Adaptive cellular immunity is initiated by presentation of foreign antigen by DCs to antigen-specific naïve T lymphocytes. DCs exist sparsely in peripheral tissues in a state specialized click here for antigen uptake and processing. However, upon pathogen encounter, DCs transduce signals through pattern recognition receptors, leading to an increased expression of cell surface molecules and cytokines, and induction of
DC migration from the periphery to draining lymph nodes (DLNs) via afferent lymphatic vessels. Thus, upon their arrival in secondary lymphoid organs, DCs are equipped to initiate adaptive cellular immune responses through their ability to activate naïve antigen-specific T cells [1]. Despite the importance of DC migration from the periphery to DLNs, the roles of the numerous molecules that regulate this process are incompletely understood. One such molecule is the leukocyte-specific membrane protein CD37, a member of the tetraspanin protein superfamily. Tetraspanins molecularly organize cellular membranes by interactions with partner molecules, which they direct
into regulated signal-transducing tetraspanin-enriched microdomains. The cellular processes regulated by tetraspanin-mediated molecular organization include proliferation, adhesion and migration [2, 3]. In immune cells, many important cell surface molecules, such as integrins, co-receptors, pattern recognition receptors and MHC molecules, are incorporated into tetraspanin-enriched microdomains Pirfenidone research buy [4-6]. CD37 has recently Nitroxoline attracted interest as a target for monoclonal antibodies with therapeutic potential in B-cell malignancies [7, 8]. However, most of what is known about the contribution of CD37 to immunology has been gleaned from CD37−/− mice. The role of CD37 in immunity is complex, where it influences both innate and adaptive immunity. In innate immunity, CD37 molecularly interacts with pattern recognition receptor Dectin-1,
stabilizing Dectin-1 at the macrophage cell surface, and negatively regulating proinflammatory cytokine secretion following ligand recognition [9]. Adaptive humoral immune responses are also perturbed by CD37 ablation. T-cell-dependent IgG responses are impaired in CD37−/− mice [10], due to the key role that CD37 has in transducing the α4β1 integrin-dependent akt signaling pathway in B cells [11]. Conversely, there is an exaggerated IgA response driven by an excess of IL-6 [12]. This exaggerated IgA production is significant as it protects CD37−/− mice from Candida albicans infection [12], but also leads to glomerulonephritis in ageing mice [13]. In cellular immunity, CD37 is one of multiple tetraspanins that negatively regulate T-cell proliferation, resulting in a hyperproliferative response of CD37−/− T cells stimulated in vitro [14].