Evidence for Elizabethkingia Anophelis transmission from mother to infant, Hong Kong

Susanna K.P. Lau; Alan K.L. Wu; Jade L.L. Teng; Herman Tse; Shirly O.T. Curreem; Stephen K.W. Tsui; Yi Huang; Jonathan H.K. Chen; Rodney A. Lee; Kwok Yung Yuen; Patrick C.Y. Woo

doi:10.3201/eid2102.140623

Evidence for Elizabethkingia Anophelis transmission from mother to infant, Hong Kong

Susanna K.P. Lau, Alan K.L. Wu, Jade L.L. Teng, Herman Tse, Shirly O.T. Curreem, Stephen K.W. Tsui, Yi Huang, Jonathan H.K. Chen, Rodney A. Lee, Kwok Yung Yuen, Patrick C.Y. Woo

Research output: Contribution to journal › Review article › peer-review

70 Citations (Scopus)

Abstract

Elizabethkingia anophelis, recently discovered from mosquito gut, is an emerging bacterium associated with neonatal meningitis and nosocomial outbreaks. However, its transmission route remains unknown. We use rapid genome sequencing to investigate 3 cases of E. anophelis sepsis involving 2 neonates who had meningitis and 1 neonate’s mother who had chorioamnionitis. Comparative genomics revealed evidence for perinatal vertical transmission from a mother to her neonate; the 2 isolates from these patients, HKU37 and HKU38, shared essentially identical genome sequences. In contrast, the strain from another neonate (HKU36) was genetically divergent, showing only 78.6% genome sequence identity to HKU37 and HKU38, thus excluding a clonal outbreak. Comparison to genomes from mosquito strains revealed potential metabolic adaptations in E. anophelis under different environments. Maternal infection, not mosquitoes, is most likely the source of neonatal E. anophelis infections. Our findings highlight the power of genome sequencing in gaining rapid insights on transmission and pathogenesis of emerging pathogens.

Original language	English
Pages (from-to)	232-241
Number of pages	10
Journal	Emerging Infectious Diseases
Volume	21
Issue number	2
DOIs	https://doi.org/10.3201/eid2102.140623
Publication status	Published - 2015
Externally published	Yes

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© Centers for Disease Control and Prevention (CDC). All rights reserved.

ASJC Scopus Subject Areas

Epidemiology
Microbiology (medical)
Infectious Diseases

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10.3201/eid2102.140623

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title = "Evidence for Elizabethkingia Anophelis transmission from mother to infant, Hong Kong",

abstract = "Elizabethkingia anophelis, recently discovered from mosquito gut, is an emerging bacterium associated with neonatal meningitis and nosocomial outbreaks. However, its transmission route remains unknown. We use rapid genome sequencing to investigate 3 cases of E. anophelis sepsis involving 2 neonates who had meningitis and 1 neonate{\textquoteright}s mother who had chorioamnionitis. Comparative genomics revealed evidence for perinatal vertical transmission from a mother to her neonate; the 2 isolates from these patients, HKU37 and HKU38, shared essentially identical genome sequences. In contrast, the strain from another neonate (HKU36) was genetically divergent, showing only 78.6% genome sequence identity to HKU37 and HKU38, thus excluding a clonal outbreak. Comparison to genomes from mosquito strains revealed potential metabolic adaptations in E. anophelis under different environments. Maternal infection, not mosquitoes, is most likely the source of neonatal E. anophelis infections. Our findings highlight the power of genome sequencing in gaining rapid insights on transmission and pathogenesis of emerging pathogens.",

author = "Lau, {Susanna K.P.} and Wu, {Alan K.L.} and Teng, {Jade L.L.} and Herman Tse and Curreem, {Shirly O.T.} and Tsui, {Stephen K.W.} and Yi Huang and Chen, {Jonathan H.K.} and Lee, {Rodney A.} and Yuen, {Kwok Yung} and Woo, {Patrick C.Y.}",

year = "2015",

doi = "10.3201/eid2102.140623",

language = "English",

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AU - Lau, Susanna K.P.

AU - Wu, Alan K.L.

AU - Teng, Jade L.L.

AU - Tse, Herman

AU - Curreem, Shirly O.T.

AU - Tsui, Stephen K.W.

AU - Huang, Yi

AU - Chen, Jonathan H.K.

AU - Lee, Rodney A.

AU - Yuen, Kwok Yung

AU - Woo, Patrick C.Y.

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N2 - Elizabethkingia anophelis, recently discovered from mosquito gut, is an emerging bacterium associated with neonatal meningitis and nosocomial outbreaks. However, its transmission route remains unknown. We use rapid genome sequencing to investigate 3 cases of E. anophelis sepsis involving 2 neonates who had meningitis and 1 neonate’s mother who had chorioamnionitis. Comparative genomics revealed evidence for perinatal vertical transmission from a mother to her neonate; the 2 isolates from these patients, HKU37 and HKU38, shared essentially identical genome sequences. In contrast, the strain from another neonate (HKU36) was genetically divergent, showing only 78.6% genome sequence identity to HKU37 and HKU38, thus excluding a clonal outbreak. Comparison to genomes from mosquito strains revealed potential metabolic adaptations in E. anophelis under different environments. Maternal infection, not mosquitoes, is most likely the source of neonatal E. anophelis infections. Our findings highlight the power of genome sequencing in gaining rapid insights on transmission and pathogenesis of emerging pathogens.

AB - Elizabethkingia anophelis, recently discovered from mosquito gut, is an emerging bacterium associated with neonatal meningitis and nosocomial outbreaks. However, its transmission route remains unknown. We use rapid genome sequencing to investigate 3 cases of E. anophelis sepsis involving 2 neonates who had meningitis and 1 neonate’s mother who had chorioamnionitis. Comparative genomics revealed evidence for perinatal vertical transmission from a mother to her neonate; the 2 isolates from these patients, HKU37 and HKU38, shared essentially identical genome sequences. In contrast, the strain from another neonate (HKU36) was genetically divergent, showing only 78.6% genome sequence identity to HKU37 and HKU38, thus excluding a clonal outbreak. Comparison to genomes from mosquito strains revealed potential metabolic adaptations in E. anophelis under different environments. Maternal infection, not mosquitoes, is most likely the source of neonatal E. anophelis infections. Our findings highlight the power of genome sequencing in gaining rapid insights on transmission and pathogenesis of emerging pathogens.

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Evidence for Elizabethkingia Anophelis transmission from mother to infant, Hong Kong

Abstract

Bibliographical note

ASJC Scopus Subject Areas

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