Abstract
K48-linked ubiquitination determining antigen degradation and the endosomal recruitments of p97 and Sec61 plays vital roles in dendritic cell (DC) cross-presentation. Our previous studies revealed that nicotine treatment increases bone marrow-derived dendritic cell (BM-DC) cross-presentation and promotes BM-DC-based cytotoxic T lymphocyte (CTL) priming. But the effect of nicotine on K48-linked ubiquitination and the mechanism of nicotine-increased BM-DC cross-presentation are still uncertain. In this study, we first demonstrated that ex vivo nicotine administration obviously increased K48-linked ubiquitination in BM-DC. Then, we found that K48-linked ubiquitination was essential for nicotine-augmented cross-presentation, BM-DC-based CTL priming, and thereby the superior cytolytic capacity of DC-activated CTL. Importantly, K48-linked ubiquitination was verified to be necessary for nicotine-augmented endosomal recruitments of p97 and Sec61. Importantly, mannose receptor (MR), which is an important antigenic receptor for cross-presentation, was exactly catalyzed with K48-linked ubiquitination by the treatment with nicotine. Thus, these data suggested that K48-linked ubiquitination contributes to the superior adaptive immunity of nicotine-administrated BM-DC. Regulating K48-linked ubiquitination might have therapeutic potential for DC-mediated immune therapy.
Highlights
Cross-presentation allows dendritic cells (DC) presenting exdogenous antigen and inducing protective immunity against microbe infection and tumors
We investigated the mechanism by which nicotine augments Bone marrowderived DC (BM-DC)
We wonder whether the process of ubiquitination is involved in nicotine-increased DC cross-presentation
Summary
Cross-presentation allows dendritic cells (DC) presenting exdogenous antigen and inducing protective immunity against microbe infection and tumors. Bone marrowderived DC (BM-DC) by granulocyte-macrophage colony-stimulating factor (GM-CSF) and interleukin-4 (IL-4) might result in the absence or the silencing of an immune response in lacking inappropriate encounter with the antigen [1]. Nicotine was documented to up-regulate surface molecule expression in DC, augment DC-dependent T-cell priming [4,5,6,7,8]. Until now, the exact mechanism that nicotine augments DC cross-presentation is still uncertain. Ubiquitination, a signal for sorting, trafficking, and the removal of membrane proteins via endocytosis [9], regulates innate and adaptive immunity [10,11]. Whereas removing K48-linked ubiquitination from mediator of interferon regulatory factor 3 (IRF3)
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