一种用于合成治疗性STING激活剂的激酶-cGAS级联反应。

A kinase-cGAS cascade to synthesize a therapeutic STING activator.

作者信息

McIntosh John A, Liu Zhijian, Andresen Brian M, Marzijarani Nastaran Salehi, Moore Jeffrey C, Marshall Nicholas M, Borra-Garske Margie, Obligacion Jennifer V, Fier Patrick S, Peng Feng, Forstater Jacob H, Winston Matthew S, An Chihui, Chang Wonsuk, Lim Jongwon, Huffman Mark A, Miller Steven P, Tsay Fuh-Rong, Altman Michael D, Lesburg Charles A, Steinhuebel Dietrich, Trotter B Wesley, Cumming Jared N, Northrup Alan, Bu Xiaodong, Mann Benjamin F, Biba Mirlinda, Hiraga Kaori, Murphy Grant S, Kolev Joshua N, Makarewicz Amanda, Pan Weilan, Farasat Iman, Bade Rachel S, Stone Kevin, Duan Da, Alvizo Oscar, Adpressa Donovan, Guetschow Erik, Hoyt Erik, Regalado Erik L, Castro Steve, Rivera Nelo, Smith Joseph P, Wang Fengqiang, Crespo Alejandro, Verma Deeptak, Axnanda Stephanus, Dance Zachary E X, Devine Paul N, Tschaen David, Canada Keith A, Bulger Paul G, Sherry Benjamin D, Truppo Matthew D, Ruck Rebecca T, Campeau Louis-Charles, Bennett David Jonathan, Humphrey Guy R, Campos Kevin R, Maddess Matthew L

机构信息

Process Research & Development, Merck & Co., Inc., Rahway, NJ, USA.

Discovery Chemistry, Merck & Co., Inc., Kenilworth, NJ, USA.

出版信息

Nature. 2022 Mar;603(7901):439-444. doi: 10.1038/s41586-022-04422-9. Epub 2022 Mar 16.

DOI:10.1038/s41586-022-04422-9

PMID:35296845

Abstract

The introduction of molecular complexity in an atom- and step-efficient manner remains an outstanding goal in modern synthetic chemistry. Artificial biosynthetic pathways are uniquely able to address this challenge by using enzymes to carry out multiple synthetic steps simultaneously or in a one-pot sequence. Conducting biosynthesis ex vivo further broadens its applicability by avoiding cross-talk with cellular metabolism and enabling the redesign of key biosynthetic pathways through the use of non-natural cofactors and synthetic reagents. Here we describe the discovery and construction of an enzymatic cascade to MK-1454, a highly potent stimulator of interferon genes (STING) activator under study as an immuno-oncology therapeutic (ClinicalTrials.gov study NCT04220866 ). From two non-natural nucleotide monothiophosphates, MK-1454 is assembled diastereoselectively in a one-pot cascade, in which two thiotriphosphate nucleotides are simultaneously generated biocatalytically, followed by coupling and cyclization catalysed by an engineered animal cyclic guanosine-adenosine synthase (cGAS). For the thiotriphosphate synthesis, three kinase enzymes were engineered to develop a non-natural cofactor recycling system in which one thiotriphosphate serves as a cofactor in its own synthesis. This study demonstrates the substantial capacity that currently exists to use biosynthetic approaches to discover and manufacture complex, non-natural molecules.

摘要

以原子和步骤高效的方式引入分子复杂性仍然是现代合成化学中一个尚未实现的目标。人工生物合成途径能够独特地应对这一挑战，通过利用酶同时或在一锅法序列中进行多个合成步骤。体外进行生物合成通过避免与细胞代谢的相互干扰，并通过使用非天然辅因子和合成试剂实现关键生物合成途径的重新设计，进一步拓宽了其适用性。在此，我们描述了一种酶促级联反应的发现与构建，该反应可生成MK-1454，MK-1454是一种正在研究的强效干扰素基因（STING）激活剂，作为一种免疫肿瘤治疗药物（ClinicalTrials.gov研究编号NCT04220866）。从两种非天然核苷酸单硫代磷酸酯出发，MK-1454在一锅级联反应中以非对映选择性方式组装而成，其中两个硫代三磷酸核苷酸通过生物催化同时生成，随后由一种工程化的动物环鸟苷-腺苷合酶（cGAS）催化偶联和环化反应。对于硫代三磷酸的合成，三种激酶经过工程改造以开发一种非天然辅因子循环系统，其中一种硫代三磷酸在其自身合成过程中作为辅因子。这项研究证明了目前利用生物合成方法发现和制造复杂非天然分子所具有的巨大能力。

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一种用于合成治疗性STING激活剂的激酶-cGAS级联反应。

A kinase-cGAS cascade to synthesize a therapeutic STING activator.

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