga toxin-producing Escherichia coli o157:H7 illness outbreak associated with untreated, pressurized, municipal irrigation water - Utah, 2023
Osborn B , Hatfield J , Lanier W , Wagner J , Oakeson K , Casey R , Bullough J , Kache P , Miko S , Kunz J , Pederson G , Leeper M , Strockbine N , McKeel H , Hofstetter J , Roundtree A , Kahler A , Mattioli M . MMWR Morb Mortal Wkly Rep 2024 73 (18) 411-416 During July-September 2023, an outbreak of Shiga toxin-producing Escherichia coli O157:H7 illness among children in city A, Utah, caused 13 confirmed illnesses; seven patients were hospitalized, including two with hemolytic uremic syndrome. Local, state, and federal public health partners investigating the outbreak linked the illnesses to untreated, pressurized, municipal irrigation water (UPMIW) exposure in city A; 12 of 13 ill children reported playing in or drinking UPMIW. Clinical isolates were genetically highly related to one another and to environmental isolates from multiple locations within city A's UPMIW system. Microbial source tracking, a method to indicate possible contamination sources, identified birds and ruminants as potential sources of fecal contamination of UPMIW. Public health and city A officials issued multiple press releases regarding the outbreak reminding residents that UPMIW is not intended for drinking or recreation. Public education and UPMIW management and operations interventions, including assessing and mitigating potential contamination sources, covering UPMIW sources and reservoirs, indicating UPMIW lines and spigots with a designated color, and providing conspicuous signage to communicate risk and intended use might help prevent future UPMIW-associated illnesses. |
Global phylogeography and evolutionary history of Shigella dysenteriae type 1.
Njamkepo E , Fawal N , Tran-Dien A , Hawkey J , Strockbine N , Jenkins C , Talukder KA , Bercion R , Kuleshov K , Kolínská R , Russell JE , Kaftyreva L , Accou-Demartin M , Karas A , Vandenberg O , Mather AE , Mason CJ , Page AJ , Ramamurthy T , Bizet C , Gamian A , Carle I , Sow AG , Bouchier C , Wester AL , Lejay-Collin M , Fonkoua MC , Le Hello S , Blaser MJ , Jernberg C , Ruckly C , Mérens A , Page AL , Aslett M , Roggentin P , Fruth A , Denamur E , Venkatesan M , Bercovier H , Bodhidatta L , Chiou CS , Clermont D , Colonna B , Egorova S , Pazhani GP , Ezernitchi AV , Guigon G , Harris SR , Izumiya H , Korzeniowska-Kowal A , Lutyńska A , Gouali M , Grimont F , Langendorf C , Marejková M , Peterson LA , Perez-Perez G , Ngandjio A , Podkolzin A , Souche E , Makarova M , Shipulin GA , Ye C , Žemličková H , Herpay M , Grimont PA , Parkhill J , Sansonetti P , Holt KE , Brisse S , Thomson NR , Weill FX . Nat Microbiol 2016 1 16027 Together with plague, smallpox and typhus, epidemics of dysentery have been a major scourge of human populations for centuries(1). A previous genomic study concluded that Shigella dysenteriae type 1 (Sd1), the epidemic dysentery bacillus, emerged and spread worldwide after the First World War, with no clear pattern of transmission(2). This is not consistent with the massive cyclic dysentery epidemics reported in Europe during the eighteenth and nineteenth centuries(1,3,4) and the first isolation of Sd1 in Japan in 1897(5). Here, we report a whole-genome analysis of 331 Sd1 isolates from around the world, collected between 1915 and 2011, providing us with unprecedented insight into the historical spread of this pathogen. We show here that Sd1 has existed since at least the eighteenth century and that it swept the globe at the end of the nineteenth century, diversifying into distinct lineages associated with the First World War, Second World War and various conflicts or natural disasters across Africa, Asia and Central America. We also provide a unique historical perspective on the evolution of antibiotic resistance over a 100-year period, beginning decades before the antibiotic era, and identify a prevalent multiple antibiotic-resistant lineage in South Asia that was transmitted in several waves to Africa, where it caused severe outbreaks of disease. |
Recent O-antigen diversification masks highly pathogenic STEC O104:H4 (preprint)
Lang C , Fruth A , Campbell IW , Jenkins C , Smith P , Strockbine N , Weill FX , Nubel U , Grad YH , Waldor MK , Flieger A . bioRxiv 2022 15 Background: Shiga toxin-producing E. coli (STEC) can give rise to a range of clinical outcomes from diarrhea to the life-threatening systemic condition, hemolytic uremic syndrome (HUS). A major outbreak of HUS occurred in 2011, and was caused by a rare serotype, STEC O104:H4. Prior to 2011 and since the outbreak, STEC O104:H4 were rarely associated with human infections. Method(s): From 2012 to 2020 intensified STEC surveillance was performed in Germany where subtyping of ~8,000 clinical isolates by molecular methods including whole genome sequencing was carried out. Virulence traits and phylogenetic context were investigated for a subset of strains. Result(s): A rare STEC serotype O181:H4 associated with HUS was identified, belonging to sequence type (ST) 678, like the STEC O104:H4 outbreak strain. Virulence and genomic comparisons revealed that the two strains are phylogenetically related and differ principally in the gene cluster encoding their respective lipopolysaccharide O-antigens. In addition, five other serotypes belonging to ST678 from human clinical infection were identified from diverse locations worldwide. Conclusion(s): Our data suggest the high virulence ensemble of STEC O104:H4 remains a global threat, but that horizontal exchange of O-antigen gene clusters has cloaked the pathogen with new O-antigens, confounding interpretation of their potential risk. Copyright The copyright holder for this preprint is the author/funder, who has granted bioRxiv a license to display the preprint in perpetuity. All rights reserved. No reuse allowed without permission. |
O-antigen diversification masks identification of highly pathogenic shiga toxin-producing Escherichia coli O104:H4-like strains
Lang C , Fruth A , Campbell IW , Jenkins C , Smith P , Strockbine N , Weill FX , Nübel U , Grad YH , Waldor MK , Flieger A . Microbiol Spectr 2023 11 (3) e0098723 Shiga toxin-producing Escherichia coli (STEC) can give rise to a range of clinical outcomes from diarrhea to the life-threatening systemic condition hemolytic-uremic syndrome (HUS). Although STEC O157:H7 is the serotype most frequently associated with HUS, a major outbreak of HUS occurred in 2011 in Germany and was caused by a rare serotype, STEC O104:H4. Prior to 2011 and since the outbreak, STEC O104:H4 strains have only rarely been associated with human infections. From 2012 to 2020, intensified STEC surveillance was performed in Germany where the subtyping of ~8,000 clinical isolates by molecular methods, including whole-genome sequencing, was carried out. A rare STEC serotype, O181:H4, associated with HUS was identified, and like the STEC O104:H4 outbreak strain, this strain belongs to sequence type 678 (ST678). Genomic and virulence comparisons revealed that the two strains are phylogenetically related and differ principally in the gene cluster encoding their respective lipopolysaccharide O-antigens but exhibit similar virulence phenotypes. In addition, five other serotypes belonging to ST678 from human clinical infection, such as OX13:H4, O127:H4, OgN-RKI9:H4, O131:H4, and O69:H4, were identified from diverse locations worldwide. IMPORTANCE Our data suggest that the high-virulence ensemble of the STEC O104:H4 outbreak strain remains a global threat because genomically similar strains cause disease worldwide but that the horizontal acquisition of O-antigen gene clusters has diversified the O-antigens of strains belonging to ST678. Thus, the identification of these highly pathogenic strains is masked by diverse and rare O-antigens, thereby confounding the interpretation of their potential risk. |
Epidemiology of enteroaggregative, enteropathogenic, and shiga toxin-producing escherichia coli among children aged <5 years in 3 countries in Africa, 2015-2018: Vaccine Impact on Diarrhea in Africa (VIDA) Study
Ochieng JB , Powell H , Sugerman CE , Omore R , Ogwel B , Juma J , Awuor AO , Sow SO , Sanogo D , Onwuchekwa U , Keita AM , Traoré A , Badji H , Hossain MJ , Jones JCM , Kasumba IN , Nasrin D , Roose A , Liang Y , Jamka LP , Antonio M , Platts-Mills JA , Liu J , Houpt ER , Mintz ED , Hunsperger E , Onyango CO , Strockbine N , Widdowson MA , Verani JR , Tennant SM , Kotloff KL . Clin Infect Dis 2023 76 S77-s86 BACKGROUND: To address knowledge gaps regarding diarrheagenic Escherichia coli (DEC) in Africa, we assessed the clinical and epidemiological features of enteroaggregative E. coli (EAEC), enteropathogenic E. coli (EPEC), and Shiga toxin-producing E. coli (STEC) positive children with moderate-to-severe diarrhea (MSD) in Mali, The Gambia, and Kenya. METHODS: Between May 2015 and July 2018, children aged 0-59 months with medically attended MSD and matched controls without diarrhea were enrolled. Stools were tested conventionally using culture and multiplex polymerase chain reaction (PCR), and by quantitative PCR (qPCR). We assessed DEC detection by site, age, clinical characteristics, and enteric coinfection. RESULTS: Among 4840 children with MSD and 6213 matched controls enrolled, 4836 cases and 1 control per case were tested using qPCR. Of the DEC detected with TAC, 61.1% were EAEC, 25.3% atypical EPEC (aEPEC), 22.4% typical EPEC (tEPEC), and 7.2% STEC. Detection was higher in controls than in MSD cases for EAEC (63.9% vs 58.3%, P < .01), aEPEC (27.3% vs 23.3%, P < .01), and STEC (9.3% vs 5.1%, P < .01). EAEC and tEPEC were more frequent in children aged <23 months, aEPEC was similar across age strata, and STEC increased with age. No association between nutritional status at follow-up and DEC pathotypes was found. DEC coinfection with Shigella/enteroinvasive E. coli was more common among cases (P < .01). CONCLUSIONS: No significant association was detected between EAEC, tEPEC, aEPEC, or STEC and MSD using either conventional assay or TAC. Genomic analysis may provide a better definition of the virulence factors associated with diarrheal disease. |
Use of Large-Scale Genomics to Identify the Role of Animals and Foods as Potential Sources of Extraintestinal Pathogenic Escherichia coli That Cause Human Illness.
Harrison L , Tyson GH , Strain E , Lindsey RL , Strockbine N , Ceric O , Fortenberry GZ , Harris B , Shaw S , Tillman G , Zhao S , Dessai U . Foods 2022 11 (13) Extraintestinal pathogenic Escherichia coli (ExPEC) cause urinary tract and potentially life-threatening invasive infections. Unfortunately, the origins of ExPEC are not always clear. We used genomic data of E. coli isolates from five U.S. government organizations to evaluate potential sources of ExPEC infections. Virulence gene analysis of 38,032 isolates from human, food animal, retail meat, and companion animals classified the subset of 8142 non-diarrheagenic isolates into 40 virulence groups. Groups were identified as low, medium, and high relative risk of containing ExPEC strains, based on the proportion of isolates recovered from humans. Medium and high relative risk groups showed a greater representation of sequence types associated with human disease, including ST-131. Over 90% of food source isolates belonged to low relative risk groups, while >60% of companion animal isolates belonged to medium or high relative risk groups. Additionally, 18 of the 26 most prevalent antimicrobial resistance determinants were more common in high relative risk groups. The associations between antimicrobial resistance and virulence potentially limit treatment options for human ExPEC infections. This study demonstrates the power of large-scale genomics to assess potential sources of ExPEC strains and highlights the importance of a One Health approach to identify and manage these human pathogens. |
Agritourism and Kidding Season: A Large Outbreak of Human Shiga Toxin-Producing Escherichia coli O157 (STEC O157) Infections Linked to a Goat Dairy Farm-Connecticut, 2016.
Nichols MC , Gacek P , Phan Q , Gambino-Shirley KJ , Gollarza LM , Schroeder MN , Mercante A , Mullins J , Blackstock A , Laughlin ME , Olson SM , Pizzo E , Nguyen TN , Mank L , Holmes-Talbot K , McNutt A , Noel D , Muyombwe A , Razeq JH , Lis MJ , Sherman B , Kasacek W , Whitlock L , Strockbine N , Martin H , Vidyaprakash E , McCormack P , Cartter M . Front Vet Sci 2021 8 744055 The objective of this study was to determine sources of Shiga toxin-producing Escherichia coli O157 (STEC O157) infection among visitors to Farm X and develop public health recommendations. A case-control study was conducted. Case-patients were defined as the first ill child (aged <18 years) in the household with laboratory-confirmed STEC O157, or physician-diagnosed hemolytic uremic syndrome with laboratory confirmation by serology, who visited Farm X in the 10 days prior to illness. Controls were selected from Farm X visitors aged <18 years, without symptoms during the same time period as case-patients. Environment and animal fecal samples collected from Farm X were cultured; isolates from Farm X were compared with patient isolates using whole genome sequencing (WGS). Case-patients were more likely than controls to have sat on hay bales at the doe barn (adjusted odds ratio: 4.55; 95% confidence interval: 1.41-16.13). No handwashing stations were available; limited hand sanitizer was provided. Overall, 37% (29 of 78) of animal and environmental samples collected were positive for STEC; of these, 62% (18 of 29) yielded STEC O157 highly related by WGS to patient isolates. STEC O157 environmental contamination and fecal shedding by goats at Farm X was extensive. Farms should provide handwashing stations with soap, running water, and disposable towels. Access to animal areas, including animal pens and enclosures, should be limited for young children who are at risk for severe outcomes from STEC O157 infection. National recommendations should be adopted to reduce disease transmission. |
Delayed lactose utilization among Shiga toxin-producing Escherichia coli of serogroup O121.
Gill A , McMahon T , Dussault F , Jinneman K , Lindsey R , Martin H , Stoneburg D , Strockbine N , Wetherington J , Feng P . Food Microbiol 2022 102 103903 Two outbreaks of Shiga toxin-producing Escherichia coli O121:H19 associated with wheat flour, in the United States of America and Canada, involved strains with an unusual phenotype, delayed lactose utilization (DLU). These strains do not ferment lactose when initially cultured on MacConkey agar (MAC), but lactose fermentation occurs following subculture to a second plate of MAC. The prevalence of DLU was determined by examining the -galactosidase activity of 49 strains of E. coli O121, and of 37 other strains of E. coli. Twenty four of forty three O121:H19 and one O121:NM displayed DLU. Two strains (O121:NM and O145:H34) did not have detectable -galactosidase activity. -glucuronidase activity of O121 strains was also determined. All but six DLU strains had normal -glucuronidase activity. -glucuronidase activity was suppressed on MAC for 17 of 23 O121 non-DLU strains. Genomic analysis found that DLU strains possessed an insertion sequence, IS600 (1267 bp), between lacZ (-galactosidase) and lacY (-galactoside permease), that was not present in strains exhibiting normal lactose utilization. The insert might reduce the expression of -galactoside permease, delaying import of lactose, resulting in the DLU phenotype. The high probability of DLU should be considered when using lactose-containing media for the isolation of STEC O121. 2021 |
The virulence of Escherichia coli O157:H7 isolates in mice depends on Shiga toxin type 2a (Stx2a)-induction and high levels of Stx2a in stool
Hauser JR , Atitkar RR , Petro CD , Lindsey RL , Strockbine N , O'Brien AD , Melton-Celsa AR . Front Cell Infect Microbiol 2020 10 62 In this study we compared nine Shiga toxin (Stx)-producing Escherichia coli O157:H7 patient isolates for Stx levels, stx-phage insertion site(s), and pathogenicity in a streptomycin (Str)-treated mouse model. The strains encoded stx 2a, stx 1a and stx 2a, or stx 2a and stx 2c. All of the strains elaborated 10(5)-10(6) cytotoxic doses 50% (CD50) into the supernatant after growth in vitro as measured on Vero cells, and showed variable levels of increased toxin production after growth with sub-inhibitory levels of ciprofloxacin (Cip). The stx 2a+stx 2c+ isolates were 90-100% lethal for Str-treated BALB/c mice, though one isolate, JH2013, had a delayed time-to-death. The stx 2a+ isolate was avirulent. Both an stx 2a and a recA deletion mutant of one of the stx 2a+stx 2c+ strains, JH2010, exhibited at least a three-log decrease in cytotoxicity in vitro and both were avirulent in the mice. Stool from Str-treated mice infected with the highly virulent isolates were 10- to 100-fold more cytotoxic than feces from mice infected with the clinical isolate, JH2012, that made only Stx2a. Taken together these findings demonstrate that the stx 2a-phage from JH2010 induces to higher levels in vivo than does the phage from JH2012. The stx 1a+stx 2a+ clinical isolates were avirulent and neutralization of Stx1 in stool from mice infected with those strains indicated that the toxin produced in vivo was primarily Stx1a. Treatment of mice infected with Stx1a+Stx2a+ isolates with Cip resulted in an increase in Stx2a production in vivo and lethality in the mice. Our data suggest that high levels of Stx2a in stool are predictive of virulence in mice. |
PacBio Genome Sequences of Eight Escherichia albertii Strains Isolated from Humans in the United States.
Lindsey RL , Rowe LA , Batra D , Smith P , Strockbine NA . Microbiol Resour Announc 2019 8 (9) Escherichia albertii is an emerging pathogen that is closely related to Escherichia coli and can carry some of the same virulence genes as E. coli. Here, we report the release of Illumina-corrected PacBio sequences for eight E. albertii genomes. Two of these strains carry Shiga toxin 2f. |
Notes from the field: Enteroinvasive Escherichia coli outbreak associated with a potluck party - North Carolina, June-July 2018
Herzig CTA , Fleischauer AT , Lackey B , Lee N , Lawson T , Moore ZS , Hergert J , Mobley V , MacFarquhar J , Morrison T , Strockbine N , Martin H . MMWR Morb Mortal Wkly Rep 2019 68 (7) 183-184 On July 2, 2018, the North Carolina Division of Public Health was notified that approximately three dozen members of an ethnic Nepali refugee community had been transported to area hospitals for severe gastrointestinal illness after attending a potluck party on June 30. The North Carolina Division of Public Health partnered with the local health department and CDC to investigate the outbreak, identify the cause, and prevent further transmission. The investigation included molecular-guided laboratory testing of clinical specimens by CDC, which determined that this was the first confirmed U.S. outbreak of enteroinvasive Escherichia coli (EIEC) in 47 years. |
PCR-based method for S. flexneri serotyping: International Multicenter Validation.
Brengi SP , Sun Q , Bolanos H , Duarte F , Jenkins C , Pichel M , Shahnaij M , Sowers EG , Strockbine N , Talukder KA , Derado G , Vinas MR , Kam KM , Xu J . J Clin Microbiol 2019 57 (4) Shigella is a leading cause of human diarrheal disease worldwide with S. flexneri being the most frequently isolated in developing countries. This serogroup is presently classified into 19 serotypes worldwide. We report here a Multicenter Validation of a Multiplex PCR based-strategy previously developed by Sun et al. (doi: 10.1128/JCM.01259-11) for molecular serotyping of S. flexneri This study was performed by seven international laboratories, with a panel of 71 blinded strains as well as 279 strains collected from each own local culture collections. This collaborative work found high extent of agreement among laboratories, calculated through IRR measures for PCR test, proven its robustness. It was also observed agreement with traditional method (serology) in all laboratories for 14 serotypes studied, while specific genetic events could be responsible for the discrepancies among methodologies in other five serotypes as determined by PCR product sequencing in most of the cases. This work provided an empirical frame that allowed the use of this molecular method to serotype S. flexneri, and showed several advantages over the traditional method of serological typing. These included overcoming the problem of availability of suitable antisera in testing laboratories, as well as facilitated the analysis of multiple samples at the same time. The method is also less time consuming for completion, and easier to implement in routine laboratories. We recommend that this PCR be adopted, as it is a reliable diagnostic and characterization methodology that can be used globally for laboratory-based shigellae surveillance. |
Interlaboratory Evaluation of the U.S. Food and Drug Administration Escherichia coli Identification Microarray for Profiling Shiga Toxin-Producing Escherichia coli.
Patel IR , Gangiredla J , Lacher DW , Mammel MK , Bagi L , Baranzoni GM , Fratamico PM , Roberts EL , Deb Roy C , Lindsey RL , VStoneburg D , Martin H , Smith P , Strockbine NA , Elkins CA , Scheutz F , Feng PCH . J Food Prot 2018 81 (8) 1275-1282 The U.S. Food and Drug Administration Escherichia coli Identification (FDA-ECID) microarray provides rapid molecular characterization of E. coli. The effectiveness of the FDA-ECID for characterizing Shiga toxin-producing E. coli (STEC) was evaluated by three federal laboratories and one reference laboratory with a panel of 54 reference E. coli strains from the External Quality Assurance program. Strains were tested by FDA-ECID for molecular serotyping (O and H antigens), Shiga toxin subtyping, and the presence of the ehxA and eae genes for enterohemolysin and intimin, respectively. The FDA-ECID O typing was 96% reproducible among the four laboratories and 94% accurate compared with the reference External Quality Assurance data. Discrepancies were due to the absence of O41 target loci on the array and to two pairs of O types with identical target sequences. H typing was 96% reproducible and 100% accurate, with discrepancies due to two strains from one laboratory that were identified as mixed by FDA-ECID. Shiga toxin (Stx) type 1 subtyping was 100% reproducible and accurate, and Stx2 subtyping was 100% reproducible but only 64% accurate. FDA-ECID identified most Stx2 subtypes but had difficulty distinguishing among stx2a, stx2c, and stx2d genes because of close similarities of these sequences. FDA-ECID was 100% effective for detecting ehxA and eae and accurately subtyped the eae alleles. This interlaboratory study revealed that FDA-ECID for STEC characterization was highly reproducible for molecular serotyping, stx and eae subtyping, and ehxA detection. However, the array was less useful for distinguishing among the highly homologous O antigen genes and the stx2a, stx2c, and stx2d subtypes. |
High-Quality Whole-Genome Sequences for 77 Shiga Toxin-Producing Escherichia coli Strains Generated with PacBio Sequencing.
Patel PN , Lindsey RL , Garcia-Toledo L , Rowe LA , Batra D , Whitley SW , Drapeau D , Stoneburg D , Martin H , Juieng P , Loparev VN , Strockbine N . Genome Announc 2018 6 (19) Shiga toxin-producing Escherichia coli (STEC) is an enteric foodborne pathogen that can cause mild to severe illness. Here, we report the availability of high-quality whole-genome sequences for 77 STEC strains generated using the PacBio sequencing platform. |
DNA microarray-based assessment of virulence potential of Shiga toxin gene-carrying Escherichia coli O104:H7 isolated from feedlot cattle feces.
Shridhar PB , Patel IR , Gangiredla J , Noll LW , Shi X , Bai J , Elkins CA , Strockbine N , Nagaraja TG . PLoS One 2018 13 (4) e0196490 Escherichia coli O104:H4, a hybrid pathotype reported in a large 2011 foodborne outbreak in Germany, has not been detected in cattle feces. However, cattle harbor and shed in the feces other O104 serotypes, particularly O104:H7, which has been associated with sporadic cases of diarrhea in humans. The objective of our study was to assess the virulence potential of Shiga toxin-producing E. coli (STEC) O104:H7 isolated from feces of feedlot cattle using DNA microarray. Six strains of STEC O104:H7 isolated from cattle feces were analyzed using FDA-E. coli Identification (ECID) DNA microarray to determine their virulence profiles and compare them to the human strains (clinical) of O104:H7, STEC O104:H4 (German outbreak strain), and O104:H21 (milk-associated Montana outbreak strain). Scatter plots were generated from the array data to visualize the gene-level differences between bovine and human O104 strains, and Pearson correlation coefficients (r) were determined. Splits tree was generated to analyze relatedness between the strains. All O104:H7 strains, both bovine and human, similar to O104:H4 and O104:H21 outbreak strains were negative for intimin (eae). The bovine strains were positive for Shiga toxin 1 subtype c (stx1c), enterohemolysin (ehxA), tellurite resistance gene (terD), IrgA homolog protein (iha), type 1 fimbriae (fimH), and negative for genes that code for effector proteins of type III secretory system. The six cattle O104 strains were closely related (r = 0.86-0.98) to each other, except for a few differences in phage related and non-annotated genes. One of the human clinical O104:H7 strains (2011C-3665) was more closely related to the bovine O104:H7 strains (r = 0.81-0.85) than the other four human clinical O104:H7 strains (r = 0.75-0.79). Montana outbreak strain (O104:H21) was more closely related to four of the human clinical O104:H7 strains than the bovine O104:H7 strains. None of the bovine E. coli O104 strains carried genes characteristic of E. coli O104:H4 German outbreak strain and unlike other human strains were also negative for Shiga toxin 2. Because cattle E. coli O104:H7 strains possess stx1c and genes that code for enterohemolysin and a variety of adhesins, the serotype has the potential to be a diarrheagenic foodborne pathogen in humans. |
High-Quality Whole-Genome Sequences for 59 Historical Shigella Strains Generated with PacBio Sequencing.
Kim J , Lindsey RL , Garcia-Toledo L , Loparev VN , Rowe LA , Batra D , Juieng P , Stoneburg D , Martin H , Knipe K , Smith P , Strockbine N . Genome Announc 2018 6 (15) Shigella spp. are enteric pathogens that cause shigellosis. We report here the high-quality whole-genome sequences of 59 historical Shigella strains that represent the four species and a variety of serotypes. |
Genetic Analysis of Virulence Potential of Escherichia coli O104 Serotypes Isolated From Cattle Feces Using Whole Genome Sequencing.
Shridhar PB , Patel IR , Gangiredla J , Noll LW , Shi X , Bai J , Elkins CA , Strockbine NA , Nagaraja TG . Front Microbiol 2018 9 (MAR) (341) 341 Escherichia coli O104:H4, a Shiga toxin-producing hybrid pathotype that was implicated in a major foodborne outbreak in Germany in 2011, has not been detected in cattle. However, serotypes of O104, other than O104:H4, have been isolated from cattle feces, with O104:H7 being the most predominant. In this study, we investigated, based on whole genome sequence analyses, the virulence potential of E. coli O104 strains isolated from cattle feces, since cattle are asymptomatic carriers of E. coli O104. The genomes of ten bovine E. coli O104 strains (six O104:H7, one O104:H8, one O104:H12, and two O104:H23) and five O104:H7 isolated from human clinical cases were sequenced. Of all the bovine O104 serotypes (H7, H8, H12, and H23) that were included in the study, only E. coli O104:H7 serotype possessed Shiga toxins. Four of the six bovine O104:H7 strains and one of the five human strains carried stx1c. Three human O104 strains carried stx2, two were of subtype 2a, and one was 2d. Genomes of stx carrying bovine O104:H7 strains were larger than the stx-negative strains of O104:H7 or other serotypes. The genome sizes were proportional to the number of genes carried on the mobile genetic elements (phages, prophages, transposable elements and plasmids). Both bovine and human strains were negative for intimin and other genes associated with the type III secretory system and non-LEE encoded effectors. Plasmid-encoded virulence genes (ehxA, epeA, espP, katP) were also present in bovine and human strains. All O104 strains were negative for antimicrobial resistance genes, except one human strain. Phylogenetic analysis indicated that bovine E. coli O104 strains carrying the same flagellar antigen clustered together and STEC strains clustered separately from non-STEC strains. One of the human O104:H7 strains was phylogenetically closely related to and belonged to the same sequence type (ST-1817) as the bovine O104:H7 STEC strains. This suggests that the bovine feces could be a source of human illness caused by E. coli O104:H7 serotype. Because bovine O104:H7 strains carried virulence genes similar to human clinical strains and one of the human clinical strains was phylogenetically related to bovine strains, the serotype has the potential to be a diarrheagenic pathogen in humans. Copyright © 2018 Shridhar, Patel, Gangiredla, Noll, Shi, Bai, Elkins, Strockbine and Nagaraja. |
High-Quality Whole-Genome Sequences for 21 Enterotoxigenic Escherichia coli Strains Generated with PacBio Sequencing.
Smith P , Lindsey RL , Rowe LA , Batra D , Stripling D , Garcia-Toledo L , Drapeau D , Knipe K , Strockbine N . Genome Announc 2018 6 (2) Enterotoxigenic Escherichia coli (ETEC) is an important diarrheagenic pathogen. We report here the high-quality whole-genome sequences of 21 ETEC strains isolated from patients in the United States, international diarrheal surveillance studies, and cruise ship outbreaks. |
High-Quality Draft Genome Sequences for Four Drug-Resistant or Outbreak-Associated Shigella sonnei Strains Generated with PacBio Sequencing and Whole-Genome Maps.
Lindsey RL , Batra D , Rowe L , Loparev V N , Juieng P , Garcia-Toledo L , Bicknese A , Stripling D , Martin H , Chen J , Strockbine N , Trees E . Genome Announc 2017 5 (35) Drug-resistant Shigella sonnei poses a clinical and public health challenge. We report here the high-quality draft whole-genome sequences of four outbreak-associated S. sonnei isolates; three were resistant to two or more antibiotics, and one was resistant to streptomycin only. |
Draft Genome Sequences of Escherichia coli O104 Strains of Bovine and Human Origin.
Shridhar PB , Patel IR , Gangiredla J , Mammel MK , Noll L , Shi X , Bai J , Elkins CA , Strockbine N , Nagaraja TG . Genome Announc 2017 5 (33) Cattle harbor and shed in their feces several Escherichia coli O104 serotypes. All O104 strains examined were intimin negative and belonged to the B1 phylogroup, and some were Shiga toxigenic. We report here the genome sequences of bovine O104:H7 (n = 5), O104:H23 (n = 2), O104:H8 (n = 1), and O104:H12 (n = 1) isolates and human clinical isolates of O104:H7 (n = 5). |
Multiplex polymerase chain reaction for identification of Escherichia coli, Escherichia albertii and Escherichia fergusonii.
Lindsey RL , Garcia-Toledo L , Fasulo D , Gladney LM , Strockbine N . J Microbiol Methods 2017 140 1-4 Escherichia coli, Escherichia albertii, and Escherichia fergusonii are closely related bacteria that can cause illness in humans, such as bacteremia, urinary tract infections and diarrhea. Current identification strategies for these three species vary in complexity and typically rely on the use of multiple phenotypic and genetic tests. To facilitate their rapid identification, we developed a multiplex PCR assay targeting conserved, species-specific genes. We used the Daydreamer (Pattern Genomics, USA) software platform to concurrently analyze whole genome sequence assemblies (WGS) from 150 Enterobacteriaceae genomes (107 E. coli, 5 Shigella spp., 21 E. albertii, 12 E. fergusonii and 5 other species) and design primers for the following species-specific regions: a 212bp region of the cyclic di-GMP regulator gene (cdgR, AW869_22935 from genome K-12 MG1655, CP014225) for E. coli/Shigella; a 393bp region of the DNA-binding transcriptional activator of cysteine biosynthesis gene (EAKF1_ch4033 from genome KF1, CP007025) for E. albertii; and a 575bp region of the palmitoleoyl-acyl carrier protein (ACP)-dependent acyltransferase (EFER_0790 from genome ATCC 35469, CU928158) for E. fergusonii. We incorporated the species-specific primers into a conventional multiplex PCR assay and assessed its performance with a collection of 97 Enterobacteriaceae strains. The assay was 100% sensitive and specific for detecting the expected species and offers a quick and accurate strategy for identifying E. coli, E. albertii, and E. fergusonii in either a single reaction or by in silico PCR with sequence assemblies. |
Investigation of Escherichia coli Harboring the mcr-1 Resistance Gene - Connecticut, 2016.
Vasquez AM , Montero N , Laughlin M , Dancy E , Melmed R , Sosa L , Watkins LF , Folster JP , Strockbine N , Moulton-Meissner H , Ansari U , Cartter ML , Walters MS . MMWR Morb Mortal Wkly Rep 2016 65 (36) 979-980 The mcr-1 gene confers resistance to the polymyxins, including the antibiotic colistin, a medication of last resort for multidrug-resistant infections. The mcr-1 gene was first reported in 2015 in food, animal, and patient isolates from China and is notable for being the first plasmid-mediated colistin resistance mechanism to be identified. Plasmids can be transferred between bacteria, potentially spreading the resistance gene to other bacterial species. Since its discovery, the mcr-1 gene has been reported from Africa, Asia, Europe, South America, and North America, including the United States, where it has been identified in Escherichia coli isolated from three patients and from two intestinal samples from pigs. In July 2016, the Pathogen Detection System at the National Center for Biotechnology Information (Bethesda, Maryland) identified mcr-1 in the whole genome sequence of an E. coli isolate from a Connecticut patient; this is the fourth isolate from a U.S. patient to contain the mcr-1 gene. |
High-Quality Draft Genome Sequences for Five Non-O157 Shiga Toxin-Producing Escherichia coli Strains Generated with PacBio Sequencing and Optical Maps.
Lindsey RL , Rowe L , Garcia-Toledo L , Loparev V , Knipe K , Stripling D , Martin H , Trees E , Juieng P , Batra D , Strockbine N . Genome Announc 2016 4 (3) Shiga toxin-producing Escherichia coli (STEC) is a foodborne pathogen. We report here the high-quality draft whole-genome sequences of five STEC strains isolated from clinical cases in the United States. This report is for STEC of serotypes O55:H7, O79:H7, O91:H14, O153:H2, and O156:H25. |
Implementation of Whole Genome Sequencing (WGS) for Identification and Characterization of Shiga Toxin-Producing Escherichia coli (STEC) in the United States.
Lindsey RL , Pouseele H , Chen JC , Strockbine NA , Carleton HA . Front Microbiol 2016 7 766 Shiga toxin-producing Escherichia coli (STEC) is an important foodborne pathogen capable of causing severe disease in humans. Rapid and accurate identification and characterization techniques are essential during outbreak investigations. Current methods for characterization of STEC are expensive and time-consuming. With the advent of rapid and cheap whole genome sequencing (WGS) benchtop sequencers, the potential exists to replace traditional workflows with WGS. The aim of this study was to validate tools to do reference identification and characterization from WGS for STEC in a single workflow within an easy to use commercially available software platform. Publically available serotype, virulence, and antimicrobial resistance databases were downloaded from the Center for Genomic Epidemiology (CGE) (www.genomicepidemiology.org) and integrated into a genotyping plug-in with in silico PCR tools to confirm some of the virulence genes detected from WGS data. Additionally, down sampling experiments on the WGS sequence data were performed to determine a threshold for sequence coverage needed to accurately predict serotype and virulence genes using the established workflow. The serotype database was tested on a total of 228 genomes and correctly predicted from WGS for 96.1% of O serogroups and 96.5% of H serogroups identified by conventional testing techniques. A total of 59 genomes were evaluated to determine the threshold of coverage to detect the different WGS targets, 40 were evaluated for serotype and virulence gene detection and 19 for the stx gene subtypes. For serotype, 95% of the O and 100% of the H serogroups were detected at > 40x and ≥ 30x coverage, respectively. For virulence targets and stx gene subtypes, nearly all genes were detected at > 40x, though some targets were 100% detectable from genomes with coverage ≥20x. The resistance detection tool was 97% concordant with phenotypic testing results. With isolates sequenced to > 40x coverage, the different databases accurately predicted serotype, virulence, and resistance from WGS data, providing a fast and cheaper alternative to conventional typing techniques. |
Complete Genome Sequences of Two Shiga Toxin-Producing Escherichia coli Strains from Serotypes O119:H4 and O165:H25.
Lindsey RL , Knipe K , Rowe L , Garcia-Toledo L , Loparev V , Juieng P , Trees E , Strockbine N , Stripling D , Gerner-Smidt P . Genome Announc 2015 3 (6) Shiga toxin-producing Escherichia coli (STEC) is an important foodborne pathogen. Here, we report complete whole-genome sequences for two STEC strains of serotypes O119:H4 and O165:H25 isolated from clinical cases in the United States. |
Comparison of whole genome sequences from human and non-human Escherichia coli O26 strains.
Norman KN , Clawson ML , Strockbine NA , Mandrell RE , Johnson R , Ziebell K , Zhao S , Fratamico PM , Stones R , Allard MW , Bono JL . Front Cell Infect Microbiol 2015 5 21 Shiga toxin-producing Escherichia coli (STEC) O26 is the second leading E. coli serogroup responsible for human illness outbreaks behind E. coli O157:H7. Recent outbreaks have been linked to emerging pathogenic O26:H11 strains harboring stx 2 only. Cattle have been recognized as an important reservoir of O26 strains harboring stx 1; however the reservoir of these emerging stx 2 strains is unknown. The objective of this study was to identify nucleotide polymorphisms in human and cattle-derived strains in order to compare differences in polymorphism derived genotypes and virulence gene profiles between the two host species. Whole genome sequencing was performed on 182 epidemiologically unrelated O26 strains, including 109 human-derived strains and 73 non-human-derived strains. A panel of 289 O26 strains (241 STEC and 48 non-STEC) was subsequently genotyped using a set of 283 polymorphisms identified by whole genome sequencing, resulting in 64 unique genotypes. Phylogenetic analyses identified seven clusters within the O26 strains. The seven clusters did not distinguish between isolates originating from humans or cattle; however, clusters did correspond with particular virulence gene profiles. Human and non-human-derived strains harboring stx 1 clustered separately from strains harboring stx 2, strains harboring eae, and non-STEC strains. Strains harboring stx 2 were more closely related to non-STEC strains and strains harboring eae than to strains harboring stx 1. The finding of human and cattle-derived strains with the same polymorphism derived genotypes and similar virulence gene profiles, provides evidence that similar strains are found in cattle and humans and transmission between the two species may occur. |
Investigation of an outbreak of bloody diarrhea complicated with hemolytic uremic syndrome
Chokoshvili O , Lomashvili K , Malakmadze N , Geleishvil M , Brant J , Imnadze P , Chitadze N , Tevzadze L , Chanturia G , Tevdoradze T , Tsertsvadze T , Talkington D , Mody RK , Strockbine N , Gerber RA , Maes E , Rush T . J Epidemiol Glob Health 2014 4 (4) 249-59 In July-August 2009, eight patients with bloody diarrhea complicated by hemolytic uremic syndrome (HUS) were admitted to hospitals in Tbilisi, Georgia. We started active surveillance in two regions for bloody diarrhea and post-diarrheal HUS. Of 25 case-patients who developed HUS, including the initial 8 cases, half were 15years old, 67% were female and seven (28%) died. No common exposures were identified. Among 20 HUS case-patients tested, Shiga toxin was detected in the stools of 2 patients (one with elevated serum IgG titers to several Escherichia coli serogroups, including O111 and O104). Among 56 persons with only bloody diarrhea, we isolated Shiga toxin-producing E. coli (STEC) O104:H4 from 2 and Shigella from 10; 2 had serologic evidence of E. coli O26 infection. These cases may indicate a previously unrecognized burden of HUS in Georgia. We recommend national reporting of HUS and improving STEC detection capacity. |
Clinical isolates of Shiga toxin 1a-producing Shigella flexneri with an epidemiological link to recent travel to Hispañiola.
Gray MD , Lampel KA , Strockbine NA , Fernandez RE , Melton-Celsa AR , Maurelli AT . Emerg Infect Dis 2014 20 (10) 1669-77 Shiga toxins (Stx) are cytotoxins involved in severe human intestinal disease. These toxins are commonly found in Shigella dysenteriae serotype 1 and Shiga-toxin-producing Escherichia coli; however, the toxin genes have been found in other Shigella species. We identified 26 Shigella flexneri serotype 2 strains isolated by public health laboratories in the United States during 2001-2013, which encode the Shiga toxin 1a gene (stx1a). These strains produced and released Stx1a as measured by cytotoxicity and neutralization assays using anti-Stx/Stx1a antiserum. The release of Stx1a into culture supernatants increased approximately 100-fold after treatment with mitomycin C, suggesting that stx1a is carried by a bacteriophage. Infectious phage were found in culture supernatants and increased approximately 1,000-fold with mitomycin C. Whole-genome sequencing of several isolates and PCR analyses of all strains confirmed that stx1a was carried by a lambdoid bacteriophage. Furthermore, all patients who reported foreign travel had recently been to Hispaniola, suggesting that emergence of these novel strains is associated with that region. |
Draft Genome Sequence of Buttiauxella agrestis, Isolated from Surface Water.
Jothikumar N , Kahler A , Strockbine N , Gladney L , Hill VR . Genome Announc 2014 2 (5) MI agar is routinely used for quantifying Escherichia coli in drinking water. A suspect E. coli colony isolated from a water sample was identified as Buttiauxella agrestis. The whole genome sequence of B. agrestis was determined to understand the genetic basis for its phenotypic resemblance to E. coli on MI agar. |
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