In the Atm−/− mouse model of ataxia-telengiectasia, the variation

In the Atm−/− mouse model of ataxia-telengiectasia, the variation in intestinal microbiota due to either differences in the environments of various animal selleck screening library facilities or to experimentally induced modifications was shown to profoundly modify lymphoma incidence and

survival of the mice [164]. The intestinal microbiota appears to affect carcinogenesis in distant organs, in part by modulating the tumor necrosis factor (TNF) dependent systemic inflammatory tone, oxidative stress, and leukocyte or epithelial cell genotoxicity [161, 162, 164, 165]. Dysbiosis or antibiotics treatment could alter the ability of the microbiota to metabolize estrogens, an activity that has been inferred to be a possible noninflammatory

mechanism by which the microbiota modulates distant malignancies [137]. However, unlike the induction of mammary carcinoma in APCmin/+/Rag2−/− mice by H. hepaticus, the evidence for an association between antibiotics usage and breast cancer in humans remains tenuous [166]. Recently, it has also been shown in mice that the overgrowth of fungal Candida species due to antibiotics treatment-driven gut dysbiosis Panobinostat increases plasma prostaglandin E2 concentrations and M2 macrophage polarization in the lung [41]. Although this effect of antibiotics treatment has been evaluated in terms of induction of allergic airway inflammation [41], one may speculate that the induction of tumor-promoting M2 macrophages indirectly via antibiotics treatment may also play a role in tumor progression. In recent murine studies, the gut microbiota has been shown to affect the response to both immune and chemotherapy by regulating different myeloid-derived cell functions in the tumor microenvironment. Intratumoral CpG-oligodeoxynucleotides (ODN) immunotherapy PAK5 combined with antibody neutralization of IL-10 signaling effectively

treats sterile transplanted subcutaneous tumors in conventional mice, but not in GF or antibiotic-treated mice [22]. This treatment induces, within hours, extensive hemorrhagic tumor necrosis that is dependent on TNF and NO production by tumor-associated innate myeloid cells, followed by CD40-mediated DC activation, IL-12 production, and the generation of a CD8+ T-cell-mediated tumor-specific adaptive immunity required for persistent tumor eradication [167]. In the absence of gut commensal microbiota, however, the tumor-infiltrating myeloid-derived cells recruited after CpG-ODN treatment have impaired production of various inflammatory cytokines, including TNF and IL-12 [22] (Fig. 2).

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