Lessons learned from aldehyde dehydrogenases as non-P450 aldehyde-oxidizing enzymes: implications for the 'exposome' and human health.

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Expert opinion on drug metabolism & toxicology Pub Date : 2025-08-01 Epub Date: 2025-07-02 DOI:10.1080/17425255.2025.2524872

Athina Lisgara, David C Thompson, Daniel W Nebert, Vasilis Vasiliou

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Abstract

Introduction: Aldehyde dehydrogenases (ALDHs) are critical enzymes that protect against cellular damage by metabolizing reactive aldehydes derived from both endogenous processes and environmental exposures. Although cytochrome P450 enzymes dominate metabolic toxicology discussions, the non-P450 ALDH superfamily plays a unique underrecognized role in mitigating the health impacts of the exposome - the totality of lifetime environmental exposures.

Areas covered: This Special Report highlights key insights from recent research on ALDHs, with a focus on their enzymatic diversity, disease-relevant polymorphisms, detoxication functions, and potential as therapeutic targets and clinical biomarkers. A comprehensive review is provided on how ALDHs influence individual susceptibility to environmental stressors, support redox balance, and serve as important mediators in cancer, cardiovascular and neurodegenerative diseases. Clinical implications of ALDH polymorphisms are discussed in the context of precision environmental health. Whereas ALDHs are generally known for their role in detoxifying harmful aldehydes, some ALDHs have been shown to activate other molecules instead. For example, ALDH2 can activate nitroglycerin to nitric oxide-related species - critical for cardioprotective signaling; a process distinct from their typical detoxication function.

Expert opinion: Integrating ALDH biology into exposome research offers a powerful path toward precision risk assessment and possible interventions. Given their public health and clinical relevance, future efforts should prioritize mapping ALDH-exposome interactions, genetic screening, and developing ALDH-targeted interventions.

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从作为非p450醛氧化酶的醛脱氢酶中吸取的教训：对“接触者”和人类健康的影响。

醛脱氢酶（ALDHs）是一种重要的酶，通过代谢源自内源性过程和环境暴露的活性醛来保护细胞免受损伤。尽管细胞色素P450酶在代谢毒理学讨论中占主导地位，但非P450 ALDH超家族在减轻暴露对健康的影响方面发挥着独特的未被认识到的作用-终生环境暴露的总体。涵盖领域：本特别报告重点介绍了ALDHs最近研究的关键见解，重点关注其酶多样性、疾病相关多态性、解毒功能以及作为治疗靶点和临床生物标志物的潜力。全面回顾了ALDHs如何影响个体对环境应激源的易感性，支持氧化还原平衡，并作为癌症，心血管和神经退行性疾病的重要介质。ALDH多态性的临床意义在精确环境健康的背景下进行了讨论。虽然ALDHs通常以其解毒有害醛的作用而闻名，但一些ALDHs已被证明可以激活其他分子。例如，ALDH2可以激活硝酸甘油生成一氧化氮相关物质，这对心脏保护信号至关重要；这一过程不同于它们典型的解毒功能。专家意见：将ALDH生物学整合到暴露研究中，为精确的风险评估和可能的干预提供了强有力的途径。鉴于其公共卫生和临床相关性，未来的工作应优先考虑aldh暴露体相互作用的定位、遗传筛查和开发针对aldh的干预措施。

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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Expert opinion on drug metabolism & toxicology

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