定向进化解锁尼古丁降解黄素酶的氧气反应性。

Directed evolution unlocks oxygen reactivity for a nicotine-degrading flavoenzyme.

机构信息

Howard Hughes Medical Institute and Department of Molecular, Cellular and Developmental Biology, University of Michigan, Ann Arbor, MI, USA.

Cellular and Molecular Biology Program, University of Michigan, Ann Arbor, MI, USA.

出版信息

Nat Chem Biol. 2023 Nov;19(11):1406-1414. doi: 10.1038/s41589-023-01426-y. Epub 2023 Sep 28.

DOI:10.1038/s41589-023-01426-y

PMID:37770699

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10611581/

Abstract

The flavoenzyme nicotine oxidoreductase (NicA2) is a promising injectable treatment to aid in the cessation of smoking, a behavior responsible for one in ten deaths worldwide. NicA2 acts by degrading nicotine in the bloodstream before it reaches the brain. Clinical use of NicA2 is limited by its poor catalytic activity in the absence of its natural electron acceptor CycN. Without CycN, NicA2 is instead oxidized slowly by dioxygen (O), necessitating unfeasibly large doses in a therapeutic setting. Here, we report a genetic selection strategy that directly links CycN-independent activity of NicA2 to growth of Pseudomonas putida S16. This selection enabled us to evolve NicA2 variants with substantial improvement in their rate of oxidation by O. The encoded mutations cluster around a putative O tunnel, increasing flexibility and accessibility to O in this region. These mutations further confer desirable clinical properties. A variant form of NicA2 is tenfold more effective than the wild type at degrading nicotine in the bloodstream of rats.

摘要

黄素酶尼古丁氧化还原酶（NicA2）是一种很有前途的可注射治疗方法，可帮助戒烟，而吸烟是导致全球十分之一人口死亡的原因。NicA2 通过在尼古丁到达大脑之前在血液中降解尼古丁而起作用。由于缺乏其天然电子受体 CycN，NicA2 的催化活性很差，因此其临床应用受到限制。在没有 CycN 的情况下，NicA2 会被氧气（O）缓慢氧化，因此在治疗环境中需要使用非常大的剂量。在这里，我们报告了一种遗传选择策略，该策略可将 NicA2 的 CycN 独立活性直接与 Pseudomonas putida S16 的生长联系起来。这种选择使我们能够进化出 NicA2 的变体，从而大大提高了其被 O 氧化的速率。编码的突变集中在一个假定的 O 隧道周围，增加了该区域 O 的灵活性和可及性。这些突变进一步赋予了理想的临床特性。NicA2 的一种变体形式在降解大鼠血液中的尼古丁方面比野生型有效十倍。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/75f3/10611581/5d343a150685/41589_2023_1426_Fig1_HTML.jpg

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定向进化解锁尼古丁降解黄素酶的氧气反应性。

Directed evolution unlocks oxygen reactivity for a nicotine-degrading flavoenzyme.

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