NlpC/p60 肽聚糖水解酶 SagA 定位于细胞分裂部位，仅需催化二联体即可发挥蛋白酶活性。

NlpC/p60 Peptidoglycan Hydrolase SagA Localizes to Sites of Cell Division and Requires Only a Catalytic Dyad for Protease Activity.

机构信息

Laboratory of Chemical Biology and Microbial Pathogenesis, The Rockefeller University, New York, New York 10065, United States.

Proteomics Resource Center, The Rockefeller University, New York, New York 10065, United States.

出版信息

Biochemistry. 2020 Nov 24;59(46):4470-4480. doi: 10.1021/acs.biochem.0c00755. Epub 2020 Nov 2.

DOI:10.1021/acs.biochem.0c00755

PMID:33136372

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8191637/

Abstract

Peptidoglycan is a vital component of the bacterial cell wall, and its dynamic remodeling by NlpC/p60 hydrolases is crucial for proper cell division and survival. Beyond these essential functions, we previously discovered that species express and secrete the NlpC/p60 hydrolase-secreted antigen A (SagA), whose catalytic activity can modulate host immune responses in animal models. However, the localization and peptidoglycan hydrolase activity of SagA in was still unclear. In this study, we show that SagA contributes to a triseptal structure in dividing cells of enterococci and localizes to sites of cell division through its N-terminal coiled-coil domain. Using molecular modeling and site-directed mutagenesis, we identify amino acid residues within the SagA-NlpC/p60 domain that are crucial for catalytic activity and potential substrate binding. Notably, these studies revealed that SagA may function via a catalytic Cys-His dyad instead of the predicted Cys-His-His triad, which is conserved in SagA orthologs from other species. Our results provide key additional insight into peptidoglycan remodeling in by SagA NlpC/p60 hydrolases.

摘要

肽聚糖是细菌细胞壁的重要组成部分，NlpC/p60 水解酶对其动态重塑对于正常的细胞分裂和存活至关重要。除了这些基本功能外，我们之前还发现种表达和分泌 NlpC/p60 水解酶分泌的抗原 A（SagA），其催化活性可以在动物模型中调节宿主免疫反应。然而，SagA 在中的定位和肽聚糖水解酶活性仍不清楚。在这项研究中，我们表明 SagA 有助于肠球菌分裂细胞中的三联结构，并通过其 N 端卷曲螺旋结构域定位到细胞分裂部位。通过分子建模和定点突变，我们确定了 SagA-NlpC/p60 结构域中对催化活性和潜在底物结合至关重要的氨基酸残基。值得注意的是，这些研究表明 SagA 可能通过催化 Cys-His 二联体而不是保守于其他种 SagA 同源物中的预测 Cys-His-His 三联体发挥作用。我们的研究结果为 SagA NlpC/p60 水解酶在中肽聚糖重塑提供了关键的补充见解。

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