Loss of function of the guanine nucleotide binding protein RhoA blocks pre-T cell differentiation and survival indicating that this GTPase is a critical signaling molecule during early thymocyte development. Previous work has shown that the Rho family GTPase Rac-1 can initiate changes in actin dynamics necessary and sufficient for pre-T cell development. The present data now show that Rac-1 actions in pre-T cells require Rho function but that RhoA cannot substitute for Rac-1 and induce the actin cytoskeletal changes necessary for pre-T cell development. Activation of Rho is thus not sufficient to induce pre-T cell differentiation or survival in the absence of the pre-T cell receptor (TCR). The failure of RhoA activation to impact on pre-TCR–mediated signaling was in marked contrast to its actions on T cell responses mediated by the mature TCR α/β complex. Cells expressing active RhoA were thus hyperresponsive in the context of TCR-induced proliferation in vitro and in vivo showed augmented positive selection of thymocytes expressing defined TCR complexes. This reveals that RhoA function is not only important for pre-T cells but also plays a role in determining the fate of mature T cells.
The guanine nucleotide-binding protein Rho has essential functions in T cell development and is important for the survival and proliferation of T cell progenitors in the thymus. To explore the mechanisms used by RhoA to control thymocyte biology, the role of this GTPase in the regulation of integrin-mediated cell adhesion was examined. The data show that RhoA activation is sufficient to stimulate β1 and β2 integrin-mediated adhesion in murine thymocytes. RhoA is also needed for integrin activation in vivo as loss of Rho function impaired the ability of thymocytes to adhere to the extracellular matrix protein VCAM-1 and prevented integrin activation induced by the GTPases Rac-1 and Rap1A in vivo. The regulated activity of integrins is needed for cell motility and in the present study it was seen that RhoA activity is critical for integrin-mediated thymocyte migration to chemokines in vitro. Thus, RhoA has a critical role in regulating cell adhesion and migration during T cell development.
IL-15 bound to the IL-15 receptor α chain (IL-15Rα) is presented in trans to cells bearing the IL-2 receptor β and γc chains. As IL-15 transpresentation occurs in the context of cell-to-cell contacts, it has the potential for regulation by and of other receptor–ligand interactions. In this study, human NK cells were tested for the sensitivity of IL-15 transpresentation to inhibitory receptors. Human cells expressing HLA class I ligands for inhibitory receptors KIR2DL1, KIR2DL2/3, or CD94-NKG2A were transfected with IL-15Rα. Proliferation of primary NK cells in response to transpresented IL-15 was reduced by engagement of either KIR2DL1 or KIR2DL2/3 by cognate HLA-C ligands. Inhibitory KIR–HLA-C interactions did not reduce the proliferation induced by soluble IL-15. Therefore, transpresentation of IL-15 is subject to down-regulation by MHC class I-specific inhibitory receptors. Similarly, proliferation of the NKG2A+ cell line NKL induced by IL-15 transpresentation was inhibited by HLA-E. Co-engagement of inhibitory receptors, either KIR2DL1 or CD94-NKG2A, did not inhibit phosphorylation of Stat5 but inhibited selectively phosphorylation of Akt and S6 ribosomal protein. IL-15Rα was not excluded from, but was evenly distributed across inhibitory synapses. These findings demonstrate a novel mechanism to attenuate IL-15 dependent NK cell proliferation and suggest that inhibitory NK cell receptors contribute to NK cell homeostasis.
NK cell activation is determined by a balance of signals delivered by multiple activating and inhibitory NK receptors that engage specific ligands on target cells. The cytokine IL-15 is essential for the development, survival, proliferation, and effector function of NK cells. Trans-presentation of IL-15 by IL-15Rα expressing cells raises the possibility that stimulation by IL-15 could be regulated by other receptor-ligand interactions. To test the contribution of individual receptor - ligand interactions, the evolutionary distant Drosophila insect cell line SC2 was transfected with the IL-15R alpha chain. Expression of IL-15Rα on SC2 cells was sufficient to induce proliferation of resting NK cells. Proliferation was not enhanced by co-expression of ICAM-1. On the other hand, trans-presentation of IL-15 enhanced the binding of NK cells to ICAM-1. To test if IL-15 trans-presentation is under negative regulation by inhibitory receptors for MHC class I, IL-15Rα was co-expressed with HLA-C or HLA-E on SC2 cells, and on the MHC class I-negative human cell lines 721.221 and K562. Binding to ICAM-1 by freshly isolated NK cells, and their proliferation in response to trans-presented IL-15 is being evaluated in subsets of NK cells expressing different inhibitory receptors, using multi-color flow cytometry.
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