Chromatin has been successfully used as a tool for the study of genome function in cancers. Vincristine as a vinca alkaloid anticancer drug exerts its action by binding to tubulins. In this study the effect of vincristine on DNA and chromatin was investigated employing various spectroscopy techniques as well as thermal denaturation, equilibrium dialysis and DNA-cellulose affinity. The results showed that the binding of vincristine to DNA and chromatin reduced absorbance at both 260 and 210 nm with different extent. Chromopheres of chromatin quenched with the drug and fluorescence emission intensity decreased in a dose-dependent manner. Chromatin exhibited higher emission intensity changes compared to DNA. Upon addition of vincristine, Tm of DNA and chromatin exhibited hypochromicity without any shift in Tm. The binding of the drug induced structural changes in both positive and negative extremes of circular dichroism spectra and exhibited a cooperative binding pattern as illustrated by a positive slope observed in low r values of the binding isotherm. Vincristine showed higher binding affinity to double stranded DNA compared to single stranded one. The results suggest that vincristine binds with higher affinity to chromatin compared to DNA. The interaction is through intercalation along with binding to phosphate sugar backbone and histone proteins play fundamental role in this process. The binding of the drug to chromatin opens a new insight into vincristine action in the cell nucleus.
The ability of the wild-type XIAP BIR3 domain as well as its Trp323Ser variant in inhibition of human caspase-9, binding to AVPFVASLPN (SMAC-peptide), SMAC protein, and mature caspase-9 was investigated. In order to investigate the role of W323 on these interactions, this residue was mutated to Serine. Circular dichroism as well as thermal denaturation studies showed that W323S mutation did not hamper proper folding of the protein. The dissociation constants for the interaction of the wild type BIR3 as well as its mutant to Smac-type peptide were found to be 1.8 and 27 muM, respectively. The inhibition of and binding to caspase-9 by wild-type BIR3 and its mutant were also compared. While the wild-type protein potently inhibited the enzyme, the mutant failed to do so. The lack of caspase-9 inhibition was due to absence of interaction of the mutant BIR3 with mature caspase-9. These results indicate that Trp323 of BIR3 plays a pivotal role both in maintaining necessary conformation for caspase-9 interaction and to a lesser extent, recognition of Smac-type peptide. Moreover, decreased stability of the mutant compared with the wild type indicates that W323 is essential for maintaining the stability BIR3-Smac-peptide complex.
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