Gene Networks Underlying the Resistance of Bifidobacterium longum to Inflammatory Factors

Gene Networks Underlying the Resistance of Bifidobacterium longum to Inflammatory Factors

As permanent residents of the normal gut microbiota, bifidobacteria have evolved to adapt to the host's immune response whose priority is to eliminate pathogenic agents. The mechanisms that ensure the survival of commensals during inflammation and maintain the stability of the core component of...

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Published in:Frontiers in immunology Vol. 11; p. 595877
Main Authors: Veselovsky, Vladimir A, Dyachkova, Marina S, Menyaylo, Egor A, Polyaeva, Polina S, Olekhnovich, Evgenii I, Shitikov, Egor A, Bespiatykh, Dmitry A, Semashko, Tatiana A, Kasianov, Artem S, Ilina, Elena N, Danilenko, Valeriy N, Klimina, Ksenia M
Format: Journal Article
Language:English
Published: Switzerland Frontiers Media S.A 16-11-2020
Subjects:
Bifidobacterium longum
Immunology
inflammatory process
pro-inflammatory cytokines
RNA sequencing
transcription start site
transcriptome
RNA sequencing
Bifidobacterium longum
inflammatory process
pro-inflammatory cytokines
transcriptome
transcription start site
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Summary:As permanent residents of the normal gut microbiota, bifidobacteria have evolved to adapt to the host's immune response whose priority is to eliminate pathogenic agents. The mechanisms that ensure the survival of commensals during inflammation and maintain the stability of the core component of the normal gut microbiota in such conditions remain poorly understood. We propose a new approach to study the mechanisms of resistance to immune response factors based on high-throughput sequencing followed by transcriptome analysis. This approach allowed us to detect differentially expressed genes associated with inflammation. In this study, we demonstrated that the presence of the pro-inflammatory cytokines IL-6 and TNFα to the growth medium of the GT15 strain changes the latter's growth rate insignificantly while affecting the expression of certain genes. We identified these genes and performed a COG and a KEGG pathway enrichment analysis. Using phylogenetic profiling we predicted the operons of genes whose expression was triggered by the cytokines TNFα and IL-6 . By mapping the transcription start points, we experimentally validated the predicted operons. Thus, in this study, we predicted the genes involved in a putative signaling pathway underlying the mechanisms of resistance to inflammatory factors in bifidobacteria. Since bifidobacteria are a major component of the human intestinal microbiota exhibiting pronounced anti-inflammatory properties, this study is of great practical and scientific relevance.
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This article was submitted to Microbial Immunology, a section of the journal Frontiers in Immunology
Edited by: Marina De Bernard, University of Padua, Italy
Reviewed by: Mary Catherine O’Connell Motherway, University College Cork, Ireland; Jonathan Hansen, University of North Carolina at Chapel Hill, United States
These authors have contributed equally to this work
ISSN:1664-3224
1664-3224
DOI:10.3389/fimmu.2020.595877