The transcription factor NF-B is a pivotal regulator of inf lammatory responses. While the activation of NF-B in the arthritic joint has been associated with rheumatoid arthritis (RA), its significance is poorly understood. Here, we examine the role of NF-B in animal models of RA. We demonstrate that in vitro, NF-B controlled expression of numerous inf lammatory molecules in synoviocytes and protected cells against tumor necrosis factor ␣ (TNF␣) and Fas ligand (FasL) cytotoxicity. Similar to that observed in human RA, NF-B was found to be activated in the synovium of rats with streptococcal cell wall (SCW)-induced arthritis. In vivo suppression of NF-B by either proteasomal inhibitors or intraarticular adenoviral gene transfer of super-repressor IB␣ profoundly enhanced apoptosis in the synovium of rats with SCW-and pristane-induced arthritis. This indicated that the activation of NF-B protected the cells in the synovium against apoptosis and thus provided the potential link between inf lammation and hyperplasia. Intraarticular administration of NF-kB decoys prevented the recurrence of SCW arthritis in treated joints. Unexpectedly, the severity of arthritis also was inhibited significantly in the contralateral, untreated joints, indicating beneficial systemic effects of local suppression of NF-B. These results establish a mechanism regulating apoptosis in the arthritic joint and indicate the feasibility of therapeutic approaches to RA based on the specific suppression of NF-B.
A new system has been developed for generating recombinant adenoviruses by Tn7-mediated transposition in E. coli. Low copy number E. coli plasmids containing a full-length adenoviral genome with lacZattTn7 replacing E1 have been constructed. The adenovirus plasmid or admid, as well as high copy number progenitors, were stably maintained in E. coli strain DH10B. Several transfer vectors containing a mammalian expression cassette flanked by Tn7R and Tn7L were used as donors to transpose the mini-Tn7 into the E1 region of the adenoviral genome. Transposed recombinant admids are readily identified by their beta-galactosidase phenotype. Transfection of admid DNA into producer cells resulted in the efficient production of infectious adenovirus. This easy-to-use, efficient system generates pure, clonal stocks of recombinant adenovirus without successive rounds of plaque purification.
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