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Microbial mannan inhibits bacterial killing by macrophages: a possible pathogenic mechanism for Crohn's disease.

Gastroenterology (2007-10-09)
Chiedzo M Mpofu, Barry J Campbell, Sreedhar Subramanian, Stuart Marshall-Clarke, C Anthony Hart, Andy Cross, Carol L Roberts, Adrian McGoldrick, Steven W Edwards, Jonathan M Rhodes
RÉSUMÉ

Crohn's disease (CD) is mimicked by inherited phagocyte disorders and is associated with circulating antibodies against yeast mannan (anti-Saccharomyces cerevisiae antibody; ASCA). We speculated that mannans might impair phagocyte function. S cerevisiae mannan was assessed for its effects on human peripheral blood neutrophils, adherent monocytes, and monocyte-derived macrophages (MDM). Mannan caused dose-related increased survival of CD Escherichia coli HM605 within adherent monocytes from 24% +/- 10.5% (control) to 114% +/- 22.7% with mannan 1 mg/mL at 2 hours (mean +/- SEM, n = 9; P = .0002). Electron microscopy showed E coli HM605 surviving and probably replicating within macrophage vesicles. Mannan (1 mg/mL) inhibited the respiratory burst in neutrophils and monocytes (both P = .002) and bacterial killing within MDM (P < .001). E coli survival was increased within macrophages from TLR4(-/-) (126% +/- 3.5% survival at 2 hours) and MyD88(-/-) (134.8% +/- 6.5%) mice compared with wild-type mice (both P < .0001). Mannan had no additional effect, showing that TLR4 and MyD88 are involved in bacterial killing by macrophages and its inhibition by mannan. Putative CD-associated micro-organisms were screened for the ASCA mannan epitope by Galanthus nivalis lectin (GNA) blotting. ASCA epitope was expressed by Candida albicans and Mycobacterium paratuberculosis but not by Mycobacterium tuberculosis or E coli. Supernatants from M paratuberculosis culture inhibited killing of E coli HM605 by adherent human monocytes and murine macrophages. The inhibitory activity was removed by GNA-affinity chromatography. Suppression of mucosal phagocyte function by microbial mannans, possibly of Mycobacterial origin, may contribute to CD pathogenesis.

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4-Aminophthalhydrazide