Abstract
Developing thymocytes interact with thymic epithelial cells (TECs) through cell-cell interactions, TEC-derived secretory moieties and extracellular matrix (ECM)-mediated interactions. These physiological interactions are crucial for normal thymocyte differentiation, but can be disrupted in pathological situations. Indeed, there is severe thymic atrophy in animals acutely infected with Trypanosoma cruzi due to CD4+CD8+ thymocyte depletion secondary to caspase-mediated apoptosis, together with changes in ECM deposition and thymocyte migration. We studied an in vitro model of TEC infection by T. cruzi and found that infected TEC cultures show a reduced number of cells, which was likely associated with decreased proliferative capacity, but not with increased cell death, as demonstrated by bromodeoxyuridine and annexin-V labelling. The infected TEC cultures exhibited increased expression of fibronectin (FN), laminin (LM) and type IV collagen. Importantly, treatment with FN increased the relative number of infected cells, whereas treatment with anti-FN or anti-LM antibodies resulted in lower infection rates. Consistent with these data, we observed increased thymocyte adhesion to infected TEC cultures. Overall, these results suggest that ECM molecules, particularly FN, facilitate infection of the thymic epithelium and that the consequent enhancement of ECM expression might be associated with changes in TEC-thymocyte interactions.
Highlights
Developing thymocytes interact with thymic epithelial cells (TECs) through cell-cell interactions, TEC-derived secretory moieties and extracellular matrix (ECM)-mediated interactions
T. cruzi infection enhances the ECM content of cultured TECs - Confirming our previous results (Da Costa et al 1991), we initially showed that T. cruzi-TEC interaction (20 parasites/TEC) for 6 h resulted in the infection of approximately 5% of the cultured cells, demonstrating that TECs can be infected in vitro
Considering that T. cruzi infection promotes an increase in ECM deposition in the mouse thymus, we confirmed that the content of these proteins increased in infected TEC cultures, as illustrated in Fig. 1A, B
Summary
Developing thymocytes interact with thymic epithelial cells (TECs) through cell-cell interactions, TEC-derived secretory moieties and extracellular matrix (ECM)-mediated interactions. Consistent with these data, we observed increased thymocyte adhesion to infected TEC cultures Overall, these results suggest that ECM molecules, FN, facilitate infection of the thymic epithelium and that the consequent enhancement of ECM expression might be associated with changes in TEC-thymocyte interactions. Thymocytes that do not undergo a productive TCR gene rearrangement die by apoptosis, whereas cells expressing productive TCRs interact with the self-peptides presented by major histocompatibility complex molecules that are expressed on thymic-microenvironment cells This interaction determines thymocyte fate through positive or negative selection and the positively selected thymocytes will survive and become mature CD4+ or CD8+ single-positive T cells. We analysed the influence of T. cruzi infection on TECs and TEC-thymocyte interactions
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