Ysin is distinct from the known HDAC inhibitors such as SAHA and TSA. Treatment of SAHA and TSA inhibits LSD1, the known histone lysine demethylase I which demethylate both mono as well as dimethyl lysine 4 of histone H3 that lead to the chromatin modification at the p21WAF1 promoter [62]. But function of chrysin is unique and novel from known HDAC inhibitors which decrease the H3k9 dimethylation at the p21WAF1 promoter. Emerging evidence has indicated p53 independent transcriptional activation of p21 include STAT1, MyoD1 and BRCA1 [63]. Precisely, this study also shows a new regulatory relationship between p21WAF1 and STAT proteins via epigenetic modulation [64]. The changes in the histone code of the chromatin in or near STAT binding sites by the chrysin can increase accessibility of the STAT-1 3 proteins that lead to activate STAT mediated induction of p21WAF1 expression (Figure 7). Earlier studies indicated the involvement of STAT-1 dependent and p53-independent expression of p21 controlling apoptosis [38]. These results not only suggest that chromatin remodeling within the STAT responsive sites can control transcriptional regulation but also demonstrate that modification in core histone tails by chrysin might activate PubMed ID:https://www.ncbi.nlm.nih.gov/pubmed/28549975 STAT signals in A375 cells. STAT activated signals in buy VER-52296 response to IFN-gamma are directly involved in regulating p21WAF1 expression [65]. Nevertheless our findings led to propose a chrysin based novel epigenetic pathway of p21WAF1 regulation by which an increased recruitment of STAT-1and-3 to proximal responsive region from the transcriptional start site in the p21 promoter that maintain a pivotal role in the p21WAF1 up regulation. We speculate that some unknown binding factors may form a complex with STAT1/3/5 proteins in vivo in the presence of chrysin to facilitate STAT1, 3 5 for easy recognition and accessibility to the two STAT binding sites. It could be very interesting to identify such chrysin-regulated proteins that bind to STAT binding sites. In fact, our studies indicate that modification of chromatin structure in response to histone acetylation and methylation of the two responsive sites is sufficient to allow the transcriptional activation of p21WAF1 presumably via STAT proteins (Figure 8). These findings demonstrate a possible working model of chrysin for not only regulating cell cycle but also connect epigenetic modulation of p21WAF1 promoter and STAT signaling pathway as well. The functional importance of STAT region in the promoter activation was highly elucidated. In this study we found that chrysin treatment caused decrease in the protein level of NF-kB dependent genes such as Bcl-xL, survivin that lead to cell death (apoptosis) by enhancing the activity of caspase-3.Thus chrysin can be used as a single drug when compared withcombinatorial therapy such as recently used HDAC inhibitor and demethylating agent (Aza Cytidine).Conclusions In summary, we have shown that chrysin posses potent invitro anti-cancer activity by suppressing cell proliferation, inducing G1 cell cycle arrest with the upregulation of p21 and decrease in cyclin D1, cdk2 protein levels. This compound caused inhibition of HDAC-8 activity with no effect on the activity of HDAC-1/2. The protein levels of HDAC- 2, 3 and 8 (Class I HDACs) were found to be drastically reduced with no change in HDAC- 4 6 (class II HDACs) upon chrysin treatment. Chrysin caused histone modifications such as acetylation and methylation at p21 promoter part.