开发抗泛硫乙胺酶的泛酰胺类抗菌剂：结构修饰对泛酸激酶相互作用及作用模式的影响

Developing Pantetheinase-Resistant Pantothenamide Antibacterials: Structural Modification Impacts on PanK Interaction and Mode of Action.

作者信息

Barnard Leanne, Mostert Konrad J, van Otterlo Willem A L, Strauss Erick

机构信息

Department of Biochemistry , Stellenbosch University , Private Bag X1 , Matieland , 7602 , South Africa.

Department of Chemistry and Polymer Science , Stellenbosch University , Private Bag X1 , Matieland , 7602 , South Africa.

出版信息

ACS Infect Dis. 2018 May 11;4(5):736-743. doi: 10.1021/acsinfecdis.7b00240. Epub 2018 Jan 23.

DOI:10.1021/acsinfecdis.7b00240

PMID:29332383

Abstract

Pantothenamides (PanAms) are analogues of pantothenate, the biosynthetic precursor of coenzyme A (CoA), and show potent antimicrobial activity against several bacteria and the malaria parasite in vitro. However, pantetheinase enzymes that normally degrade pantetheine in human serum also act on the PanAms, thereby reducing their potency. In this study, we designed analogues of the known antibacterial PanAm N-heptylpantothenamide (N7-Pan) to be resistant to pantetheinase by using three complementary structural modification strategies. We show that, while two of these are effective in imparting resistance, the introduced modifications have an impact on the analogues' interaction with pantothenate kinase (PanK, the first CoA biosynthetic enzyme), which acts as a metabolic activator and/or target of the PanAms. This, in turn, directly affects their mode of action. Importantly, we discover that the phosphorylated version of N7-Pan shows pantetheinase resistance and antistaphylococcal activity, providing a lead for future studies in the ongoing search of PanAm analogues that show in vivo efficacy.

摘要

泛硫乙胺（PanAms）是泛酸的类似物，泛酸是辅酶A（CoA）的生物合成前体，在体外对多种细菌和疟原虫显示出强大的抗菌活性。然而，通常在人血清中降解泛硫乙胺的泛硫乙胺酶也作用于PanAms，从而降低其效力。在本研究中，我们通过使用三种互补的结构修饰策略，设计了已知的抗菌性PanAm N-庚基泛酰胺（N7-Pan）的类似物，使其对泛硫乙胺酶具有抗性。我们表明，虽然其中两种策略在赋予抗性方面是有效的，但引入的修饰会影响类似物与泛酸激酶（PanK，CoA生物合成的第一种酶）的相互作用，而PanK是PanAms的代谢激活剂和/或靶点。这反过来又直接影响它们的作用方式。重要的是，我们发现N7-Pan的磷酸化形式显示出对泛硫乙胺酶的抗性和抗葡萄球菌活性，为正在进行的寻找具有体内疗效的PanAm类似物的未来研究提供了线索。

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开发抗泛硫乙胺酶的泛酰胺类抗菌剂：结构修饰对泛酸激酶相互作用及作用模式的影响

Developing Pantetheinase-Resistant Pantothenamide Antibacterials: Structural Modification Impacts on PanK Interaction and Mode of Action.

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