Extracellular matrix components of the mouse thymus microenvironment. V. Interferon-gamma modulates thymic epithelial cell/thymocyte interactions via extracellular matrix ligands and receptors.

Extracellular matrix (ECM) proteins influence cell migration and differentiation in a variety of cell systems. Within the thymus, the ECM distribution pattern is conserved among various mammalian species, but its physiological role is not completely understood. Interferon-gamma (IFN-gamma), a cytokine produced by thymocytes, is able to in vitro modulate ECM production by thymic epithelial cells (TEC) in a dose-dependent biphasic pattern. In the same model, we determined herein that the expression of VLA-5 and VLA-6 (fibronectin and laminin receptors, respectively) were upregulated by low doses of IFN-gamma, whereas high doses of the cytokine induced an opposite effect. In a second in vitro system, we evidenced that thymocyte adhesion to a TEC line was also modulated by IFN-gamma. Importantly, such effects were due to the biphasic modulation of ECM ligands and receptors since they could be specifically prevented by preincubating the TEC cultures with anti-ECM or anti-ECM receptor antibodies. Additionally, spontaneous thymocyte release from thymic nurse cells was similarly biphasically modulated by IFN-gamma. Our data provide support for the notion that thymocyte-derived products can play a role in the dialogue that exists in the thymus, involving differentiating thymocytes and microenvironmental cells. Moreover, we bring arguments indicating that one of the implicated mechanisms involved is the modulation of ECM ligands and receptors by the thymic epithelium.