Your search keyword '"Hannah Bekebrede"' showing total 7 results

1. Erratum for Teymournejad et al., 'Isolation and Molecular Analysis of a Novel Neorickettsia Species That Causes Potomac Horse Fever'

Author

Omid Teymournejad, Mingqun Lin, Hannah Bekebrede, Ahmed Kamr, Ramiro E. Toribio, Luis G. Arroyo, John D. Baird, and Yasuko Rikihisa

Subjects

Microbiology, QR1-502

Published

2020

2. Isolation and Molecular Analysis of a Novel Neorickettsia Species That Causes Potomac Horse Fever

Author

Omid Teymournejad, Mingqun Lin, Hannah Bekebrede, Ahmed Kamr, Ramiro E. Toribio, Luis G. Arroyo, John D. Baird, and Yasuko Rikihisa

Subjects

Koch’s postulates, Neorickettsia species, Potomac horse fever, major antigen, obligatory intracellular, phylogenetic analysis, Microbiology, QR1-502

Abstract

ABSTRACT Potomac horse fever (PHF), a severe and frequently fatal febrile diarrheal disease, has been known to be caused only by Neorickettsia risticii, an endosymbiont of digenean trematodes. Here, we report the cell culture isolation of a new Neorickettsia species found in two locations in eastern Ontario, Canada, in 2016 and 2017 (in addition to 10 variable strains of N. risticii) from N. risticii PCR-negative horses with clinical signs of PHF. Gene sequences of 16S rRNA and the major surface antigen P51 of this new Neorickettsia species were distinct from those of all previously characterized N. risticii strains and Neorickettsia species, except for those from an uncharacterized Neorickettsia species culture isolate from a horse with PHF in northern Ohio in 1991. The new Neorickettsia species nonetheless had the characteristic intramolecular repeats within strain-specific antigen 3 (Ssa3), which were found in all sequenced Ssa3s of N. risticii strains. Experimental inoculation of two naive ponies with the new Neorickettsia species produced severe and subclinical PHF, respectively, and the bacteria were reisolated from both of them, fulfilling Koch’s postulates. Serological assay titers against the new Neorickettsia species were higher than those against N. risticii. Whole-genome sequence analysis of the new Neorickettsia species revealed unique features of this bacterium compared with N. risticii. We propose to classify this new bacterium as Neorickettsia finleia sp. nov. This finding will improve the laboratory diagnosis of and vaccine for PHF, environmental risk assessment of PHF, and understanding of PHF pathogenesis and Neorickettsia biology in general. IMPORTANCE Despite the detection of Neorickettsia species DNA sequences in various trematode species and their hosts, only three Neorickettsia species have been cell culture isolated and whole-genome sequenced and are known to infect mammals and/or cause disease. The molecular mechanisms that enable the obligatory intracellular bacterium Neorickettsia to colonize trematodes and to horizontally transmit from trematodes to mammals, as well as the virulence factors associated with specific mammalian hosts, are unknown. Potomac horse fever (PHF) is a severe and acute systemic infectious disease of horses, with clinical signs that include diarrhea. Neorickettsia risticii is the only known bacterial species that causes PHF. Ingestion of insects harboring N. risticii-infected trematodes by horses leads to PHF. Our discovery of a new Neorickettsia species that causes PHF and whole-genome sequence analysis of this bacterium will improve laboratory diagnosis and vaccine development for PHF and will contribute to our understanding of Neorickettsia ecology, pathogenesis, and biology.

Published

2020

3. Discovery of in vivo Virulence Genes of Obligatory Intracellular Bacteria by Random Mutagenesis

Author

Hannah Bekebrede, Mingqun Lin, Omid Teymournejad, and Yasuko Rikihisa

Subjects

Ehrlichia HF strain, Himar1 transposon mutagenesis, mouse virulence, inflammatory cytokines, staphylococcal superantigen-like domain, obligatory intracellular bacteria, Microbiology, QR1-502

Abstract

Ehrlichia spp. are emerging tick-borne obligatory intracellular bacteria that cause febrile and sometimes fatal diseases with abnormal blood cell counts and signs of hepatitis. Ehrlichia HF strain provides an excellent mouse disease model of fatal human ehrlichiosis. We recently obtained and established stable culture of Ehrlichia HF strain in DH82 canine macrophage cell line, and obtained its whole genome sequence and annotation. To identify genes required for in vivo virulence of Ehrlichia, we constructed random insertional HF strain mutants by using Himar1 transposon-based mutagenesis procedure. Of total 158 insertional mutants isolated via antibiotic selection in DH82 cells, 74 insertions were in the coding regions of 55 distinct protein-coding genes, including TRP120 and multi-copy genes, such as p28/omp-1, virB2, and virB6. Among 84 insertions mapped within the non-coding regions, seven are located in the putative promoter region since they were within 50 bp upstream of the seven distinct genes. Using limited dilution methods, nine stable clonal mutants that had no apparent defect for multiplication in DH82 cells, were obtained. Mouse virulence of seven mutant clones was similar to that of wild-type HF strain, whereas two mutant clones showed significantly retarded growth in blood, livers, and spleens, and the mice inoculated with them lived longer than mice inoculated with wild-type. The two clones contained mutations in genes encoding a conserved hypothetical protein and a staphylococcal superantigen-like domain protein, respectively, and both genes are conserved among Ehrlichia spp., but lack homology to other bacterial genes. Inflammatory cytokine mRNA levels in the liver of mice infected with the two mutants were significantly diminished than those infected with HF strain wild-type, except IL-1β and IL-12 p40 in one clone. Thus, we identified two Ehrlichia virulence genes responsible for in vivo infection, but not for infection and growth in macrophages.

Published

2020

4. Erratum for Teymournejad et al., 'Isolation and Molecular Analysis of a Novel Neorickettsia Species That Causes Potomac Horse Fever'

Author

Hannah Bekebrede, Luis G. Arroyo, Yasuko Rikihisa, Omid Teymournejad, Ramiro E. Toribio, Mingqun Lin, Ahmed Kamr, and John D. Baird

Subjects

DNA, Bacterial, Male, Canada, Neorickettsia, Potomac Horse Fever, Biology, Polymerase Chain Reaction, Microbiology, RNA, Ribosomal, 16S, Virology, Neorickettsia risticii, Animals, Horses, Phylogeny, Antigens, Bacterial, Whole Genome Sequencing, Isolation (microbiology), QR1-502, Molecular analysis, Disease Models, Animal, Neorickettsia species, Anaplasmataceae Infections, Female, Horse Diseases, Trematoda, Erratum, Sequence Analysis

Abstract

Potomac horse fever (PHF), a severe and frequently fatal febrile diarrheal disease, has been known to be caused only by

Published

2020

5. Isolation and Molecular Analysis of a Novel Neorickettsia Species That Causes Potomac Horse Fever

Author

Ramiro E. Toribio, Hannah Bekebrede, John D. Baird, Luis G. Arroyo, Ahmed Kamr, Mingqun Lin, Omid Teymournejad, and Yasuko Rikihisa

Subjects

neorickettsia species, Neorickettsia, Sequence analysis, obligatory intracellular, Potomac Horse Fever, Virulence, whole-genome sequence, Microbiology, Clinical Science and Epidemiology, 03 medical and health sciences, symbols.namesake, potomac horse fever, Virology, mental disorders, major antigen, koch’s postulates, 030304 developmental biology, 0303 health sciences, biology, 030306 microbiology, phylogenetic analysis, Neorickettsia risticii, biology.organism_classification, 16S ribosomal RNA, QR1-502, Infectious disease (medical specialty), Koch's postulates, symbols, Research Article

Abstract

Despite the detection of Neorickettsia species DNA sequences in various trematode species and their hosts, only three Neorickettsia species have been cell culture isolated and whole-genome sequenced and are known to infect mammals and/or cause disease. The molecular mechanisms that enable the obligatory intracellular bacterium Neorickettsia to colonize trematodes and to horizontally transmit from trematodes to mammals, as well as the virulence factors associated with specific mammalian hosts, are unknown. Potomac horse fever (PHF) is a severe and acute systemic infectious disease of horses, with clinical signs that include diarrhea. Neorickettsia risticii is the only known bacterial species that causes PHF. Ingestion of insects harboring N. risticii-infected trematodes by horses leads to PHF. Our discovery of a new Neorickettsia species that causes PHF and whole-genome sequence analysis of this bacterium will improve laboratory diagnosis and vaccine development for PHF and will contribute to our understanding of Neorickettsia ecology, pathogenesis, and biology., Potomac horse fever (PHF), a severe and frequently fatal febrile diarrheal disease, has been known to be caused only by Neorickettsia risticii, an endosymbiont of digenean trematodes. Here, we report the cell culture isolation of a new Neorickettsia species found in two locations in eastern Ontario, Canada, in 2016 and 2017 (in addition to 10 variable strains of N. risticii) from N. risticii PCR-negative horses with clinical signs of PHF. Gene sequences of 16S rRNA and the major surface antigen P51 of this new Neorickettsia species were distinct from those of all previously characterized N. risticii strains and Neorickettsia species, except for those from an uncharacterized Neorickettsia species culture isolate from a horse with PHF in northern Ohio in 1991. The new Neorickettsia species nonetheless had the characteristic intramolecular repeats within strain-specific antigen 3 (Ssa3), which were found in all sequenced Ssa3s of N. risticii strains. Experimental inoculation of two naive ponies with the new Neorickettsia species produced severe and subclinical PHF, respectively, and the bacteria were reisolated from both of them, fulfilling Koch’s postulates. Serological assay titers against the new Neorickettsia species were higher than those against N. risticii. Whole-genome sequence analysis of the new Neorickettsia species revealed unique features of this bacterium compared with N. risticii. We propose to classify this new bacterium as Neorickettsia finleia sp. nov. This finding will improve the laboratory diagnosis of and vaccine for PHF, environmental risk assessment of PHF, and understanding of PHF pathogenesis and Neorickettsia biology in general.

Published

2020

6. Discovery of in vivo Virulence Genes of Obligatory Intracellular Bacteria by Random Mutagenesis

Author

Omid Teymournejad, Hannah Bekebrede, Yasuko Rikihisa, and Mingqun Lin

Subjects

0301 basic medicine, Microbiology (medical), Transposable element, staphylococcal superantigen-like domain, inflammatory cytokines, 030106 microbiology, Immunology, Mutant, Hypothetical protein, lcsh:QR1-502, Ehrlichia, Virulence, Gene Expression, mouse virulence, Ehrlichia HF strain, Biology, obligatory intracellular bacteria, Microbiology, Homology (biology), lcsh:Microbiology, Cell Line, Lethal Dose 50, 03 medical and health sciences, Mice, Cellular and Infection Microbiology, Dogs, Animals, Humans, Cloning, Molecular, Gene, Original Research, Ixodes, Intracellular parasite, Macrophages, Ehrlichiosis, Himar1 transposon mutagenesis, biology.organism_classification, Bacterial Load, 3. Good health, Mutagenesis, Insertional, 030104 developmental biology, Infectious Diseases, Genes, Bacterial, DNA Transposable Elements, Cytokines

Abstract

Ehrlichia spp. are emerging tick-borne obligatory intracellular bacteria that cause febrile and sometimes fatal diseases with abnormal blood cell counts and signs of hepatitis. Ehrlichia HF strain provides an excellent mouse disease model of fatal human ehrlichiosis. We recently obtained and established stable culture of Ehrlichia HF strain in DH82 canine macrophage cell line, and obtained its whole genome sequence and annotation. To identify genes required for in vivo virulence of Ehrlichia, we constructed random insertional HF strain mutants by using Himar1 transposon-based mutagenesis procedure. Of total 158 insertional mutants isolated via antibiotic selection in DH82 cells, 74 insertions were in the coding regions of 55 distinct protein-coding genes, including TRP120 and multi-copy genes, such as p28/omp-1, virB2, and virB6. Among 84 insertions mapped within the non-coding regions, seven are located in the putative promoter region since they were within 50 bp upstream of the seven distinct genes. Using limited dilution methods, nine stable clonal mutants that had no apparent defect for multiplication in DH82 cells, were obtained. Mouse virulence of seven mutant clones was similar to that of wild-type HF strain, whereas two mutant clones showed significantly retarded growth in blood, livers, and spleens, and the mice inoculated with them lived longer than mice inoculated with wild-type. The two clones contained mutations in genes encoding a conserved hypothetical protein and a staphylococcal superantigen-like domain protein, respectively, and both genes are conserved among Ehrlichia spp., but lack homology to other bacterial genes. Inflammatory cytokine mRNA levels in the liver of mice infected with the two mutants were significantly diminished than those infected with HF strain wild-type, except IL-1β and IL-12 p40 in one clone. Thus, we identified two Ehrlichia virulence genes responsible for in vivo infection, but not for infection and growth in macrophages.

Published

2020

7. An Ecotype of Neorickettsia risticii Causing Potomac Horse Fever in Canada

Author

John D. Baird, Pankaj Sharma, Yasuko Rikihisa, Luis G. Arroyo, Hannah Bekebrede, and Qingming Xiong

Subjects

0301 basic medicine, Male, Neorickettsia, 030106 microbiology, Potomac Horse Fever, Applied Microbiology and Biotechnology, Microbiology, law.invention, 03 medical and health sciences, law, Genotype, Neorickettsia risticii, Environmental Microbiology, Helminths, Animals, Horses, Polymerase chain reaction, Phylogeny, Ecotype, Ontario, Antigens, Bacterial, Bacteriological Techniques, Ecology, biology, Ehrlichia, Horse, Sequence Analysis, DNA, biology.organism_classification, 030104 developmental biology, Treatment Outcome, Anaplasmataceae Infections, Horse Diseases, Food Science, Biotechnology

Abstract

Neorickettsia (formerly Ehrlichia ) risticii is an obligatory intracellular bacterium of digenetic trematodes. When a horse accidentally ingests aquatic insects containing encysted trematodes infected with N. risticii , the bacterium is transmitted from trematodes to horse cells and causes an acute and often fatal disease called Potomac horse fever (PHF). Since the discovery of N. risticii in the United States in 1984, using immunofluorescence and PCR assays, PHF has been increasingly recognized throughout North America and South America. However, so far, there exist only a few stable N. risticii culture isolates, all of which are from horses within the United States, and the strain diversity and environmental spreading and distribution of pathogenic N. risticii strains remain poorly understood. This paper reports the isolation of N. risticii from the blood of a horse with acute PHF in Ontario, Canada. Intracellular N. risticii colonies were detected in P388D 1 cells after 47 days of culturing and 8 days after the addition of rapamycin. Molecular phylogenetic analysis based on amino acid sequences of major surface proteins P51 and Ssa1 showed that this isolate is distinct from any previously sequenced strains but closely related to midwestern U.S. strains. This is the first Canadian strain cultured, and a new method was developed to reactivate dormant N. risticii to improve culture isolation. IMPORTANCE Neorickettsia risticii is an environmental bacterium that lives inside flukes that are parasitic to aquatic snails, insects, and bats. When a horse accidentally ingests insects harboring flukes infected with N. risticii , the bacterium is transmitted to the horse and causes an acute and often fatal disease called Potomac horse fever. Although the disease has been increasingly recognized throughout North and South America, N. risticii has not been cultured outside the United States. This paper reports the first Canadian strain cultured and a new method to effectively culture isolate N. risticii from the horse blood sample. Molecular analysis showed that the genotype of this Canadian strain is distinct from previously sequenced strains but closely related to midwestern U.S. strains. Culture isolation of N. risticii strains would confirm the geographic presence of pathogenic N. risticii , help elucidate N. risticii strain diversity and environmental spreading and distribution, and improve diagnosis and development of vaccines for this dreadful disease.

Published

2016