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The C-terminal, partially truncated forms of the NF-kappaB2/p52 precursor p100, p100DeltaCs, manifest constitutive processing and oncogenic ability, although the responsible mechanisms remain unknown. Here, we report that p100DeltaCs are specifically processed in association with binding to promoter DNA-containing kappaB sites. In the nucleus, p100DeltaCs bind to the kappaB promoter DNA and subsequently recruit the proteasome to form a stable proteasome/p100DeltaC/DNA complex, which mediates the processing of p100DeltaCs. Notably, the processing at the kappaB promoter is initiated by a proteasome-mediated endoproteolytic cleavage at amino acid D(415) of p100DeltaCs, and the processed p52, but not the precursors themselves, is oncogenic by up-regulating a subset of target genes. Our studies demonstrate a different mechanism of p100 processing and also present evidence showing that the proteasome modulates the action of transcription factors at promoter regions through endoproteolysis.
Qing et al. (Fri,) studied this question.