Adaptive response of neonatal sepsis-derived Group B Streptococcus to bilirubin
Hyperbilirubinemia is so common in newborns as to be termed physiological. The most common bacteria involved in early-onset neonatal sepsis are Streptococcus agalactiae , commonly called Group B Streptococcus (GBS). Whilst previous studies show bilirubin has antioxidant properties and is beneficial...
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Published in | Scientific reports Vol. 8; no. 1; pp. 6470 - 10 |
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Main Authors | , , , , , , , , , , |
Format | Journal Article |
Language | English |
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Nature Publishing Group UK
24.04.2018
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Abstract | Hyperbilirubinemia is so common in newborns as to be termed physiological. The most common bacteria involved in early-onset neonatal sepsis are
Streptococcus agalactiae
, commonly called Group B
Streptococcus
(GBS). Whilst previous studies show bilirubin has antioxidant properties and is beneficial in endotoxic shock, little thought has been given to whether bilirubin might have antibacterial properties. In this study, we performed a transcriptomic and proteomic assessment of GBS cultured in the presence/absence of bilirubin. Our analysis revealed that increasing levels of bilirubin (>100 µmol/L) negatively correlated with GBS growth (18% reduction from 0–400 µmol/L on plate model, p < 0.001; 33% reduction from 0–100 µmol/L in liquid model, p = 0.02). Transcriptome analysis demonstrated 19 differentially expressed genes, almost exclusively up-regulated in the presence of bilirubin. Proteomic analysis identified 12 differentially expressed proteins, half over-expressed in the presence of bilirubin. Functional analysis using Gene Ontology and KEGG pathways
18
revealed a differential expression of genes involved in transport and carbohydrate metabolism, suggesting bilirubin may impact on substrate utilisation. The data improve our understanding of the mechanisms modulating GBS survival in neonatal hyperbilirubinemia and suggest physiological jaundice may have an evolutionary role in protection against early-onset neonatal sepsis. |
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AbstractList | Hyperbilirubinemia is so common in newborns as to be termed physiological. The most common bacteria involved in early-onset neonatal sepsis are
Streptococcus agalactiae
, commonly called Group B
Streptococcus
(GBS). Whilst previous studies show bilirubin has antioxidant properties and is beneficial in endotoxic shock, little thought has been given to whether bilirubin might have antibacterial properties. In this study, we performed a transcriptomic and proteomic assessment of GBS cultured in the presence/absence of bilirubin. Our analysis revealed that increasing levels of bilirubin (>100 µmol/L) negatively correlated with GBS growth (18% reduction from 0–400 µmol/L on plate model, p < 0.001; 33% reduction from 0–100 µmol/L in liquid model, p = 0.02). Transcriptome analysis demonstrated 19 differentially expressed genes, almost exclusively up-regulated in the presence of bilirubin. Proteomic analysis identified 12 differentially expressed proteins, half over-expressed in the presence of bilirubin. Functional analysis using Gene Ontology and KEGG pathways
18
revealed a differential expression of genes involved in transport and carbohydrate metabolism, suggesting bilirubin may impact on substrate utilisation. The data improve our understanding of the mechanisms modulating GBS survival in neonatal hyperbilirubinemia and suggest physiological jaundice may have an evolutionary role in protection against early-onset neonatal sepsis. Hyperbilirubinemia is so common in newborns as to be termed physiological. The most common bacteria involved in early-onset neonatal sepsis are Streptococcus agalactiae , commonly called Group B Streptococcus (GBS). Whilst previous studies show bilirubin has antioxidant properties and is beneficial in endotoxic shock, little thought has been given to whether bilirubin might have antibacterial properties. In this study, we performed a transcriptomic and proteomic assessment of GBS cultured in the presence/absence of bilirubin. Our analysis revealed that increasing levels of bilirubin (>100 µmol/L) negatively correlated with GBS growth (18% reduction from 0–400 µmol/L on plate model, p < 0.001; 33% reduction from 0–100 µmol/L in liquid model, p = 0.02). Transcriptome analysis demonstrated 19 differentially expressed genes, almost exclusively up-regulated in the presence of bilirubin. Proteomic analysis identified 12 differentially expressed proteins, half over-expressed in the presence of bilirubin. Functional analysis using Gene Ontology and KEGG pathways 18 revealed a differential expression of genes involved in transport and carbohydrate metabolism, suggesting bilirubin may impact on substrate utilisation. The data improve our understanding of the mechanisms modulating GBS survival in neonatal hyperbilirubinemia and suggest physiological jaundice may have an evolutionary role in protection against early-onset neonatal sepsis. Hyperbilirubinemia is so common in newborns as to be termed physiological. The most common bacteria involved in early-onset neonatal sepsis are Streptococcus agalactiae, commonly called Group B Streptococcus (GBS). Whilst previous studies show bilirubin has antioxidant properties and is beneficial in endotoxic shock, little thought has been given to whether bilirubin might have antibacterial properties. In this study, we performed a transcriptomic and proteomic assessment of GBS cultured in the presence/absence of bilirubin. Our analysis revealed that increasing levels of bilirubin (>100 µmol/L) negatively correlated with GBS growth (18% reduction from 0-400 µmol/L on plate model, p < 0.001; 33% reduction from 0-100 µmol/L in liquid model, p = 0.02). Transcriptome analysis demonstrated 19 differentially expressed genes, almost exclusively up-regulated in the presence of bilirubin. Proteomic analysis identified 12 differentially expressed proteins, half over-expressed in the presence of bilirubin. Functional analysis using Gene Ontology and KEGG pathways revealed a differential expression of genes involved in transport and carbohydrate metabolism, suggesting bilirubin may impact on substrate utilisation. The data improve our understanding of the mechanisms modulating GBS survival in neonatal hyperbilirubinemia and suggest physiological jaundice may have an evolutionary role in protection against early-onset neonatal sepsis. Hyperbilirubinemia is so common in newborns as to be termed physiological. The most common bacteria involved in early-onset neonatal sepsis are Streptococcus agalactiae, commonly called Group B Streptococcus (GBS). Whilst previous studies show bilirubin has antioxidant properties and is beneficial in endotoxic shock, little thought has been given to whether bilirubin might have antibacterial properties. In this study, we performed a transcriptomic and proteomic assessment of GBS cultured in the presence/absence of bilirubin. Our analysis revealed that increasing levels of bilirubin (>100 µmol/L) negatively correlated with GBS growth (18% reduction from 0–400 µmol/L on plate model, p < 0.001; 33% reduction from 0–100 µmol/L in liquid model, p = 0.02). Transcriptome analysis demonstrated 19 differentially expressed genes, almost exclusively up-regulated in the presence of bilirubin. Proteomic analysis identified 12 differentially expressed proteins, half over-expressed in the presence of bilirubin. Functional analysis using Gene Ontology and KEGG pathways18 revealed a differential expression of genes involved in transport and carbohydrate metabolism, suggesting bilirubin may impact on substrate utilisation. The data improve our understanding of the mechanisms modulating GBS survival in neonatal hyperbilirubinemia and suggest physiological jaundice may have an evolutionary role in protection against early-onset neonatal sepsis. |
ArticleNumber | 6470 |
Author | El-Omar, Emad MacLaren, Andrew Collie-Duguid, Elaina S. R. Karcher, Anne Marie Munro, Mike Hansen, Richard De paiva Alves, Eduardo Berry, Susan Hold, Georgina L. Gibson, Sophie Goddard, Mark |
Author_xml | – sequence: 1 givenname: Richard orcidid: 0000-0002-3944-6646 surname: Hansen fullname: Hansen, Richard email: richard.hansen@nhs.net organization: Department of Paediatric Gastroenterology, Royal Hospital for Children, Gastrointestinal Research Group, School of Medicine, Medical Sciences and Nutrition, University of Aberdeen, Foresterhill, Neonatal Unit, Aberdeen Maternity Hospital, Foresterhill – sequence: 2 givenname: Sophie surname: Gibson fullname: Gibson, Sophie organization: Gastrointestinal Research Group, School of Medicine, Medical Sciences and Nutrition, University of Aberdeen, Foresterhill – sequence: 3 givenname: Eduardo surname: De paiva Alves fullname: De paiva Alves, Eduardo organization: Centre for Genome Enabled Biology and Medicine, University of Aberdeen, 23 St Machar Drive – sequence: 4 givenname: Mark surname: Goddard fullname: Goddard, Mark organization: Gastrointestinal Research Group, School of Medicine, Medical Sciences and Nutrition, University of Aberdeen, Foresterhill – sequence: 5 givenname: Andrew surname: MacLaren fullname: MacLaren, Andrew organization: Neonatal Unit, Aberdeen Maternity Hospital, Foresterhill – sequence: 6 givenname: Anne Marie surname: Karcher fullname: Karcher, Anne Marie organization: Department of Medical Microbiology, Aberdeen Royal Infirmary, Foresterhill – sequence: 7 givenname: Susan surname: Berry fullname: Berry, Susan organization: Gastrointestinal Research Group, School of Medicine, Medical Sciences and Nutrition, University of Aberdeen, Foresterhill – sequence: 8 givenname: Elaina S. R. orcidid: 0000-0002-7511-4139 surname: Collie-Duguid fullname: Collie-Duguid, Elaina S. R. organization: Centre for Genome Enabled Biology and Medicine, University of Aberdeen, 23 St Machar Drive – sequence: 9 givenname: Emad surname: El-Omar fullname: El-Omar, Emad organization: St George and Sutherland Clinical School, University of New South Wales – sequence: 10 givenname: Mike surname: Munro fullname: Munro, Mike organization: Neonatal Unit, Aberdeen Maternity Hospital, Foresterhill – sequence: 11 givenname: Georgina L. orcidid: 0000-0001-7573-3397 surname: Hold fullname: Hold, Georgina L. email: georgina.hold@unsw.edu.au organization: Gastrointestinal Research Group, School of Medicine, Medical Sciences and Nutrition, University of Aberdeen, Foresterhill, St George and Sutherland Clinical School, University of New South Wales |
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CitedBy_id | crossref_primary_10_1542_peds_2018_3696 crossref_primary_10_1055_s_0040_1702936 crossref_primary_10_1542_peds_2022_057988 crossref_primary_10_1016_j_jiac_2021_01_008 crossref_primary_10_1542_peds_2022_057989 crossref_primary_10_1136_thoraxjnl_2020_214756 crossref_primary_10_15690_vsp_v22i6_2656 crossref_primary_10_3389_fphar_2021_567001 crossref_primary_10_1016_j_clp_2023_04_003 crossref_primary_10_7189_jogh_13_06025 crossref_primary_10_1002_hep_30824 crossref_primary_10_1016_j_jhep_2021_10_015 crossref_primary_10_3389_fcvm_2022_872172 crossref_primary_10_1002_ijch_201800167 |
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Snippet | Hyperbilirubinemia is so common in newborns as to be termed physiological. The most common bacteria involved in early-onset neonatal sepsis are
Streptococcus... Hyperbilirubinemia is so common in newborns as to be termed physiological. The most common bacteria involved in early-onset neonatal sepsis are Streptococcus... |
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SubjectTerms | 631/326/107 692/308/2778 692/308/3187 82 82/29 82/81 Age Antioxidants Bilirubin Carbohydrate metabolism Endotoxemia Gene expression Humanities and Social Sciences Hyperbilirubinemia Jaundice multidisciplinary Neonates Physiology Proteomics Science Science (multidisciplinary) Sepsis Shock Streptococcus Streptococcus infections |
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Title | Adaptive response of neonatal sepsis-derived Group B Streptococcus to bilirubin |
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