Abstract
Intimate interactions between thymic epithelial cells (TECs) and thymocytes (T) have been repeatedly reported as essential for performing intrathymic T-cell education. Nevertheless, it has been described that animals exhibiting defects in these interactions were capable of a proper positive and negative T-cell selection. In the current review, we first examined distinct types of TECs and their possible role in the immune surveillance. However, EphB-deficient thymi that exhibit profound thymic epithelial (TE) alterations do not exhibit important immunological defects. Eph and their ligands, the ephrins, are implicated in cell attachment/detachment and govern, therefore, TEC–T interactions. On this basis, we hypothesized that a few normal TE areas could be enough for a proper phenotypical and functional maturation of T lymphocytes. Then, we evaluated in vivo how many TECs would be necessary for supporting a normal T-cell differentiation, concluding that a significantly low number of TEC are still capable of supporting normal T lymphocyte maturation, whereas with fewer numbers, T-cell maturation is not possible.
Highlights
The immune system has developed several strategies to properly control the immune responses.These strategies allow peripheral T lymphocytes to respond strongly to non-self-antigen determinants presented by self-MHC molecules, whereas they do not elicit a response when confronted to self-antigens, avoiding the appearance of autoimmune syndromes
The developing thymocytes move throughout a 3D thymic epithelial (TE) network, interacting with the thymic epithelial cells (TECs) of two histologically different compartments: the cortex and the medulla [5]
It is important to remark that embryonic thymic epithelial progenitor cells (TEPCs) express cell markers (i.e., β5t, CD205, IL7) specific of the cTEC
Summary
The immune system has developed several strategies to properly control the immune responses. These strategies allow peripheral T lymphocytes to respond strongly to non-self-antigen determinants presented by self-MHC molecules, whereas they do not elicit a response when confronted to self-antigens, avoiding the appearance of autoimmune syndromes Central to this behavior is the positive selection of thymocytes in the thymic cortex and the removal of autoreactive T-cell clones (negative selection) in the medulla [1,2], as well as the generation of the so-called T regulatory (Treg) cells [3]. It is important to remark that embryonic thymic epithelial progenitor cells (TEPCs) express cell markers (i.e., β5t, CD205, IL7) specific of the cTEC lineage of adult thymus [21,22,23] These results supported a model of serial progression for explaining the establishment of two major TEC subsets, cortical and medullary. Adult TEPCs apparently lose their embryonic features, whereas committed progenitor cells either with cTEC or mTEC lineages appear [15,19,20,24,26]
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