In Silico Characterisation of Putative Prophages in Lactobacillaceae Used in Probiotics for Vaginal Health

Anna Ursula Happel; Brian R. Kullin; Hoyam Gamieldien; Heather B. Jaspan; Arvind Varsani; Darren Martin; Jo Ann S. Passmore; Rémy Froissart

doi:10.3390/microorganisms10020214

In Silico Characterisation of Putative Prophages in Lactobacillaceae Used in Probiotics for Vaginal Health

Anna Ursula Happel, Brian R. Kullin, Hoyam Gamieldien, Heather B. Jaspan, Arvind Varsani, Darren Martin, Jo Ann S. Passmore, Rémy Froissart

Research output: Contribution to journal › Article › peer-review

Abstract

While live biotherapeutics offer a promising approach to optimizing vaginal microbiota, the presence of functional prophages within introduced Lactobacillaceae strains could impact their safety and efficacy. We evaluated the presence of prophages in 895 publicly available Lactobacil-laceae genomes using Phaster, Phigaro, Phispy, Prophet and Virsorter. Prophages were identified according to stringent (detected by ≥4 methods) or lenient criteria (detected by ≥2 methods), both with >80% reciprocal sequence overlap. The stringent approach identified 448 prophages within 359 genomes, with 40.1% genomes harbouring at least one prophage, while the lenient approach identified 1671 prophages within 83.7% of the genomes. To confirm our in silico estimates in vitro, we tested for inducible prophages in 57 vaginally-derived and commercial Lactobacillaceae isolates and found inducible prophages in 61.4% of the isolates. We characterised the in silico predicted prophages based on weighted gene repertoire relatedness and found that most belonged to the Siphoviridae or Myoviridae families. ResFam and eggNOG identified four potential antimicrobial resistance genes within the predicted prophages. Our results suggest that while Lactobacillaceae prophages seldomly carry clinically concerning genes and thus unlikely a pose a direct risk to human vaginal microbiomes, their high prevalence warrants the characterisation of Lactobacillaceae prophages in live biotherapeutics.

Original language	English (US)
Article number	214
Journal	Microorganisms
Volume	10
Issue number	2
DOIs	https://doi.org/10.3390/microorganisms10020214
State	Published - Feb 2022
Externally published	Yes

Keywords

Antibiotic resistant genes
Bacteriophages
Genital
Probiotics
Prophages
Virulence factor

ASJC Scopus subject areas

Microbiology
Microbiology (medical)
Virology

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10.3390/microorganisms10020214

Cite this

@article{e4cbbd3538b048b7b9356f2e8ec90fd6,

title = "In Silico Characterisation of Putative Prophages in Lactobacillaceae Used in Probiotics for Vaginal Health",

abstract = "While live biotherapeutics offer a promising approach to optimizing vaginal microbiota, the presence of functional prophages within introduced Lactobacillaceae strains could impact their safety and efficacy. We evaluated the presence of prophages in 895 publicly available Lactobacil-laceae genomes using Phaster, Phigaro, Phispy, Prophet and Virsorter. Prophages were identified according to stringent (detected by ≥4 methods) or lenient criteria (detected by ≥2 methods), both with >80% reciprocal sequence overlap. The stringent approach identified 448 prophages within 359 genomes, with 40.1% genomes harbouring at least one prophage, while the lenient approach identified 1671 prophages within 83.7% of the genomes. To confirm our in silico estimates in vitro, we tested for inducible prophages in 57 vaginally-derived and commercial Lactobacillaceae isolates and found inducible prophages in 61.4% of the isolates. We characterised the in silico predicted prophages based on weighted gene repertoire relatedness and found that most belonged to the Siphoviridae or Myoviridae families. ResFam and eggNOG identified four potential antimicrobial resistance genes within the predicted prophages. Our results suggest that while Lactobacillaceae prophages seldomly carry clinically concerning genes and thus unlikely a pose a direct risk to human vaginal microbiomes, their high prevalence warrants the characterisation of Lactobacillaceae prophages in live biotherapeutics.",

keywords = "Antibiotic resistant genes, Bacteriophages, Genital, Probiotics, Prophages, Virulence factor",

author = "Happel, {Anna Ursula} and Kullin, {Brian R.} and Hoyam Gamieldien and Jaspan, {Heather B.} and Arvind Varsani and Darren Martin and Passmore, {Jo Ann S.} and R{\'e}my Froissart",

note = "Funding Information: Funding: The study was funded by the European and Developing Countries Clinical Trials Partnership (EDCTP) Strategic Primer grant (SP·2011·41304·038 to H.B.J. and J.-A.S.P.), the South African Poliomyelitis Research Foundation (PRF 15/23 to J.-A.S.P.) and NRF-France Protea (UID: 116674 to R.F. and J.-A.S.P.). A.-U.H. received bursaries from the South African Poliomyelitis Research (PRF 15/64) Foundation and National Research Foundation and Postgraduate Publication Incentive funding from the University of Cape Town. A-U.H. is currently supported by an EDCTP Career Development Fellowship (CDF), which is part of the EDCTP2 programme supported by the European Union (grant number TMA2020CDF-3192-VaViBa). The funders had no role the design of the study and collection, analysis and interpretation of data and in writing the manuscript. Funding Information: The study was funded by the European and Developing Countries Clinical Trials Partner-ship (EDCTP) Strategic Primer grant (SP?2011?41304?038 to H.B.J. and J.-A.S.P.), the South African Poliomyelitis Research Foundation (PRF 15/23 to J.-A.S.P.) and NRF-France Protea (UID: 116674 to R.F. and J.-A.S.P.). A.-U.H. received bursaries from the South African Poliomyelitis Research (PRF 15/64) Foundation and National Research Foundation and Postgraduate Publication Incentive funding from the University of Cape Town. A-U.H. is currently supported by an EDCTP Career Development Fellowship (CDF), which is part of the EDCTP2 programme supported by the European Union (grant number TMA2020CDF-3192-VaViBa). The funders had no role the design of the study and collection, analysis and interpretation of data and in writing the manuscript. We thank Mohamed Jaffer from the Electron Microscope Unit, Centre for Imaging and Analysis, University of Cape Town, for his assistance with the TEM, and Eduardo Rocha for suggestions on the manuscript. We are also grateful to all women who donated vaginal swabs. Publisher Copyright: {\textcopyright} 2022 by the authors. Licensee MDPI, Basel, Switzerland.",

year = "2022",

month = feb,

doi = "10.3390/microorganisms10020214",

language = "English (US)",

volume = "10",

journal = "Microorganisms",

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T1 - In Silico Characterisation of Putative Prophages in Lactobacillaceae Used in Probiotics for Vaginal Health

AU - Happel, Anna Ursula

AU - Kullin, Brian R.

AU - Gamieldien, Hoyam

AU - Jaspan, Heather B.

AU - Varsani, Arvind

AU - Martin, Darren

AU - Passmore, Jo Ann S.

AU - Froissart, Rémy

N1 - Funding Information: Funding: The study was funded by the European and Developing Countries Clinical Trials Partnership (EDCTP) Strategic Primer grant (SP·2011·41304·038 to H.B.J. and J.-A.S.P.), the South African Poliomyelitis Research Foundation (PRF 15/23 to J.-A.S.P.) and NRF-France Protea (UID: 116674 to R.F. and J.-A.S.P.). A.-U.H. received bursaries from the South African Poliomyelitis Research (PRF 15/64) Foundation and National Research Foundation and Postgraduate Publication Incentive funding from the University of Cape Town. A-U.H. is currently supported by an EDCTP Career Development Fellowship (CDF), which is part of the EDCTP2 programme supported by the European Union (grant number TMA2020CDF-3192-VaViBa). The funders had no role the design of the study and collection, analysis and interpretation of data and in writing the manuscript. Funding Information: The study was funded by the European and Developing Countries Clinical Trials Partner-ship (EDCTP) Strategic Primer grant (SP?2011?41304?038 to H.B.J. and J.-A.S.P.), the South African Poliomyelitis Research Foundation (PRF 15/23 to J.-A.S.P.) and NRF-France Protea (UID: 116674 to R.F. and J.-A.S.P.). A.-U.H. received bursaries from the South African Poliomyelitis Research (PRF 15/64) Foundation and National Research Foundation and Postgraduate Publication Incentive funding from the University of Cape Town. A-U.H. is currently supported by an EDCTP Career Development Fellowship (CDF), which is part of the EDCTP2 programme supported by the European Union (grant number TMA2020CDF-3192-VaViBa). The funders had no role the design of the study and collection, analysis and interpretation of data and in writing the manuscript. We thank Mohamed Jaffer from the Electron Microscope Unit, Centre for Imaging and Analysis, University of Cape Town, for his assistance with the TEM, and Eduardo Rocha for suggestions on the manuscript. We are also grateful to all women who donated vaginal swabs. Publisher Copyright: © 2022 by the authors. Licensee MDPI, Basel, Switzerland.

PY - 2022/2

Y1 - 2022/2

N2 - While live biotherapeutics offer a promising approach to optimizing vaginal microbiota, the presence of functional prophages within introduced Lactobacillaceae strains could impact their safety and efficacy. We evaluated the presence of prophages in 895 publicly available Lactobacil-laceae genomes using Phaster, Phigaro, Phispy, Prophet and Virsorter. Prophages were identified according to stringent (detected by ≥4 methods) or lenient criteria (detected by ≥2 methods), both with >80% reciprocal sequence overlap. The stringent approach identified 448 prophages within 359 genomes, with 40.1% genomes harbouring at least one prophage, while the lenient approach identified 1671 prophages within 83.7% of the genomes. To confirm our in silico estimates in vitro, we tested for inducible prophages in 57 vaginally-derived and commercial Lactobacillaceae isolates and found inducible prophages in 61.4% of the isolates. We characterised the in silico predicted prophages based on weighted gene repertoire relatedness and found that most belonged to the Siphoviridae or Myoviridae families. ResFam and eggNOG identified four potential antimicrobial resistance genes within the predicted prophages. Our results suggest that while Lactobacillaceae prophages seldomly carry clinically concerning genes and thus unlikely a pose a direct risk to human vaginal microbiomes, their high prevalence warrants the characterisation of Lactobacillaceae prophages in live biotherapeutics.

AB - While live biotherapeutics offer a promising approach to optimizing vaginal microbiota, the presence of functional prophages within introduced Lactobacillaceae strains could impact their safety and efficacy. We evaluated the presence of prophages in 895 publicly available Lactobacil-laceae genomes using Phaster, Phigaro, Phispy, Prophet and Virsorter. Prophages were identified according to stringent (detected by ≥4 methods) or lenient criteria (detected by ≥2 methods), both with >80% reciprocal sequence overlap. The stringent approach identified 448 prophages within 359 genomes, with 40.1% genomes harbouring at least one prophage, while the lenient approach identified 1671 prophages within 83.7% of the genomes. To confirm our in silico estimates in vitro, we tested for inducible prophages in 57 vaginally-derived and commercial Lactobacillaceae isolates and found inducible prophages in 61.4% of the isolates. We characterised the in silico predicted prophages based on weighted gene repertoire relatedness and found that most belonged to the Siphoviridae or Myoviridae families. ResFam and eggNOG identified four potential antimicrobial resistance genes within the predicted prophages. Our results suggest that while Lactobacillaceae prophages seldomly carry clinically concerning genes and thus unlikely a pose a direct risk to human vaginal microbiomes, their high prevalence warrants the characterisation of Lactobacillaceae prophages in live biotherapeutics.

KW - Antibiotic resistant genes

KW - Bacteriophages

KW - Genital

KW - Probiotics

KW - Prophages

KW - Virulence factor

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DO - 10.3390/microorganisms10020214

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VL - 10

JO - Microorganisms

JF - Microorganisms

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ER -

In Silico Characterisation of Putative Prophages in Lactobacillaceae Used in Probiotics for Vaginal Health

Abstract

Keywords

ASJC Scopus subject areas

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