Antibodies against S cerevisiae

have been shown to be di

Antibodies against S. cerevisiae

have been shown to be disease marker for Crohn’s disease (CD) [151], possibly indicating that fungi could play a role in the aberrant immune responses in IBD [152]. A few studies have been conducted to examine fungal community dysbiosis in chronic disease, including that in IBD [16, 153]. Fungal diversity in the large intestine of patients with CD is higher than that seen in healthy subjects [16]. The study of the mycobiome in a murine model of induced colitis highlighted MK-8669 the importance of the gut mycobiota in contributing to the boost in intestinal inflammation seen upon dextran sodium sulfate (DSS) treatment [152], with a marked increase in the abundance of C. tropicalis observed during active colitis. These studies are the first steps toward clarifying the role of the gut mycobiota MAPK inhibitor in intestinal inflammation, and may help explain the increased serum levels of anti-S. cerevisiae antibodies in CD patients [151]. A number of other opportunistic infections are generally ascribed to defective host immunity but may require specific

microbial population dysbiosis [153]. Longitudinal molecular typing studies indicate that disseminated C. albicans infections originate from an individual’s own commensal strains [154], and the transition to virulence is generally thought to reflect impaired host immunity. However, recent data indicate

that the ability of a commensal organism to produce disease is not merely a consequence of impaired host immunity. Suzanne Noble and colleagues [155] showed that the opportunistic pathogen C. albicans can enter a specific, regulated commensal state called GUT (gastrointestinally induced transition) in the host intestine. Candida albicans in the GUT state have a unique phenotype that promotes carriage in the gut in Clomifene a benign state, in which virulence-associated genes, such as the white-opaque switching and hyphal formation genes, are downregulated, enabling fungal adaptation for long-term survival in the large intestine [155]. Nevertheless, GUT cells can promote pathogenesis when host immunity is impaired. These new findings suggest that more attention will be directed toward understanding fungal persistence, colonization, and commensalisms — processes that may have evolved over many thousands of years of coevolution within the human host. Diet is a constant and dynamic factor shaping mucosal immunity as well as the composition of resident microbial populations in the gut. To maintain gut homeostasis, immune cells must sample Ags from the intestinal lumen and deliver them to lymph nodes for presentation to T cells (Fig. 1). In the lymph nodes, CX3CR1+ macrophages and CD103+ DCs collaborate in a fascinating way to capture soluble food Ags [156] and induce oral tolerance.

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