Tea flavonoids bind to variety of enzymes and inhibit their activities. In the present study, binding and inhibition of catalase activity by catechins with respect to their structure-affinity relationship has been elucidated. Fluorimetrically determined binding constants for (−)-epigallocatechin gallate (EGCG) and (−)-epicatechin gallate (ECG) with catalase were observed to be 2.27×106 M−1 and 1.66×106 M−1, respectively. Thermodynamic parameters evidence exothermic and spontaneous interaction between catechins and catalase. Major forces of interaction are suggested to be through hydrogen bonding along with electrostatic contributions and conformational changes. Distinct loss of α-helical structure of catalase by interaction with EGCG was captured in circular dichroism (CD) spectra. Gallated catechins demonstrated higher binding constants and inhibition efficacy than non-gallated catechins. EGCG exhibited maximum inhibition of pure catalase. It also inhibited cellular catalase in K562 cancer cells with significant increase in cellular ROS and suppression of cell viability (IC50 54.5 µM). These results decipher the molecular mechanism by which tea catechins interact with catalase and highlight the potential of gallated catechin like EGCG as an anticancer drug. EGCG may have other non-specific targets in the cell, but its anticancer property is mainly defined by ROS accumulation due to catalase inhibition.
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机译:茶黄酮与多种酶结合并抑制其活性。在本研究中,已经阐明了儿茶素在结构亲和性方面的结合和对过氧化氢酶活性的抑制作用。荧光测定的(-)-表没食子儿茶素没食子酸酯(EGCG)和(-)-表没食子儿茶素没食子酸酯(ECG)与过氧化氢酶的结合常数为2.27×10 6 M -1 和1.66×10 6 M -1 。热力学参数表明儿茶素和过氧化氢酶之间有放热和自发的相互作用。建议相互作用的主要力是通过氢键以及静电作用和构象变化。在圆二色性(CD)光谱中捕获了与EGCG相互作用引起的过氧化氢酶α螺旋结构的明显损失。没食子儿茶素比没食子儿茶素具有更高的结合常数和抑制作用。 EGCG表现出最大的纯过氧化氢酶抑制作用。它还抑制K562癌细胞中的细胞过氧化氢酶,并显着增加细胞ROS并抑制细胞活力(IC50 54.5 µM)。这些结果破译了茶儿茶素与过氧化氢酶相互作用的分子机制,并突出了像儿茶酚CG这样的没食子儿茶素作为抗癌药物的潜力。 EGCG在细胞中可能还具有其他非特异性靶标,但其抗癌特性主要由过氧化氢酶抑制引起的ROS积累来定义。
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