A Sustainable Approach to ε-Lys Branched GLP-1 Analogs: Integrating Green SPPS, Metal-free Alloc Removal, Waste Minimization and TFA/PFAS-free Resin Cleavage

化学 卤化 劈理(地质) 肽合成 组合化学 缩小 有机化学 环境友好型 溶剂 持续性 环肽 兴奋剂 氨基酸 生态足迹 反应条件 足迹 计算机科学 制造工艺 连接器 生化工程 催化作用
作者
Jan Pawlas,Johan Billing,Behabitu Ergette Tebikachew,Larisa Wahlström,Linda M. Haugaard‐Kedström
出处
期刊:Organic Process Research & Development [American Chemical Society]
卷期号:29 (11): 2989-2997 被引量:2
标识
DOI:10.1021/acs.oprd.5c00341
摘要

Epsilon-lysine branched (ε-Kb) glucagon-like peptide-1 (GLP-1) analogs comprise a prominent class of peptide therapeutics, altering the outlook for illnesses such as type 2 diabetes and obesity, in turn necessitating manufacturing on up to ton scales. Nevertheless, the lack of sustainable approaches to ε-Kb GLP-1s has raised concerns about the viability of making ε-Kb GLP-1s with current manufacturing methods. We report a solid-phase peptide synthesis (SPPS) approach to ε-Kb GLP-1s demonstrated by a four-α-disubstituted unnatural amino acid (uAA) containing GLP-1 triple agonist as a substrate. Our approach to ε-Kb GLP-1s encompassed efficient DMF-free SPPS, which required addressing solvent quality issues and metal-free Lys(Alloc) removal, for which a His iodination side reaction had to be tackled. Minimizing the footprint of the synthesis was achieved by a dual strategy, eliminating postcoupling washes and recycling the SPPS waste stream, while FeCl3/AcOH cleavage of ε-Kb GLP-1 peptide resin marks the expansion of TFA-free resin cleavage from 10AA to ∼40AA peptides. Taken together, our approach constitutes the first truly sustainable SPPS route to ε-Kb GLP-1s, opening up a new frontier in the commercially viable and environmentally responsible manufacturing of this notable class of incretin peptide drugs.
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