革兰氏阳性模式细菌中的血红素获取与耐受性：一种精心调控的平衡。

Heme acquisition and tolerance in Gram-positive model bacteria: An orchestrated balance.

作者信息

Wang Mengying, Wang Yuwei, Wang Mingshu, Liu Mafeng, Cheng Anchun

机构信息

Engineering Research Center of Southwest Animal Disease Prevention and Control Technology, Ministry of Education of the People's Republic of China, Chengdu 611130, China.

Key Laboratory of Animal Disease and Human Health of Sichuan Province, Chengdu 611130, China.

出版信息

Heliyon. 2023 Jul 13;9(7):e18233. doi: 10.1016/j.heliyon.2023.e18233. eCollection 2023 Jul.

DOI:10.1016/j.heliyon.2023.e18233

PMID:37501967

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10368836/

Abstract

As a nutrient, heme is important for various cellular processes of organism. Bacteria can obtain heme via heme biosynthesis or/and uptake of exogenous heme from the host. On the other side, absorption of excess heme is cytotoxic to bacteria. Thus, bacteria have developed systems to relieve heme toxicity and contribute to the maintenance of heme homeostasis. In the past decades, the mechanisms underlying heme acquisition and tolerance have been well studied in Gram-positive model bacteria, such as , and other Gram-positive bacteria. Here, we review the elaborate mechanisms by which these bacteria acquire heme and resist heme toxicity. Since both the heme utilization system and the heme tolerance system contribute to bacterial virulence, this review is not only helpful for a comprehensive understanding of the heme homeostasis mechanism in Gram-positive bacteria but also provides a theoretical basis for the development of antimicrobial agents.

摘要

作为一种营养物质，血红素对生物体的各种细胞过程都很重要。细菌可以通过血红素生物合成或/和从宿主摄取外源性血红素获得血红素。另一方面，过量血红素的吸收对细菌具有细胞毒性。因此，细菌已经发展出缓解血红素毒性并有助于维持血红素稳态的系统。在过去几十年中，在革兰氏阳性模式细菌，如、和其他革兰氏阳性细菌中，血红素获取和耐受的潜在机制已得到充分研究。在这里，我们综述了这些细菌获取血红素并抵抗血红素毒性的精细机制。由于血红素利用系统和血红素耐受系统都有助于细菌的毒力，本综述不仅有助于全面了解革兰氏阳性细菌中的血红素稳态机制，还为抗菌剂的开发提供了理论基础。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d84c/10368836/f472d8a0b151/gr1.jpg

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革兰氏阳性模式细菌中的血红素获取与耐受性：一种精心调控的平衡。

Heme acquisition and tolerance in Gram-positive model bacteria: An orchestrated balance.

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