RESUMEN
The differentiation of neural crest (NC) cells into various cell lineages contributes to the formation of many organs, including the thymus. In this study, we explored the role of NC cells in thymic T cell development. In double-transgenic mice expressing NC-specific Cre and the Cre-driven diphtheria toxin receptor, plasma noradrenaline and adrenaline levels were significantly reduced, as were thymic T cell progenitors, when NC-derived cells were ablated with short-term administration of diphtheria toxin. Additionally, yellow fluorescent protein+ NC-derived mesenchymal cells, perivascular cells, and tyrosine hydroxylase+ sympathetic nerves in the thymus significantly decreased. Furthermore, i.p. administration of 6-hydroxydopamine, a known neurotoxin for noradrenergic neurons, resulted in a significant decrease in thymic tyrosine hydroxylase+ nerves, a phenotype similar to that of depleted NC-derived cells, whereas administration of a noradrenaline precursor for ablating NC-derived cells or sympathetic nerves rarely rescued this phenotype. To clarify the role of NC-derived cells in the adult thymus, we transplanted thymus into the renal capsules of wild-type mice and observed abnormal T cell development in lethally irradiated thymus with ablation of NC-derived cells or sympathetic nerves, suggesting that NC-derived cells inside and outside of the thymus contribute to T cell development. In particular, the ablation of NC-derived mesenchymal cells in the thymus decreases the number of thymocytes and T cell progenitors. Overall, ablation of NC-derived cells, including sympathetic nerves, in the thymus leads to abnormal T cell development in part by lowering plasma noradrenalin levels. This study reveals that NC-derived cells including mesenchymal cells and sympathetic nerves within thymus regulate T cell development.
Asunto(s)
Cresta Neural , Norepinefrina , Ratones , Animales , Tirosina 3-Monooxigenasa , Diferenciación Celular , Ratones Transgénicos , TimoRESUMEN
Follicular dendritic cells (FDCs) are non-hematopoietic cells that are localized in the germinal centers (GCs) of lymph nodes (LNs) and are involved in humoral immunity. FDCs are a rare population that are sensitive to mechanical and chemical stimuli, making their isolation for analysis difficult. In Peyer's Patches, which are the main IgA-inductive sites, FDCs have been reported to be activated by retinoic acid receptor (RAR) and toll-like receptor (TLR) signals to induce IgA production. However, little is known about FDCs in mesenteric LNs (MLNs), although MLNs are also an IgA-inductive site. In this study, we efficiently isolated FDCs as CD35+ cells using anti-CD35 antibodies (Abs) and magnetic bead sorting. We found that CD35+ FDCs facilitated differentiation from B220+ B cells into IgA+GL7+ GC B-like cells but not IgA+CD138+ plasma cells. Furthermore, using CD35+ FDCs from LPS-resistant C3H/HeJ mice, the generation of IgA+GL7+ GC B-like cells was not altered significantly between wild-type and LPS-resistant mice. Moreover, the addition of RAR antagonists and agonists revealed that differentiation into IgA+GL7+ GC B-like cells required the activation of RAR, especially RAR-ß, in FDCs. The differentiation of IgA+GL7+ cells was promoted by FDCs in peripheral LNs as well as MLNs in our in vitro assay. Taken together, these results indicate that magnetic bead sorting with anti-CD35 Abs enable the efficient isolation of FDCs. Our data suggested that CD35+ FDCs can support differentiation of B cells into IgA+GL7+ GC B-like cells in environments that are not limited to MLNs, which can be stimulated by retinoic acid.