Last data update: Dec 02, 2024. (Total: 48272 publications since 2009)
Records 1-9 (of 9 Records) |
Query Trace: Respicio-Kingry LB[original query] |
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Borrelia mayonii sp. nov., a member of the Borrelia burgdorferi sensu lato complex, detected in patients and ticks in the upper midwestern United States
Pritt BS , Respicio-Kingry LB , Sloan LM , Schriefer ME , Replogle AJ , Bjork J , Liu G , Kingry LC , Mead PS , Neitzel DF , Schiffman E , Hoang Johnson DK , Davis JP , Paskewitz SM , Boxrud D , Deedon A , Lee X , Miller TK , Feist MA , Steward CR , Theel ES , Patel R , Irish CL , Petersen JM . Int J Syst Evol Microbiol 2016 66 (11) 4878-4880 Lyme borreliosis (LB) is a multisystem disease caused by spirochetes in the Borrelia burgdorferisensu lato (Bbsl) genospecies complex. We previously described a novel Bbsl genospecies (type strain MN14-1420T) that causes LB among patients with exposures to ticks in the upper midwestern USA. Patients infected with the novel Bbsl genospecies demonstrated higher levels of spirochetemia and somewhat differing clinical symptoms as compared with those infected with other Bbsl genospecies. The organism was detected from human specimens using PCR, microscopy, serology and culture. The taxonomic status was determined using an eight-housekeeping-gene (uvrA, rplB, recG, pyrG, pepX, clpX, clpA and nifS) multi-locus sequence analysis (MLSA) and comparison of 16S rRNA gene, flaB, rrf-rrl, ospC and oppA2 nucleotide sequences. Using a system threshold of 98.3 % similarity for delineation of Bbsl genospecies by MLSA, we demonstrated that the novel species is a member of the Bbsl genospecies complex, most closely related to B. burgdorferisensu stricto (94.7-94.9 % similarity). This same species was identified in Ixodes scapularis ticks collected in Minnesota and Wisconsin. This novel species, Borrelia mayonii sp. nov, is formally described here. The type strain, MN14-1420, is available through the Deutsche Sammlung von Mikroorganismen und Zelkulturen GmbH (DSM 102811) and the American Type Culture Collection (ATCC BAA-2743). |
Vector competence of the blacklegged tick, Ixodes scapularis, for the recently recognized Lyme borreliosis spirochete Candidatus Borrelia mayonii
Dolan MC , Hojgaard A , Hoxmeier JC , Replogle AJ , Respicio-Kingry LB , Sexton C , Williams MA , Pritt BS , Schriefer ME , Eisen L . Ticks Tick Borne Dis 2016 7 (5) 665-669 A novel species within the Borrelia burgdorferi sensu lato complex, provisionally named Borrelia mayonii, was recently found to be associated with Lyme borreliosis in the Upper Midwest of the United States. Moreover, B. mayonii was detected from host-seeking Ixodes scapularis, the primary vector of B. burgdorferi sensu stricto in the eastern United States. We therefore conducted a study to confirm the experimental vector competence of I. scapularis for B. mayonii (strain MN14-1420), using colony ticks originating from adults collected in Connecticut and CD-1 white mice. Larvae fed on mice 10 weeks after needle-inoculation with B. mayonii acquired spirochetes and maintained infection through the nymphal stage at an average rate of 12.9%. In a transmission experiment, 40% of naive mice exposed to a single infected nymph developed viable infections, as compared with 87% of mice fed upon by 2-3 infected nymphs. Transmission of B. mayonii by one or more feeding infected nymphs was uncommon up to 48h after attachment (one of six mice developed viable infection) but occurred frequently when nymphs were allowed to remain attached for 72-96h or feed to completion (11 of 16 mice developed viable infection). Mice infected via tick bite maintained viable infection with B. mayonii, as determined by ear biopsy culture, for at least 28 weeks. Our results demonstrate that I. scapularis is capable of serving as a vector of B. mayonii. This finding, together with data showing that field-collected I. scapularis are infected with B. mayonii, indicate that I. scapularis likely is a primary vector to humans of this recently recognized Lyme borreliosis spirochete. |
Two Distinct Yersinia pestis Populations Causing Plague among Humans in the West Nile Region of Uganda.
Respicio-Kingry LB , Yockey BM , Acayo S , Kaggwa J , Apangu T , Kugeler KJ , Eisen RJ , Griffith KS , Mead PS , Schriefer ME , Petersen JM . PLoS Negl Trop Dis 2016 10 (2) e0004360 BACKGROUND: Plague is a life-threatening disease caused by the bacterium, Yersinia pestis. Since the 1990s, Africa has accounted for the majority of reported human cases. In Uganda, plague cases occur in the West Nile region, near the border with Democratic Republic of Congo. Despite the ongoing risk of contracting plague in this region, little is known about Y. pestis genotypes causing human disease. METHODOLOGY/PRINCIPAL FINDINGS: During January 2004-December 2012, 1,092 suspect human plague cases were recorded in the West Nile region of Uganda. Sixty-one cases were culture-confirmed. Recovered Y. pestis isolates were analyzed using three typing methods, single nucleotide polymorphisms (SNPs), pulsed field gel electrophoresis (PFGE), and multiple variable number of tandem repeat analysis (MLVA) and subpopulations analyzed in the context of associated geographic, temporal, and clinical data for source patients. All three methods separated the 61 isolates into two distinct 1.ANT lineages, which persisted throughout the 9 year period and were associated with differences in elevation and geographic distribution. CONCLUSIONS/SIGNIFICANCE: We demonstrate that human cases of plague in the West Nile region of Uganda are caused by two distinct 1.ANT genetic subpopulations. Notably, all three typing methods used, SNPs, PFGE, and MLVA, identified the two genetic subpopulations, despite recognizing different mutation types in the Y. pestis genome. The geographic and elevation differences between the two subpopulations is suggestive of their maintenance in highly localized enzootic cycles, potentially with differing vector-host community composition. This improved understanding of Y. pestis subpopulations in the West Nile region will be useful for identifying ecologic and environmental factors associated with elevated plague risk. |
Identification of a novel pathogenic Borrelia species causing Lyme borreliosis with unusually high spirochaetaemia: a descriptive study.
Pritt BS , Mead PS , Johnson DK , Neitzel DF , Respicio-Kingry LB , Davis JP , Schiffman E , Sloan LM , Schriefer ME , Replogle AJ , Paskewitz SM , Ray JA , Bjork J , Steward CR , Deedon A , Lee X , Kingry LC , Miller TK , Feist MA , Theel ES , Patel R , Irish CL , Petersen JM . Lancet Infect Dis 2016 16 (5) 556-564 BACKGROUND: Lyme borreliosis is the most common tick-borne disease in the northern hemisphere. It is a multisystem disease caused by Borrelia burgdorferi sensu lato genospecies and characterised by tissue localisation and low spirochaetaemia. In this study we aimed to describe a novel Borrelia species causing Lyme borreliosis in the USA. METHODS: At the Mayo clinic, from 2003 to 2014, we tested routine clinical diagnostic specimens from patients in the USA with PCR targeting the oppA1 gene of B burgdorferi sensu lato. We identified positive specimens with an atypical PCR result (melting temperature outside of the expected range) by sequencing, microscopy, or culture. We collected Ixodes scapularis ticks from regions of suspected patient tick exposure and tested them by oppA1 PCR. FINDINGS: 100 545 specimens were submitted by physicians for routine PCR from Jan 1, 2003 to Sept 30, 2014. From these samples, six clinical specimens (five blood, one synovial fluid) yielded an atypical oppA1 PCR product, but no atypical results were detected before 2012. Five of the six patients with atypical PCR results had presented with fever, four had diffuse or focal rash, three had symptoms suggestive of neurological inclusion, and two were admitted to hospital. The sixth patient presented with knee pain and swelling. Motile spirochaetes were seen in blood samples from one patient and cultured from blood samples from two patients. Among the five blood specimens, the median oppA1 copy number was 180 times higher than that in 13 specimens that tested positive for B burgdorferi sensu stricto during the same time period. Multigene sequencing identified the spirochaete as a novel B burgdorferi sensu lato genospecies. This same genospecies was detected in ticks collected at a probable patient exposure site. INTERPRETATION: We describe a new pathogenic Borrelia burgdorferi sensu lato genospecies (candidatus Borrelia mayonii) in the upper midwestern USA, which causes Lyme borreliosis with unusually high spirochaetaemia. Clinicians should be aware of this new B burgdorferi sensu lato genospecies, its distinct clinical features, and the usefulness of oppA1 PCR for diagnosis. |
Whole genome multilocus sequence typing as an epidemiologic tool for Yersinia pestis.
Kingry LC , Rowe LA , Respicio-Kingry LB , Beard CB , Schriefer ME , Petersen JM . Diagn Microbiol Infect Dis 2015 84 (4) 275-80 Human plague is a severe and often fatal zoonotic disease caused by Yersinia pestis. For public health investigations of human cases, nonintensive whole genome molecular typing tools, capable of defining epidemiologic relationships, are advantageous. Whole genome multilocus sequence typing (wgMLST) is a recently developed methodology that simplifies genomic analyses by transforming millions of base pairs of sequence into character data for each gene. We sequenced 13 US Y. pestis isolates with known epidemiologic relationships. Sequences were assembled de novo, and multilocus sequence typing alleles were assigned by comparison against 3979 open reading frames from the reference strain CO92. Allele-based cluster analysis accurately grouped the 13 isolates, as well as 9 publicly available Y. pestis isolates, by their epidemiologic relationships. Our findings indicate wgMLST is a simplified, sensitive, and scalable tool for epidemiologic analysis of Y. pestis strains. |
Francisella species in ticks and animals, Iberian Peninsula
Lopes de Carvalho I , Toledo A , Carvalho CL , Barandika JF , Respicio-Kingry LB , Garcia-Amil C , Garcia-Perez AL , Olmeda AS , Ze-Ze L , Petersen JM , Anda P , Nuncio MS , Escudero R . Ticks Tick Borne Dis 2015 7 (1) 159-165 The presence of Francisella species in 2134 ticks, 93 lagomorphs and 280 small mammals from the Iberian Peninsula was studied. Overall, 19 ticks and 6 lagomorphs were positive for Francisella tularensis subsp. holarctica, suggesting, as described for other regions, that lagomorphs may have an important role in the maintenance of F. tularensis in nature. Of the 6 positive lagomorphs, 4 were identified as the European rabbit, Oryctogalus cuniculus. Additionally, 353 ticks and 3 small mammals were PCR positive for Francisella-like endosymbionts (FLEs) and one small mammal was also positive for Francisella hispaniensis-like DNA sequences. Among FLE positive specimens, a variety of sequence types were detected: ticks were associated with 5 lpnA sequence types, with only one type identified per tick, in contrast to 2 lpnA sequence types detected in a single wood mouse (Apodemus sylvaticus). To our knowledge, this is the first report of FLEs in free-living small mammals as well as the first detection of F. hispaniensis-like sequences in a natural setting. |
Outbreak of Francisella novicida bacteremia among inmates at a Louisiana correctional facility
Brett ME , Respicio-Kingry LB , Yendell S , Ratard R , Hand J , Balsamo G , Scott-Waldron C , O'Neal C , Kidwell D , Yockey B , Singh P , Carpenter J , Hill V , Petersen JM , Mead P . Clin Infect Dis 2014 59 (6) 826-33 BACKGROUND: Francisella novicida is a rare cause of human illness despite its close genetic relationship to F. tularensis, the agent of tularemia. During April-July 2011, three inmates at a Louisiana correctional facility developed F. novicida bacteremia; one died acutely. METHODS: We interviewed surviving inmates; reviewed laboratory, medical, and housing records; and conducted an environmental investigation. Clinical and environmental samples were tested by culture, real-time PCR and multi-gene sequencing. Isolates were typed by pulsed-field gel electrophoresis (PFGE). RESULTS: Clinical isolates were identified as F. novicida based on sequence analyses of the 16S rRNA, pgm and pdpD genes. PmeI PFGE patterns for the clinical isolates were indistinguishable. Source patients were aged 40-56 years, male, African American, and all were immunocompromised. Two patients presented with signs of bacterial peritonitis; the third had pyomyositis of the thigh. The three inmates had no contact with one another; their only shared exposures were consumption of municipal water and of ice mass produced at the prison in an unenclosed building. Swabs from one set of ice machines and associated ice scoops yielded evidence of F. novicida by PCR and sequencing. All other environmental specimens tested negative. CONCLUSIONS: To our knowledge, this is the first reported common-source outbreak of F. novicida infections in humans. Epidemiological and laboratory evidence implicate contaminated ice as the likely vehicle of transmission; liver disease may be a predisposing factor. Clinicians, laboratorians and public health officials should be aware of the potential for misidentification of F. novicida as F. tularenis. |
Cutaneous infection caused by a novel Francisella sp.
Respicio-Kingry LB , Byrd L , Allison A , Brett M , Scott-Waldron C , Galliher K , Hannah P , Mead P , Petersen JM . J Clin Microbiol 2013 51 (10) 3456-60 A 69 year old patient presented with a tender, thickly-crusted skin lesion of one week's duration. A bacterial culture swab taken from the underlying granular tissue yielded a pure isolate of a gram-negative coccobacillus, presumptively identified as a novel Francisella species via 16S rRNA and multi-locus gene sequence analysis. |
Francisella novicida bacteremia after a near-drowning accident
Brett M , Doppalapudi A , Respicio-Kingry LB , Myers D , Husband B , Pollard K , Mead P , Petersen JM , Whitener CJ . J Clin Microbiol 2012 50 (8) 2826-9 We describe a rare case of Francisella novicida bacteremia following a near-drowning event in seawater. We highlight the challenges associated with laboratory identification of F. novicida and differences in the epidemiology of F. novicida and F. tularensis infections. |
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