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  • Title: Molecular dynamic behavior and binding affinity of flavonoid analogues to the cyclin dependent kinase 6/cyclin D complex.
    Author: Khuntawee W, Rungrotmongkol T, Hannongbua S.
    Journal: J Chem Inf Model; 2012 Jan 23; 52(1):76-83. PubMed ID: 22172011.
    Abstract:
    The cyclin dependent kinases (CDKs), each with their respective regulatory partner cyclin that are involved in the regulation of the cell cycle, apoptosis, and transcription, are potentially interesting targets for cancer therapy. The CDK6 complex with cyclin D (CDK6/cycD) drives cellular proliferation by phosphorylation of specific key target proteins. To understand the flavonoids that inhibit the CDK6/cycD functions, molecular dynamics simulations (MDSs) were performed on three inhibitors, fisetin (FST), apigenin (AGN), and chrysin (CHS), complexed with CDK6/cycD, including the two different binding orientations of CHS: FST-like (CHS_A) and deschloro-flavopiridol-like (CHS_B). For all three inhibitors, including both CHS orientations, the conserved interaction between the 4-keto group of the flavonoid and the backbone V101 nitrogen of CDK6 was strongly detected. The 3'- and 4'-OH groups on the flavonoid phenyl ring and the 3-OH group on the benzopyranone ring of inhibitor were found to significantly increase the binding and inhibitory efficiency. Besides the electrostatic interactions, especially through hydrogen bond formation, the van der Waals (vdW) interactions with the I19, V27, F98, H100, and L152 residues of CDK6 are also important factors in the binding efficiency of flavonoids against the CDK6/cycD complex. On the basis of the docking calculation and MM-PBSA method, the order of the predicted inhibitory affinities of these three inhibitors toward the CDK6/cycD was FST > AGN > CHS, which is in good agreement with the experimental data. In addition, CHS preferentially binds to the active CDK6 in a different orientation to FST and AGN but similar to its related analog, deschloro-flavopiridol. The obtained results are useful as the basic information for the further design of potent anticancer drugs specifically targeting the CDK6 enzyme.
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