(A) E19 melanocytes cultured with or without doxycycline were subjected to apoptosis analysis by Annexin V. (B) Expression of the indicated proteins in melanocytes cultured with or without doxycycline-induced Ikkb deletion and/or HRas^V12 expression were analyzed by immunoblotting, using specific antibodies. Immunoblot of β-actin was used as a loading control. Protein expression was quantitated and normalized to that of the same genetic background cells, without doxycycline-induced HRas^V12 expression. Mean ± SD represents 3 independent experiments statistically analyzed between Ikkb^wt and Ikkb^Δ/Δ cells with HRas^V12 expression. (C) Western blot of p53 expression in Ikkb^Δ/Δ E19 melanocytes stably expressing lentiviral shRNA p53 or shRNA control. The expression of p53 protein in cells with p53 knockdown (9.6%) is shown in comparison with that (100%) of shRNA control–expressing cells. (D) E19 melanocytes with shRNA-mediated p53 knockdown and/or doxycycline-induced Ikkb knockout were subjected to Annexin V apoptosis analysis. shRNA-mediated p53 knockdown significantly reduced apoptosis in cells null for Ikkb (P < 0.01). (E) Ikkb^Δ/Δ and Ikkb^wt E19 melanocytes were treated with or without doxycycline, and p53 mRNA levels were examined using RT-PCR. There was no significant change in p53 mRNA level upon deletion of Ikkb. (F) Phosphorylation of p53 (S15) and the expression of p53 protein in Ikkb^Δ/Δ and Ikkb^wt E19 melanocyte lysates were immunoblotted with phospho-p53 (S15 antibody), and the band density is reported as the ratio between cells treated with versus without doxycycline. (G) The phosphorylation status of Mdm2 (S166) was determined by immunoblot with the β-actin–loading control. There was significant reduction of Mdm2 phosphorylation following the deletion of Ikkb (P < 0.05). *P < 0.05, **P < 0.01.