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Exopolysaccharide from Bifidobacterium longum subsp. longum 35624™ modulates murine allergic airway responses.

  • 2018-09-14
  • Beneficial Microbes 9(5)
    • Elisa Schiavi
    • Stephan Plattner
    • Noelia Rodriguez-Perez
    • Weronika Barcik
    • R. Frei
    • Ruth Ferstl
    • Magdalena Kurnik-Lucka
    • D. Groeger
    • R. Grant
    • Jennifer Roper
    • Friedrich Altmann
    • D. Sinderen
    • C. Akdis
    • Liam O'Mahony

Abstract

Interactions between the host and the microbiota are thought to significantly influence immunological tolerance mechanisms at mucosal sites. We recently described that the loss of an exopolysaccharide (EPS) from Bifidobacterium longum 35624™ eliminated its protective effects in colitis and respiratory allergy murine models. Our goal was to investigate the immune response to purified EPS from B. longum 35624, determine if it has protective effects within the lung and identify the protective mechanisms. Isolated EPS from B. longum 35624 cultures was used for in vitro, ex vivo and in vivo studies. Human monocyte-derived dendritic cells (MDDCs) were used to investigate in vitro immunological responses to EPS. Cytokine secretion, expression of surface markers and signalling pathways were examined. The ovalbumin (OVA) respiratory allergy murine model was used to evaluate the in vivo immunomodulatory potential of EPS. In addition, interleukin (IL)-10 knockout (KO) mice and anti-Toll-like receptor (TLR)-2 blocking antibody were used to examine the underlying protective mechanisms of intranasal EPS administration. Stimulation of human MDDCs with EPS resulted in IL-10 secretion, but not proinflammatory cytokines. IL-10 secretion was TLR-2-dependent. Eosinophil recruitment to the lungs was significantly decreased by EPS intranasal exposure, which was associated with decreased expression of the Th2-associated markers C-C motif chemokine 11 (CCL11), C-C chemokine receptor type 3 (CCR3), IL-4 and IL-13. TLR-2-mediated IL-10 secretion was shown to be required for the reduction in eosinophils and Th2 cytokines. EPS-treatment reduced eosinophil recruitment within the lung in a respiratory inflammation mouse model, which is both TLR-2 and IL-10 mediated. EPS can be considered as a novel molecule potentially reducing the severity of chronic eosinophil-related airway disorders.

Keywords: airway inflammation; bacterial exopolysaccharide; immunomodulation; microbiota.

Research Insights

SupplementHealth OutcomeEffect TypeEffect Size
Bifidobacterium longum subsp. longum 35624Modulated Immune ResponseBeneficial
Moderate
Bifidobacterium longum subsp. longum 35624Reduced Respiratory Inflammation SeverityBeneficial
Moderate
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