白藜芦醇类似物 4,4′-二羟基-反式-二苯乙烯对蛋白酶体 SIRT-1 的依赖性抑制作用

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-03-08 DOI:10.1016/j.jtcme.2024.03.001
Vittoria Livraghi , Laura Mazza , Federica Chiappori , Miriana Cardano , Ornella Cazzalini , Roberto Puglisi , Rossana Capoferri , Anna Pozzi , Lucia Anna Stivala , Laura Zannini , Monica Savio
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引用次数: 0

摘要

背景和目的白藜芦醇(RSV)是一种以芪类化合物为基础的化合物,具有广泛的生物学特性。其类似物 4,4′-二羟基-反式-白藜芦醇(DHS)在体外和体内显示出更高的生物利用度和抗增殖活性。关于白藜芦醇如何发挥作用的假说之一是基于 SIRT1 的激活。实验过程在正常人肺成纤维细胞中使用 MTT 试验确定了 DHS 的孵育时间和浓度。收获未经处理、经 DHS 或 RSV 处理的细胞,并通过 Western 印迹法或 RT-PCR 进行分析,以评估 SIRT1 的水平/活性和表达情况,并通过细胞热转移试验(CETSA)检查 DHS 或 RSV 与 SIRT1 的潜在相互作用。根据分子对接分析确定的潜在结合口袋,用两个 SIRT1 突变体进行了转染实验。结果和结论我们意外地发现,DHS 而不是 RSV 对 SIRT1 蛋白水平和活性(后者以 p53 乙酰化衡量)都有时间依赖性抑制作用。在 mRNA 水平上没有观察到明显的变化,而在使用蛋白酶体抑制剂 MG132 进行的实验中,DHS 对 SIRT1 水平的降低凸显了蛋白酶体依赖性机制。生物信息学分析表明,与 DHS 相比,RSV 与所有 SIRT1 复合物的结合亲和力都更高,但与 SIRT1-p53 复合物的结合结果不相上下。然而,转染细胞的 CETSA 和 SIRT1 突变体并未证实这种相互作用。总之,DHS 可降低 SIRT1 蛋白水平,从而通过蛋白酶体介导的机制抑制其活性。
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A proteasome-dependent inhibition of SIRT-1 by the resveratrol analogue 4,4′-dihydroxy-trans-stilbene

Background and aim

Resveratrol (RSV), is a stilbene-based compound exerting wide biological properties. Its analogue 4,4′-dihydroxy-trans-stilbene (DHS) has shown improved bioavailability and antiproliferative activity in vitro and in vivo. One of the hypotheses on how resveratrol works is based on SIRT1 activation. Since their strict structural similarities, we have explored a potential interaction between DHS and SIRT1, in comparison with the parental molecule.

Experimental procedure

Timing of incubation and concentrations of DHS have been determined using MTT assay in normal human lung fibroblasts. Untreated, DHS- or RSV-treated cells were harvested and analysed by Western Blotting or RT-PCR, in order to evaluate SIRT1 levels/activity and expression, and by Cellular Thermal shift assay (CETSA) to check potential DHS or RSV-SIRT1 interaction. Transfection experiments have been performed with two SIRT1 mutants, based on the potential binding pockets identified by Molecular Docking analysis.

Results and conclusion

We unexpectedly found that DHS, but not RSV, exerted a time-dependent inhibitory effect on both SIRT1 protein levels and activity, the latter measured as p53 acetylation. At the mRNA level no significant changes were observed, whereas a proteasome-dependent mechanism was highlighted for the reduction of SIRT1 levels by DHS in experiments performed with the proteasome inhibitor MG132. Bioinformatics analysis suggested a higher affinity of RSV in binding all SIRT1 complexes compared to DHS, except comparable results for complex SIRT1-p53. Nevertheless, both CETSA and SIRT1 mutants transfected in cells did not confirm this interaction. In conclusion, DHS reduces SIRT1 protein level, thereby inhibiting its activity through a proteasome-mediated mechanism.

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