Hundreds of NF-jB inhibitors have been developed for cancer therapy, but their clinical efficacy is unsatisfactory. Here we show that the phosphorylation activation at Ser536 of RelA/p65 protein, a main subunit in the NF-jB family, may play a tumorsuppressive role. In normal colon mucosa, RelA/p65 phosphorylation at Ser536 was increasingly increased with the maturation and apoptotic shedding of epithelial cells, but the phosphorylation at Ser536 was decreased in colon cancer. In colon (HCT116 p53 wt and p53 2/2), breast (MCF7), and prostate (LNCaP and DU145) cancer cells, a phosphomimetic mutation of RelA/p65 at Ser536 (named p65/S536D) triggered dramatic apoptosis through affecting expression of a wide range of cell death/survival genes, such as Bim, Puma, Noxa, Bcl-2 and survivin. In HCT116 cells, p65/S536D mutant upregulated Fas, insulted mitochondrial membrane potential, and triggered cleavage and activation of caspase-3, 7, 8 and 9. A FasL neutralizing antibody (NOK1) prevented cell death induced by the p65/S536D. A pan inhibitor of caspases, Z-VAD-FMK (20 lM), blocked caspase-mediated mitochondrial membrane depolarization. This p65/S536D also triggered senescence in HCT116 cells through a p16-dependent pathway, but not in MFC7 due to lack of p16. Intratumoral delivery of the p65/S536D effectively suppressed tumor growth in nude mice. Together our data suggest that the phosphorylation of RelA/p65 at Ser536 may confer it a tumor-suppressive role by inducing apoptosis and senescence, highlighting the importance of discriminating the function and active status of individual active sites in RelA/p65 when NF-jB inhibitors are considered for targeted therapy of cancer.Nuclear factor-kappa B (NF-jB) is a family of ubiquitously expressed transcriptional factors that regulate the expression of genes that are involved in cell growth and survival, stress response and inflammation.1,2 The NF-jB signaling is activated at two layers of response: that is, IKK-dependent phosphorylation and degradation of IjB and subsequent nuclear translocation of NF-jB subunits, and post-transcriptional modifications of the NF-jB subunits. RelA/p65 is a most important subunit of the NF-jB family, 6 and the phosphorylation is a critical posttranslational activation mechanism of RelA/p65. 3,4 A total of 12 phosphorylation sites have been identified in the RelA/p65 thus far, including nine serine and three threonine sites. Among them, Ser205, Thr254, Ser276, Ser281 and Ser311 are located in or adjacent to Rel Homology Domain (RHD) of N-terminus, and Thr435, Ser468, Thr505, Ser529, Ser535, Ser536 and Ser547 are positioned in the C-terminal transactivation domain. 7,8 The Ser536in RelA/p65 is an important phosphorylation site that is
