Reactive oxygen species (ROS) are generated as by-products of respiration and are used as signal transducing intermediates in out-in signaling pathways. ROS are also generated during inflammatory responses and it has been shown that hydrogen peroxide may trigger activation of B-lymphocytes, similar to cross-linking of surface immunoglobulins. On the other hand, both exogenous and endogenous generated ROS are a major source of nuclear and mitochondrial DNA (mtDNA) damage. The base excision repair (BER) enzyme APE/Ref-1 normally repairs small nuclear DNA lesion such as oxidized or alkylated bases. It is not clear though whether DNA repair mechanisms able to abolish oxidative damage from nuclear DNA are present into mitochondria too. Here we show by confocal microscopy and Western blot analysis that in the B-lymphocyte Raji cell line a fraction of APE/Ref-1 rapidly re-localizes into mitochondria following H(2)O(2) activation. Targeting of APE/Ref-1 to mitochondria is not associated with cytochrome-c loss or apoptosis induction. These findings indicate that the APE/Ref-1 translocates to mitochondria in response to oxidative stress and thereby it might exert a protective function.
The discovery of B cell subsets with regulatory properties, dependent on IL-10 production, has expanded our view on the mechanisms that control inflammation. Regulatory B cells acquire the ability to produce IL-10 in a stepwise process: first, they become IL-10 competent, a poised state in which B cells are sensitive to trigger signals but do not actually express the Il-10 gene; then, when exposed to appropriate stimuli, they start producing IL-10. Even if the existence of IL-10–competent B cells is now well established, it is not yet known how different immune cell types cross talk with B cells and affect IL-10–competent B cell differentiation and expansion. Mast cells (MCs) contribute to the differentiation and influence the effector functions of various immune cells, including B lymphocytes. In this study, we explored whether MCs could play a role in the expansion of IL-10–competent B cells and addressed the in vivo relevance of MC deficiency on the generation of these cells. We show that MCs can expand IL-10–competent B cells, but they do not directly induce IL-10 production; moreover, the absence of MCs negatively affects IL-10–competent B cell differentiation. Noteworthy, our findings reveal that the CD40L/CD40 axis plays a significant role in MC-driven expansion of IL-10–competent B cells in vitro and highlight the importance of MC CD40L signaling in the colon.
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