UMetals in the Gut: Microbial Strategies to Overcome Nutritional Immunity in the Intestinal Tract.

IF 2.9 3区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Metallomics Pub Date : 2024-11-22 DOI:10.1093/mtomcs/mfae052

Marisa S Egan, Raquel de Macedo, Joseph P Zackular

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Abstract

Trace metals are indispensable nutritional factors for all living organisms. During host-pathogen interactions, they serve as crucial resources that dictate infection outcomes. Accordingly, the host uses a defense strategy known as nutritional immunity, which relies on coordinated metal chelation to mitigate bacterial advances. In response, pathogens employ complex strategies to secure these resources at sites of infection. In the gastrointestinal (GI) tract, the microbiota must also acquire metals for survival, making metals a central line of competition in this complex ecosystem. In this minireview, we outline how bacteria secure iron, zinc, and manganese from the host with a focus on the GI tract. We also reflect on how host dietary changes impact disease outcomes and discuss therapeutic opportunities to target bacterial metal uptake systems. Ultimately, we find that recent discoveries on the dynamics of transition metals at the host-pathogen-microbiota interface have reshaped our understanding of enteric infections and provide insights into virulence strategies, microbial cooperation, and antibacterial strategies.

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肠道中的金属：克服肠道营养免疫的微生物策略。

痕量金属是所有生物体不可或缺的营养因素。在宿主与病原体相互作用的过程中，微量金属是决定感染结果的关键资源。因此，宿主采用一种称为营养免疫的防御策略，依靠协调的金属螯合作用来减轻细菌的侵袭。作为回应，病原体采用复杂的策略来确保感染部位的这些资源。在胃肠道（GI）中，微生物群也必须获得金属才能生存，因此金属成为这一复杂生态系统中的核心竞争线。在本小视图中，我们将以胃肠道为重点，概述细菌如何从宿主那里获得铁、锌和锰。我们还思考了宿主饮食变化如何影响疾病结果，并讨论了针对细菌金属摄取系统的治疗机会。最终，我们发现最近关于过渡金属在宿主-病原体-微生物群界面的动态变化的发现重塑了我们对肠道感染的认识，并为毒力策略、微生物合作和抗菌策略提供了见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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