Department of Chemistry, Wayne State University, Detroit, Michigan 48202, USA.
Metallomics. 2012 Feb;4(2):174-8. doi: 10.1039/c2mt00131d. Epub 2011 Dec 15.
Polypyridyl pentadentate ligands N4Py (1) and Bn-TPEN (2), along with their respective iron complexes, have been investigated for their ability to inhibit the purified 20S proteasome. Results demonstrated that the iron complexes of both ligands are potent inhibitors of the 20S proteasome (IC(50) = 9.2 μM for Fe(II)(OH(2))(N4Py) (3) and 4.0 μM for Fe(II)(OH(2))(Bn-TPEN) (4)). Control experiments showed that ligand 1 or Fe(II) alone showed no inhibition, whereas 2 was moderately active (IC(50) = 96 μM), suggesting that iron, when bound to these ligands, plays a key role in proteasome inhibition. Results from time-dependent inactivation studies suggest different modes of action for the iron complexes. Time-dependent decay of proteasome activity was observed upon incubation in the presence of 4, which accelerated in the presence of DTT, suggesting reductive activation of O(2) and oxidation of the 20S proteasome as a mode of action. In contrast, loss of 20S proteasome activity was not observed with 3 over time, suggesting inhibition through direct binding of the iron complex to the enzyme. Inhibition of the 20S proteasome by 4 was not blocked by reactive oxygen species scavengers, consistent with a unique oxidant being responsible for the time-dependent inhibition observed.
五齿配体 N4Py(1)和 Bn-TPEN(2)及其相应的铁配合物,因其抑制 20S 蛋白酶体的能力而被研究。结果表明,两种配体的铁配合物均为 20S 蛋白酶体的有效抑制剂(Fe(II)(OH(2))(N4Py)(3)的 IC50 为 9.2 μM,Fe(II)(OH(2))(Bn-TPEN)(4)的 IC50 为 4.0 μM)。对照实验表明,配体 1 或单独的 Fe(II)没有抑制作用,而 2 则具有中等活性(IC50 = 96 μM),这表明当铁与这些配体结合时,在蛋白酶体抑制中起着关键作用。时变失活动力学研究的结果表明,铁配合物的作用方式不同。在存在 4 的情况下,观察到蛋白酶体活性的时变衰减,在 DTT 的存在下加速,这表明作为作用方式,O(2)的还原激活和 20S 蛋白酶体的氧化。相比之下,在 3 存在的情况下,随着时间的推移,20S 蛋白酶体活性的丧失没有观察到,这表明抑制是通过铁复合物与酶的直接结合实现的。4 对 20S 蛋白酶体的抑制不受活性氧清除剂的阻断,这与负责观察到的时变抑制的独特氧化剂一致。
