脂肪醛亚硫酸氢盐加合物作为可电离脂质合成中的纯化处理手段。

Fatty aldehyde bisulfite adducts as a purification handle in ionizable lipid synthesis.

作者信息

Atwood Graham, Purbiya Sona, Reid Cassandra, Smith Brandon, Kaur Kuljit, Wicks Drew, Gaudet Peter, MacLeod K Cory, Vincent-Rocan Jean-Francois

机构信息

BioVectra Inc. Charlottetown Prince Edward Island C1E 0A1 Canada

出版信息

RSC Adv. 2024 Aug 19;14(36):26233-26238. doi: 10.1039/d4ra05189k. eCollection 2024 Aug 16.

DOI:10.1039/d4ra05189k

PMID:39161429

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11332587/

Abstract

Rapid access to ALC-0315, a crucial component of the formulated Pfizer Covid vaccine, was obtained by employing solid adduct formation and filtration after an oxidation step in place of the standard chromatographic separation, allowing for a more scalable synthesis. Impurities were removed by formation of this fatty aldehyde bisulfite adduct at the penultimate step and by performing the final reductive amination directly with the fatty aldehyde bisulfite adduct. This eliminates chromatographic separations for all prepared aldehyde containing intermediates. Along with ALC-0315, FTT5 and SM-102 ionizable lipids were prepared utilizing this strategy. This work paves the way for more sustainable access to these critical ionizable lipids that would de-risk the world supply of important vaccines and medicines in the future.

摘要

通过在氧化步骤后采用固体加合物形成和过滤，取代标准的色谱分离，快速获得了辉瑞新冠疫苗配方中的关键成分ALC-0315，从而实现了更具可扩展性的合成。在倒数第二步通过形成这种脂肪醛亚硫酸氢盐加合物，并直接用脂肪醛亚硫酸氢盐加合物进行最终的还原胺化反应来去除杂质。这消除了所有制备的含醛中间体的色谱分离。利用该策略，除了制备ALC-0315外，还制备了FTT5和SM-102可电离脂质。这项工作为更可持续地获取这些关键的可电离脂质铺平了道路，这将降低未来重要疫苗和药品全球供应的风险。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f331/11332587/c9a08bfce1f9/d4ra05189k-s1.jpg

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脂肪醛亚硫酸氢盐加合物作为可电离脂质合成中的纯化处理手段。

Fatty aldehyde bisulfite adducts as a purification handle in ionizable lipid synthesis.

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