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HupZ,一种独特的血红素结合蛋白,增强了 A 群链球菌在黏膜定植期间的适应性。

HupZ, a Unique Heme-Binding Protein, Enhances Group A Streptococcus Fitness During Mucosal Colonization.

机构信息

Department of Biology, Georgia State University, Atlanta, GA, United States.

Binghamton Biofilm Research Center, Department of Biology, Binghamton University, Binghamton, NY, United States.

出版信息

Front Cell Infect Microbiol. 2022 Jun 14;12:867963. doi: 10.3389/fcimb.2022.867963. eCollection 2022.

DOI:10.3389/fcimb.2022.867963
PMID:35774404
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9237417/
Abstract

Group A Streptococcus (GAS) is a major pathogen that causes simple and invasive infections. GAS requires iron for metabolic processes and pathogenesis, and heme is its preferred iron source. We previously described the iron-regulated in GAS, showing that a recombinant HupZ-His protein binds and degrades heme. The His tag was later implicated in heme iron coordination by HupZ-His. Hence, we tested several recombinant HupZ proteins, including a tag-free protein, for heme binding and degradation . We established that HupZ binds heme but without coordinating the heme iron. Heme-HupZ readily accepted exogenous imidazole as its axial heme ligand, prompting degradation. Furthermore, HupZ bound a fragment of heme c (whose iron is coordinated by the cytochrome histidine residue) and exhibited limited degradation. GAS, however, did not grow on a heme c fragment as an iron source. Heterologous HupZ expression in increased heme b iron use. A GAS mutant showed reduced growth when using hemoglobin as an iron source, increased sensitivity to heme toxicity, and decreased fitness in a murine model for vaginal colonization. Together, the data demonstrate that HupZ contributes to heme metabolism and host survival, likely as a heme chaperone. HupZ is structurally similar to the recently described heme c-degrading enzyme, Pden_1323, suggesting that the GAS HupZ might be divergent to play a new role in heme metabolism.

摘要

A 群链球菌(GAS)是一种主要的病原体,可引起简单和侵袭性感染。GAS 代谢过程和发病机制需要铁,而血红素是其首选的铁源。我们之前描述了 GAS 中的铁调节因子 ,表明重组 HupZ-His 蛋白结合并降解血红素。后来,His 标签被认为参与了 HupZ-His 对血红素铁的配位。因此,我们测试了几种重组 HupZ 蛋白,包括一种无标签蛋白,以研究其对血红素的结合和降解作用。我们确定 HupZ 结合血红素但不配位血红素铁。血红素-HupZ 很容易接受外源咪唑作为其轴向血红素配体,从而引发降解。此外,HupZ 结合血红素 c 的一个片段(其铁由细胞色素组氨酸残基配位),并表现出有限的降解。然而,GAS 不能以血红素 c 片段作为铁源生长。在 中异源表达 HupZ 增加了血红素 b 铁的利用。一个 GAS 突变体在使用血红蛋白作为铁源时生长减少,对血红素毒性的敏感性增加,在阴道定植的小鼠模型中的适应性降低。总之,这些数据表明 HupZ 有助于血红素代谢和宿主存活,可能作为血红素伴侣。HupZ 结构上与最近描述的血红素 c 降解酶 Pden_1323 相似,表明 GAS HupZ 可能存在差异,在血红素代谢中发挥新的作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cc7d/9237417/9da9e672d324/fcimb-12-867963-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cc7d/9237417/9da9e672d324/fcimb-12-867963-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cc7d/9237417/9da9e672d324/fcimb-12-867963-g003.jpg

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