Di Micco Simone, Ruggiero Dafne, Terracciano Stefania, Bruno Ines, Cardullo Nunzio, Muccilli Vera, Tringali Corrado, Bifulco Giuseppe
European Biomedical Research Institute of Salerno (EBRIS), Via Salvatore De Renzi 50, 84125, Salerno, Italy.
Department of Pharmacy, University of Salerno, Via Giovanni Paolo II 132, 84084, Fisciano (SA), Italy.
Chem Biodivers. 2025 Feb;22(2):e202401854. doi: 10.1002/cbdv.202401854. Epub 2024 Nov 8.
Recently, we identified magnolol bioinspired derivatives as new Tankyrase 1/2 (TNKS1/2) inhibitors by our Inverse Virtual Screening protocol. Based on these findings, in the present contribution, we enlarged our investigation of neolignans to the natural product honokiol (1) and a group of its analogues (2-8). By integrating in silico analysis and Surface Plasmon Resonance experiments, we investigated the binding of tested compounds against biological target under investigations. Specifically, 1 (honokiol), 2, 6 and 7 bound TNKS2 with a K in the low nanomolar range, whereas 3-5 and 8 showed absence of affinity for the macromolecule. Furthermore, we also proved the binding specificity of 1 and 7 against TNKS2, while 2 and 6 were found to be also TNKS1 binders. The congener 4 was identified as specific TNKS1 ligand. Promising antiproliferative activity in A549 cancer cell line were obtained for 1 and 6, with honokiol (1) presenting a higher potency than the well-known TNKS2 inhibitor XAV939. Collectively, these outcomes suggest that the honokiol-based scaffold can be employed to design novel anti-cancer therapeutic agents.
最近,我们通过反向虚拟筛选协议鉴定出厚朴酚生物启发衍生物为新型端锚聚合酶1/2(TNKS1/2)抑制剂。基于这些发现,在本研究中,我们将对新木脂素的研究扩展到天然产物厚朴酚(1)及其一组类似物(2-8)。通过整合计算机分析和表面等离子体共振实验,我们研究了受试化合物与所研究生物靶点的结合情况。具体而言,1(厚朴酚)、2、6和7以低纳摩尔范围内的K值与TNKS2结合,而3-5和8对该大分子没有亲和力。此外,我们还证明了1和7对TNKS2的结合特异性,而2和6也被发现是TNKS1结合剂。同系物4被鉴定为特异性TNKS1配体。1和6在A549癌细胞系中表现出有前景的抗增殖活性,厚朴酚(1)的效力高于著名的TNKS2抑制剂XAV939。总体而言,这些结果表明基于厚朴酚的支架可用于设计新型抗癌治疗药物。
