结核分枝杆菌磷酸泛酰巯基乙胺基转移酶的化学验证：片段连接和 CRISPR 干扰。

Chemical Validation of Mycobacterium tuberculosis Phosphopantetheine Adenylyltransferase Using Fragment Linking and CRISPR Interference.

机构信息

Yusuf Hamied Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge, CB2 1EW, UK.

Present address: Univ. Lille, Inserm, CHU Lille, UMR-S 1172-LiNC-Lille Neuroscience & Cognition, 59000, Lille, France.

出版信息

Angew Chem Int Ed Engl. 2023 Apr 17;62(17):e202300221. doi: 10.1002/anie.202300221. Epub 2023 Mar 13.

DOI:10.1002/anie.202300221

PMID:36757665

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10947119/

Abstract

The coenzyme A (CoA) biosynthesis pathway has attracted attention as a potential target for much-needed novel antimicrobial drugs, including for the treatment of tuberculosis (TB), the lethal disease caused by Mycobacterium tuberculosis (Mtb). Seeking to identify inhibitors of Mtb phosphopantetheine adenylyltransferase (MtbPPAT), the enzyme that catalyses the penultimate step in CoA biosynthesis, we performed a fragment screen. In doing so, we discovered three series of fragments that occupy distinct regions of the MtbPPAT active site, presenting a unique opportunity for fragment linking. Here we show how, guided by X-ray crystal structures, we could link weakly-binding fragments to produce an active site binder with a K <20 μM and on-target anti-Mtb activity, as demonstrated using CRISPR interference. This study represents a big step toward validating MtbPPAT as a potential drug target and designing a MtbPPAT-targeting anti-TB drug.

摘要

辅酶 A（CoA）生物合成途径作为一种潜在的新型抗菌药物靶点引起了关注，包括用于治疗结核病（TB），即由结核分枝杆菌（Mtb）引起的致命疾病。为了寻找 Mtb 磷酸泛酰巯基乙胺腺苷酰转移酶（MtbPPAT）的抑制剂，该酶催化 CoA 生物合成的倒数第二步，我们进行了片段筛选。在这样做的过程中，我们发现了三个系列的片段，它们占据了 MtbPPAT 活性位点的不同区域，为片段连接提供了独特的机会。在这里，我们展示了如何在 X 射线晶体结构的指导下，将弱结合片段连接起来，产生一种 K <20 μM 的活性位点结合物，并具有针对 Mtb 的抗结核活性，这是通过 CRISPR 干扰来证明的。这项研究朝着验证 MtbPPAT 作为潜在药物靶点和设计针对 MtbPPAT 的抗结核药物的方向迈出了一大步。

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结核分枝杆菌磷酸泛酰巯基乙胺基转移酶的化学验证：片段连接和 CRISPR 干扰。

Chemical Validation of Mycobacterium tuberculosis Phosphopantetheine Adenylyltransferase Using Fragment Linking and CRISPR Interference.

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