基于血红素的环境传感器蛋白：对理解细菌发病机制的启示。

Environmental heme-based sensor proteins: implications for understanding bacterial pathogenesis.

机构信息

Department of Microbiology, University of Alabama at Birmingham, Birmingham, Alabama, USA.

出版信息

Antioxid Redox Signal. 2012 Nov 1;17(9):1232-45. doi: 10.1089/ars.2012.4613. Epub 2012 Jun 13.

DOI:10.1089/ars.2012.4613

PMID:22494151

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3430476/

Abstract

SIGNIFICANCE

Heme is an important prosthetic group required in a wide array of functions, including respiration, photosynthesis, metabolism, O(2) transport, xenobiotic detoxification, and peroxide production and destruction, and is an essential cofactor in proteins such as catalases, peroxidases, and members of the cytochrome P450 superfamily. Importantly, bacterial heme-based sensor proteins exploit the redox chemistry of heme to sense environmental gases and the intracellular redox state of the cell.

RECENT ADVANCES

The bacterial proteins FixL (Rhizobium ssp.), CooA (Rhodospirillum rubrum), EcDos (Escherichia. coli), RcoM (Burkholderia xenovorans), and particularly Mycobacterium tuberculosis (Mtb) DosS and DosT have emerged as model paradigms of environmental heme-based sensors capable of detecting multiple gases including NO, CO, and O(2).

CRITICAL ISSUES

How the diatomic gases NO, CO, or O(2) bind to heme iron to generate Fe-NO, Fe-CO, and Fe-O(2) bonds, respectively, and how the oxidation of heme iron by O(2) serves as a sensing mechanism that controls the activity of key proteins is complex and largely unclear. This is particularly important as many bacterial pathogens, including Mtb, encounters three overlapping host gases (NO, CO, and O(2)) during human infection.

FUTURE DIRECTIONS

Heme is an important prosthetic group that monitors the microbe's internal and external surroundings to alter signal transduction or enzymatic activation. Modern expression, metabolomic and biochemical technologies combined with in vivo pathogenesis studies should provide fresh insights into the mechanism of action of heme-based redox sensors.

摘要

意义

血红素是一种重要的辅基，广泛参与多种功能，包括呼吸、光合作用、代谢、O2 运输、外来化合物解毒以及过氧化物的生成和破坏，还是过氧化氢酶、过氧化物酶和细胞色素 P450 超家族成员等蛋白质的必需辅因子。重要的是，细菌血红素基传感器蛋白利用血红素的氧化还原化学性质来感知环境气体和细胞内的氧化还原状态。

关键问题

NO、CO 或 O2 如何与血红素铁结合，分别生成 Fe-NO、Fe-CO 和 Fe-O2 键，以及 O2 对血红素铁的氧化如何作为一种传感机制来控制关键蛋白的活性，这些问题非常复杂，在很大程度上仍不清楚。这一点尤其重要，因为许多细菌病原体，包括 Mtb，在人类感染期间会遇到三种重叠的宿主气体（NO、CO 和 O2）。

未来方向

血红素是一种重要的辅基，它可以监测微生物的内部和外部环境，从而改变信号转导或酶的激活。现代表达、代谢组学和生化技术结合体内发病机制研究，应该可以为血红素基氧化还原传感器的作用机制提供新的见解。

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