Centro Singular de Investigación en Química Biolóxica e, Materiais Moleculares (CiQUS), Departamento de Química Orgánica, Universidade de Santiago de Compostela, Jenaro de la Fuente s/n, 15782, Santiago, de Compostela, Spain.
Departamento de Estructura de Macromoléculas, Centro Nacional de Biotecnología (CSIC), Campus Cantoblanco, 28049, Madrid, Spain.
Chemistry. 2020 Jun 26;26(36):8035-8044. doi: 10.1002/chem.202000759. Epub 2020 Jun 8.
Disabling the bacterial capacity to cause infection is an innovative approach that has attracted significant attention to fight against superbugs. A relevant target for anti-virulence drug discovery is the type I dehydroquinase (DHQ1) enzyme. It was shown that the 2-hydroxyethylammonium derivative 3 has in vitro activity since it causes the covalent modification of the catalytic lysine residue of DHQ1. As this compound does not bear reactive electrophilic centers, how the chemical modification occurs is intriguing. We report here an integrated approach, which involves biochemical studies, X-ray crystallography and computational studies on the reaction path using combined quantum mechanics/molecular mechanics Umbrella Sampling Molecular Dynamics, that evidences that DHQ1 catalyzes its self-immolation by transforming the unreactive 2-hydroxyethylammonium group in 3 into an epoxide that triggers the lysine covalent modification. This finding might open opportunities for the design of lysine-targeted irreversible inhibitors bearing a 2-hydroxyethylammonium moiety as an epoxide proform, which to our knowledge has not been reported previously.
使细菌丧失感染能力是一种创新的方法,引起了人们对对抗超级细菌的关注。一种针对抗毒药物发现的相关靶标是 I 型脱氢酶 (DHQ1) 酶。研究表明,2-羟乙基铵衍生物 3 具有体外活性,因为它导致 DHQ1 的催化赖氨酸残基的共价修饰。由于该化合物不具有反应性的亲电中心,因此化学修饰是如何发生的是令人好奇的。我们在这里报告了一种综合方法,该方法涉及生化研究、X 射线晶体学和使用组合量子力学/分子力学 Umbrella Sampling 分子动力学对反应路径的计算研究,该研究证明 DHQ1 通过将 3 中的非反应性 2-羟乙基铵基团转化为引发赖氨酸共价修饰的环氧化物,从而催化其自身的自燃烧。这一发现可能为设计带有 2-羟乙基铵部分作为环氧化物前药的赖氨酸靶向不可逆抑制剂提供机会,据我们所知,这在以前尚未报道过。
