Brodziak-Jarosz Lidia, Fujikawa Yuuta, Pastor-Flores Daniel, Kasikci Sonay, Jirásek Petr, Pitzl Sebastian, Owen Robert W, Klika Karel D, Gerhäuser Clarissa, Amslinger Sabine, Dick Tobias P
Division of Redox Regulation, German Cancer Research Center (DKFZ), DKFZ-ZMBH Alliance, Heidelberg, Germany.
Division of Epigenomics and Cancer Risk Factors, German Cancer Research Center (DKFZ), Heidelberg, Germany.
Mol Nutr Food Res. 2016 Apr;60(4):737-48. doi: 10.1002/mnfr.201500613. Epub 2016 Mar 11.
Many phytochemicals with beneficial pharmacological properties contain electrophilic sites, e.g. α,β-unsaturated carbonyl (enone) groups. There is increasing evidence that many biological effects of electrophilic compounds depend on covalent conjugation to reactive protein thiols. For example, the reaction of electrophiles with cysteinyl residues of the sensor protein Keap1 activates the cell-protective Nrf2 response. Thus it is of interest to identify more generally the proteins to which small molecule electrophiles bind covalently.
Here we use a Click chemistry approach to identify target proteins of the chemopreventive phytochemical xanthohumol (XN), an enone-containing chalcone from hops (Humulus lupulus L.). Using an alkynylated analog of XN (XN-alkyne), we purified covalent protein-electrophile conjugates from cell lysates. We confirm the previously described conjugation of XN to Keap1. One of the newly identified candidate target proteins is glucose-6-phosphate dehydrogenase (G6PDH). We confirm that XN attenuates intracellular G6PDH activity at low micromolar concentrations.
We find support for the notion that XN modulates multiple pathways and processes by covalent modification of proteins with reactive cysteines.
许多具有有益药理特性的植物化学物质含有亲电位点,例如α,β-不饱和羰基(烯酮)基团。越来越多的证据表明,亲电化合物的许多生物学效应取决于与反应性蛋白质硫醇的共价结合。例如,亲电试剂与传感蛋白Keap1的半胱氨酸残基反应会激活细胞保护性Nrf2反应。因此,更广泛地鉴定小分子亲电试剂共价结合的蛋白质是很有意义的。
在这里,我们使用点击化学方法来鉴定化学预防植物化学物质黄腐酚(XN)的靶蛋白,XN是一种来自啤酒花(Humulus lupulus L.)的含烯酮查耳酮。使用XN的炔基化类似物(XN-炔烃),我们从细胞裂解物中纯化了共价蛋白质-亲电试剂缀合物。我们证实了先前描述的XN与Keap1的结合。新鉴定的候选靶蛋白之一是葡萄糖-6-磷酸脱氢酶(G6PDH)。我们证实,XN在低微摩尔浓度下会减弱细胞内G6PDH活性。
我们发现有证据支持这样的观点,即XN通过用反应性半胱氨酸对蛋白质进行共价修饰来调节多种途径和过程。
