Phage Targeting Neonatal Meningitis IE. coli/I K1 In Vitro in the Intestinal Microbiota of Pregnant Donors and Impact on Bacterial Populations

Escherichia coli K1 is a leading cause of neonatal meningitis. The asymptomatic carriage of these strains in the maternal intestinal microbiota constitutes a risk of vertical transmission to the infant at birth. The aim of this work was to evaluate the efficacy of phage therapy against E. coli K1 in...

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Published in:International journal of molecular sciences 2023-06, Vol.24 (13)
Main Authors: Antoine, Céline, Laforêt, Fanny, Goya-Jorge, Elizabeth, Gonza, Irma, Lebrun, Sarah, Douny, Caroline, Duprez, Jean-Noël, Fall, Abdoulaye, Taminiau, Bernard, Scippo, Marie-Louise, Daube, Georges, Thiry, Damien, Delcenserie, Véronique
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Language:English
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Analysis
Infants (Newborn)
Meningitis
Microbiota (Symbiotic organisms)
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container_issue 13
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container_title International journal of molecular sciences
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creator Antoine, Céline
Laforêt, Fanny
Goya-Jorge, Elizabeth
Gonza, Irma
Lebrun, Sarah
Douny, Caroline
Duprez, Jean-Noël
Fall, Abdoulaye
Taminiau, Bernard
Scippo, Marie-Louise
Daube, Georges
Thiry, Damien
Delcenserie, Véronique
description Escherichia coli K1 is a leading cause of neonatal meningitis. The asymptomatic carriage of these strains in the maternal intestinal microbiota constitutes a risk of vertical transmission to the infant at birth. The aim of this work was to evaluate the efficacy of phage therapy against E. coli K1 in an intestinal environment and its impact on the intestinal microbiota. For this purpose, three independent experiments were conducted on the SHIME® system, the first one with only the phage vB_EcoP_K1_ULINTec4, the second experiment with only E. coli K1 and the last experiment with both E. coli K1 and the phage. Microbiota monitoring was performed using metagenetics, qPCR, SCFA analysis and the induction of AhR. The results showed that phage vB_EcoP_K1_ULINTec4, inoculated alone, was progressively cleared by the system and replicates in the presence of its host. E. coli K1 persisted in the microbiota but decreased in the presence of the phage. The impact on the microbiota was revealed to be donor dependent, and the bacterial populations were not dramatically affected by vB_K1_ULINTec4, either alone or with its host. In conclusion, these experiments showed that the phage was able to infect the E. coli K1 in the system but did not completely eliminate the bacterial load.
doi_str_mv 10.3390/ijms241310580
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The asymptomatic carriage of these strains in the maternal intestinal microbiota constitutes a risk of vertical transmission to the infant at birth. The aim of this work was to evaluate the efficacy of phage therapy against E. coli K1 in an intestinal environment and its impact on the intestinal microbiota. For this purpose, three independent experiments were conducted on the SHIME® system, the first one with only the phage vB_EcoP_K1_ULINTec4, the second experiment with only E. coli K1 and the last experiment with both E. coli K1 and the phage. Microbiota monitoring was performed using metagenetics, qPCR, SCFA analysis and the induction of AhR. The results showed that phage vB_EcoP_K1_ULINTec4, inoculated alone, was progressively cleared by the system and replicates in the presence of its host. E. coli K1 persisted in the microbiota but decreased in the presence of the phage. The impact on the microbiota was revealed to be donor dependent, and the bacterial populations were not dramatically affected by vB_K1_ULINTec4, either alone or with its host. 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The asymptomatic carriage of these strains in the maternal intestinal microbiota constitutes a risk of vertical transmission to the infant at birth. The aim of this work was to evaluate the efficacy of phage therapy against E. coli K1 in an intestinal environment and its impact on the intestinal microbiota. For this purpose, three independent experiments were conducted on the SHIME® system, the first one with only the phage vB_EcoP_K1_ULINTec4, the second experiment with only E. coli K1 and the last experiment with both E. coli K1 and the phage. Microbiota monitoring was performed using metagenetics, qPCR, SCFA analysis and the induction of AhR. The results showed that phage vB_EcoP_K1_ULINTec4, inoculated alone, was progressively cleared by the system and replicates in the presence of its host. E. coli K1 persisted in the microbiota but decreased in the presence of the phage. 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subjects Analysis
Infants (Newborn)
Meningitis
Microbiota (Symbiotic organisms)
title Phage Targeting Neonatal Meningitis IE. coli/I K1 In Vitro in the Intestinal Microbiota of Pregnant Donors and Impact on Bacterial Populations
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