β-actin was used as control. (D) Gene expression as in (C), was measured Selleckchem CA3 by densitometry and plotted as fold of mRNA expression over control (Mock), normalized to β-actin levels, ±SD. (E) SKBR3 and U373 cells were treated with Zn-curc (100 μM) for the indicated hours and total cell extracts were subjected to immunoblot analysis. (F) U373 cells were plated at subconfluence in 60 mm dish and the day after treated with curcumin (Curc) (50, 100 μM) for 24 h. Zn-curc (100 μM for 24 h) was used as control of p53 activation. p53 target genes were detected by RT-PCR. β-actin was used as control. We next
compared the mRNA levels of p53 target genes (i.e., Bax, Noxa, Puma, p21) and found that Zn-curc buy CX-5461 increased the levels of all four p53 target genes analysed in U373 cells, particularly the apoptotic ones, while did not induce p53 target genes in T98G and MD-MB231 cells (Figure 2B). The specific effect of Zn-curc in reactivating p53 transactivation function was evaluated by using the p53 inhibitor pifithrin-α (PFT-α) [26] that indeed impaired the increase of wtp53 target genes in SKBR3 and U373 cells after Zn-curc see more treatment (Figure 2C), as confirmed by
densitometric analyses (Figure 2D). Finally, immune-blot experiments show that Zn-curc treatment enhanced Bax protein levels in both SKBR3 and U373 cells (Figure 2E). These results support the findings that Zn-curc treatment was indeed restoring wtp53 transcriptional activity. As Zn-cur complex previously showed increased biological activity compared to curcumin alone [13, 14], here we tested the effect of curcumin (curc) on p53 reactivation. We found that curcumin alone did not induce wtp53 target gene transcription (Figure 2F), suggesting that the effect of Zn-curc on mtp53 reactivation
was mainly depended on Zn(II) ability to induce mtp53 reactivation. Zinc-curc induces conformational changes in p53-R175H and –R273H mutant proteins Because Zn-curc reactivated p53 transactivation function, we next analysed mtp53 protein conformation. Using immunofluorescence analyses we found that Zn-curc induced a conformation change in the R175H and R273H mutant p53 proteins that buy Neratinib was recognized by the wild-type-specific antibody PAb1620 to detriment of the mutant-specific conformation detected by the antibody PAb240 (Figure 3A). Quantification of the fluorescence positive cells showed a strong reduction of PAb240 intensity whereas PAb1620 intensity was highly increased following Zn-curc treatment (Figure 3B). The RKO cell line, carrying wild-type p53 was used as a control to show that the wtp53 conformation was not changed by Zn-curc treatment (Figure 3A), as also shown by quantification analyses of fluorescent positive cells (Figure 3C). Immunoprecipitation analysis revealed that the p53 immunoreactivity to the PAb240 antibody remarkably reduced after Zn-curc treatment (Figure 3D).