Abstract
AbstractNucleophosmin (NPM) is frequently overexpressed in leukemias and other tumors. NPM has been reported to suppress oncogene-induced senescence and apoptosis and may represent a therapeutic target for cancer. We fused a NPM-derived peptide to the HIV-TAT (TAT-NPMΔC) and found that the fusion peptide inhibited proliferation and induced apoptotic death of primary fibroblasts and preleukemic stem cells. TAT-NPMΔC down-regulated several NF-κB–controlled survival and inflammatory proteins and suppressed NF-κB–driven reporter gene activities. Using an inflammation-associated leukemia model, we demonstrate that TAT-NPMΔC induced proliferative suppression and apoptosis of preleukemic stem cells and significantly delayed leukemic development in mice. Mechanistically, TAT-NPMΔC associated with wild-type NPM proteins and formed complexes with endogenous NPM and p65 at promoters of several antiapoptotic and inflammatory genes and abrogated their transactivation by NF-κB in leu-kemic cells. Thus, TAT-delivered NPM peptide may provide a novel therapy for inflammation-associated tumors that require NF-κB signaling for survival.
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