The NF-kappa B-inducing kinase induces PC12 cell differentiation and prevents apoptosis.

NF-kappa B has been implicated in the survival and differentiation of PC12 cells. In this study, we examined the effect of the NF-kappa B-inducing kinase (NIK) on these processes. When inducibly expressed in PC12 cells, a kinase-proficient but not -deficient form of NIK promoted neurite process formation and mediated anti-apoptotic signaling. As expected, NIK expression led to I kappa B kinase activation and induced nuclear translocation of NF-kappa B. However, NIK-induced neurite outgrowth was only partially blocked by concomitant expression of a nondegradable form of I kappa B alpha that completely blocks NF-kappa B induction. In search of additional signaling pathways activated by NIK, we now demonstrate that NIK activates MEK1 phosphorylation and induces the Erk1/Erk2 MAPK pathway. Treatment of PC12 cells with PD98059, a MEK1 inhibitor, potently blocked neurite process formation; however, a dominantly interfering mutant of the upstream Shc adapter failed to alter this response. These findings reveal a new function for NIK as a MEK1-dependent activator of the MAPK pathway and implicate both the I kappa B kinase and MAPK signaling cascades in NIK-induced differentiation of PC12 cells.

Viral genetic determinants of T-cell killing and immunodeficiency disease induction by the feline leukemia virus FeLV-FAIDS.

Within the fatal immunodeficiency disease-inducing strain of feline leukemia virus, FeLV-FAIDS, are viruses which range in pathogenicity from minimally (clone 61E is the prototype) to acutely pathogenic, most of the latter of which are also replication defective (clone 61C is the prototype). Mixtures of 61E and 61C virus and chimeras generated between them, but not 61E alone, killed feline T cells. T-cell killing depended on changes within a 7-amino-acid region near the C terminus of the gp70 env gene or was achieved independently by changes within a 109-amino-acid region encompassing the N terminus of gp70. The carboxy-terminal change was also sufficient for induction of fatal immunodeficiency disease in cats. Other changes within the 61C gp70 gene enhanced T-cell killing, as did changes in the long terminal repeat, the latter of which also enhanced virus replication. T-cell killing correlated with high levels of intracellular unintegrated and proviral DNA, all of which were blocked by treatment of infected cells with sera from 61C-immune cats or with a neutralizing monoclonal antibody. These findings indicate that T-cell killing is a consequence of superinfection and that the mutations in env critical to pathogenicity of the immunosuppressive variant result in a failure to establish superinfection interference in infected cells.