4B, compare lanes 2, 3 and 4) On the other hand, the elevated ba

4B, compare lanes 2, 3 and 4). On the other hand, the elevated basal activity of JNK in thymocytes from LckCre-Cyldflx9/flx9 mice was selleck chemicals not reduced by the concomitant

inactivation of Ikk2 (Supporting Information Fig. 3). These findings indicate that the developmental defect of CyldΔ9 thymocytes is due to excessive activation of IKK2-dependent NF-κB activity. One of the striking observations in LckCre-Cyldflx9/flx9 mice was the dramatic reduction of CD4+ and CD8+ T cells in the periphery as assessed by their enumeration in mesenteric lymph nodes and spleen. LckCre-Cyld+-Ikk2flx/flx mice showed a 20% reduction in peripheral CD4 cells and a 50% reduction in peripheral CD8 cells in accordance with previous observations (Fig. 5A–D). Surprisingly, LckCre-Cyldflx9/flx9-Ikk2flx/flx mice showed a severe reduction in both CD4 and CD8 peripheral, which exceeded the defect seen in LckCre-Cyld+-Ikk2flx/flx peripheral T cells. Most of the remnant peripheral T cells in LckCre-Cyldflx9/flx9-Ikk2+/+ mice possessed CD44hiCD62Llo effector-like phenotype (Fig. 5E), which is consistent with lymphopenia-induced expansion as described in other lymphopenic states 24, 25. Interestingly, while the peripheral T cells isolated from LckCre-Cyld+-Ikk2flx/flx mice showed reduced expression of CD44 as previously reported

19, the peripheral T cells isolated from the LckCre-Cyldflx9/flx9-Ikk2flx/flx mice showed an intermediate phenotype since they have almost 50% more CD44hiCD62Llo T cells when compared with control mice MAPK inhibitor and 50% less CD44hiCD62Llo T cells when compared with LckCre-Cyldflx9/flx9-Ikk2fl+/+ (Fig. 5E). These findings are consistent with a function of CYLD in the establishment of physiological peripheral T-cell populations which is IKK2 independent. SDHB The implication of the deubiquitinating activity of CYLD in the regulation of thymocyte positive selection in an NEMO-dependent manner

and the ambiguity that surrounds the role of NF-κB in this process prompted an investigation into the specific function of IKK2-dependent NF-κB activity in Cyld-dependent regulation of thymocyte development. For this purpose, a conditional gene targeting approach was employed which permitted the concomitant inactivation of CYLD’s activity and IKK2 from the early stages of thymocyte development by crossing LckCre-Cyldflx9/flx9 to Ikk2flx/flx mice. Thymocyte-specific ablation of IKK2 does not affect the development of thymocytes but results in a mild phenotype in the periphery, which is manifested by a small reduction of CD4+ peripheral T cells and a 50% reduction of CD8+ peripheral T cells (19 and Fig. 5). The observation that the concomitant inactivation of IKK2 and CYLD leads to normal thymocyte development establishes the improper regulation of NF-κB activity as the main cause of defective development of thymocytes with inactive CYLD.

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