在厚壁菌门中赋予对酰基环肽抗生素抗性的ClpP突变的功能表征

Functional Characterisation of ClpP Mutations Conferring Resistance to Acyldepsipeptide Antibiotics in Firmicutes.

作者信息

Malik Imran T, Pereira Rebeca, Vielberg Marie-Theres, Mayer Christian, Straetener Jan, Thomy Dhana, Famulla Kirsten, Castro Helena, Sass Peter, Groll Michael, Brötz-Oesterhelt Heike

机构信息

Interfaculty Institute of Microbiology and Infection Medicine, Dept. of Microbial Bioactive Compounds, University of Tübingen, Auf der Morgenstelle 28, 72076, Tuebingen, Germany.

Laboratory of Antibiotics, Biochemistry, Education and Molecular modeling, Department of Molecular and Cell Biology, Federal Fluminense University, Outeiro São João Batista, Centro, Niterói, 24210130, Rio de Janeiro, Brazil.

出版信息

Chembiochem. 2020 Jul 16;21(14):1997-2012. doi: 10.1002/cbic.201900787. Epub 2020 Apr 9.

DOI:10.1002/cbic.201900787

PMID:32181548

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7496096/

Abstract

Acyldepsipeptide (ADEP) is an exploratory antibiotic with a novel mechanism of action. ClpP, the proteolytic core of the caseinolytic protease, is deregulated towards unrestrained proteolysis. Here, we report on the mechanism of ADEP resistance in Firmicutes. This bacterial phylum contains important pathogens that are relevant for potential ADEP therapy. For Staphylococcus aureus, Bacillus subtilis, enterococci and streptococci, spontaneous ADEP-resistant mutants were selected in vitro at a rate of 10 . All isolates carried mutations in clpP. All mutated S. aureus ClpP proteins characterised in this study were functionally impaired; this increased our understanding of the mode of operation of ClpP. For molecular insights, crystal structures of S. aureus ClpP bound to ADEP4 were determined. Well-resolved N-terminal domains in the apo structure allow the pore-gating mechanism to be followed. The compilation of mutations presented here indicates residues relevant for ClpP function and suggests that ADEP resistance will occur at a lower rate during the infection process.

摘要

酰基二肽（ADEP）是一种具有新型作用机制的探索性抗生素。酪蛋白水解蛋白酶的蛋白水解核心ClpP会失控而导致不受限制的蛋白水解。在此，我们报告厚壁菌门中ADEP耐药性的机制。这个细菌门包含与潜在ADEP治疗相关的重要病原体。对于金黄色葡萄球菌、枯草芽孢杆菌、肠球菌和链球菌，在体外以10的频率筛选出自发性ADEP耐药突变体。所有分离株的clpP均发生了突变。本研究中表征的所有突变型金黄色葡萄球菌ClpP蛋白功能均受损；这加深了我们对ClpP运作模式的理解。为了获得分子层面的见解，测定了与ADEP4结合的金黄色葡萄球菌ClpP的晶体结构。无配体结构中解析良好的N端结构域有助于追踪孔道门控机制。此处呈现的突变汇总表明了与ClpP功能相关的残基，并表明在感染过程中ADEP耐药性的发生率会更低。

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在厚壁菌门中赋予对酰基环肽抗生素抗性的ClpP突变的功能表征

Functional Characterisation of ClpP Mutations Conferring Resistance to Acyldepsipeptide Antibiotics in Firmicutes.

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