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High-resolution mycobiota analysis reveals dynamic intestinal translocation preceding invasive candidiasis

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High-resolution mycobiota analysis reveals dynamic intestinal translocation preceding invasive candidiasis. / Zhai, Bing; Ola, Mihaela; Rolling, Thierry; Tosini, Nicholas L; Joshowitz, Sari; Littmann, Eric R; Amoretti, Luigi A; Fontana, Emily; Wright, Roberta J; Miranda, Edwin; Veelken, Charlotte A; Morjaria, Sejal M; Peled, Jonathan U; van den Brink, Marcel R M; Babady, N Esther; Butler, Geraldine; Taur, Ying; Hohl, Tobias M.

In: NAT MED, Vol. 26, No. 1, 01.2020, p. 59-64.

Research output: SCORING: Contribution to journalSCORING: Journal articleResearchpeer-review

Harvard

Zhai, B, Ola, M, Rolling, T, Tosini, NL, Joshowitz, S, Littmann, ER, Amoretti, LA, Fontana, E, Wright, RJ, Miranda, E, Veelken, CA, Morjaria, SM, Peled, JU, van den Brink, MRM, Babady, NE, Butler, G, Taur, Y & Hohl, TM 2020, 'High-resolution mycobiota analysis reveals dynamic intestinal translocation preceding invasive candidiasis', NAT MED, vol. 26, no. 1, pp. 59-64. https://doi.org/10.1038/s41591-019-0709-7

APA

Zhai, B., Ola, M., Rolling, T., Tosini, N. L., Joshowitz, S., Littmann, E. R., Amoretti, L. A., Fontana, E., Wright, R. J., Miranda, E., Veelken, C. A., Morjaria, S. M., Peled, J. U., van den Brink, M. R. M., Babady, N. E., Butler, G., Taur, Y., & Hohl, T. M. (2020). High-resolution mycobiota analysis reveals dynamic intestinal translocation preceding invasive candidiasis. NAT MED, 26(1), 59-64. https://doi.org/10.1038/s41591-019-0709-7

Vancouver

Zhai B, Ola M, Rolling T, Tosini NL, Joshowitz S, Littmann ER et al. High-resolution mycobiota analysis reveals dynamic intestinal translocation preceding invasive candidiasis. NAT MED. 2020 Jan;26(1):59-64. https://doi.org/10.1038/s41591-019-0709-7

Bibtex

@article{9cf1641a7b914ffdb2a59b2745bfb8dc,
title = "High-resolution mycobiota analysis reveals dynamic intestinal translocation preceding invasive candidiasis",
abstract = "The intestinal microbiota is a complex community of bacteria, archaea, viruses, protists and fungi1,2. Although the composition of bacterial constituents has been linked to immune homeostasis and infectious susceptibility3-7, the role of non-bacterial constituents and cross-kingdom microbial interactions in these processes is poorly understood2,8. Fungi represent a major cause of infectious morbidity and mortality in immunocompromised individuals, although the relationship of intestinal fungi (that is, the mycobiota) with fungal bloodstream infections remains undefined9. We integrated an optimized bioinformatics pipeline with high-resolution mycobiota sequencing and comparative genomic analyses of fecal and blood specimens from recipients of allogeneic hematopoietic cell transplant. Patients with Candida bloodstream infection experienced a prior marked intestinal expansion of pathogenic Candida species; this expansion consisted of a complex dynamic between multiple species and subspecies with a stochastic translocation pattern into the bloodstream. The intestinal expansion of pathogenic Candida spp. was associated with a substantial loss in bacterial burden and diversity, particularly in the anaerobes. Thus, simultaneous analysis of intestinal fungi and bacteria identifies dysbiosis states across kingdoms that may promote fungal translocation and facilitate invasive disease. These findings support microbiota-driven approaches to identify patients at risk of fungal bloodstream infections for pre-emptive therapeutic intervention.",
author = "Bing Zhai and Mihaela Ola and Thierry Rolling and Tosini, {Nicholas L} and Sari Joshowitz and Littmann, {Eric R} and Amoretti, {Luigi A} and Emily Fontana and Wright, {Roberta J} and Edwin Miranda and Veelken, {Charlotte A} and Morjaria, {Sejal M} and Peled, {Jonathan U} and {van den Brink}, {Marcel R M} and Babady, {N Esther} and Geraldine Butler and Ying Taur and Hohl, {Tobias M}",
year = "2020",
month = jan,
doi = "10.1038/s41591-019-0709-7",
language = "English",
volume = "26",
pages = "59--64",
journal = "NAT MED",
issn = "1078-8956",
publisher = "NATURE PUBLISHING GROUP",
number = "1",

}

RIS

TY - JOUR

T1 - High-resolution mycobiota analysis reveals dynamic intestinal translocation preceding invasive candidiasis

AU - Zhai, Bing

AU - Ola, Mihaela

AU - Rolling, Thierry

AU - Tosini, Nicholas L

AU - Joshowitz, Sari

AU - Littmann, Eric R

AU - Amoretti, Luigi A

AU - Fontana, Emily

AU - Wright, Roberta J

AU - Miranda, Edwin

AU - Veelken, Charlotte A

AU - Morjaria, Sejal M

AU - Peled, Jonathan U

AU - van den Brink, Marcel R M

AU - Babady, N Esther

AU - Butler, Geraldine

AU - Taur, Ying

AU - Hohl, Tobias M

PY - 2020/1

Y1 - 2020/1

N2 - The intestinal microbiota is a complex community of bacteria, archaea, viruses, protists and fungi1,2. Although the composition of bacterial constituents has been linked to immune homeostasis and infectious susceptibility3-7, the role of non-bacterial constituents and cross-kingdom microbial interactions in these processes is poorly understood2,8. Fungi represent a major cause of infectious morbidity and mortality in immunocompromised individuals, although the relationship of intestinal fungi (that is, the mycobiota) with fungal bloodstream infections remains undefined9. We integrated an optimized bioinformatics pipeline with high-resolution mycobiota sequencing and comparative genomic analyses of fecal and blood specimens from recipients of allogeneic hematopoietic cell transplant. Patients with Candida bloodstream infection experienced a prior marked intestinal expansion of pathogenic Candida species; this expansion consisted of a complex dynamic between multiple species and subspecies with a stochastic translocation pattern into the bloodstream. The intestinal expansion of pathogenic Candida spp. was associated with a substantial loss in bacterial burden and diversity, particularly in the anaerobes. Thus, simultaneous analysis of intestinal fungi and bacteria identifies dysbiosis states across kingdoms that may promote fungal translocation and facilitate invasive disease. These findings support microbiota-driven approaches to identify patients at risk of fungal bloodstream infections for pre-emptive therapeutic intervention.

AB - The intestinal microbiota is a complex community of bacteria, archaea, viruses, protists and fungi1,2. Although the composition of bacterial constituents has been linked to immune homeostasis and infectious susceptibility3-7, the role of non-bacterial constituents and cross-kingdom microbial interactions in these processes is poorly understood2,8. Fungi represent a major cause of infectious morbidity and mortality in immunocompromised individuals, although the relationship of intestinal fungi (that is, the mycobiota) with fungal bloodstream infections remains undefined9. We integrated an optimized bioinformatics pipeline with high-resolution mycobiota sequencing and comparative genomic analyses of fecal and blood specimens from recipients of allogeneic hematopoietic cell transplant. Patients with Candida bloodstream infection experienced a prior marked intestinal expansion of pathogenic Candida species; this expansion consisted of a complex dynamic between multiple species and subspecies with a stochastic translocation pattern into the bloodstream. The intestinal expansion of pathogenic Candida spp. was associated with a substantial loss in bacterial burden and diversity, particularly in the anaerobes. Thus, simultaneous analysis of intestinal fungi and bacteria identifies dysbiosis states across kingdoms that may promote fungal translocation and facilitate invasive disease. These findings support microbiota-driven approaches to identify patients at risk of fungal bloodstream infections for pre-emptive therapeutic intervention.

U2 - 10.1038/s41591-019-0709-7

DO - 10.1038/s41591-019-0709-7

M3 - SCORING: Journal article

C2 - 31907459

VL - 26

SP - 59

EP - 64

JO - NAT MED

JF - NAT MED

SN - 1078-8956

IS - 1

ER -