Cheng Jin, Siqi Li, Katherine A. Vallis, Afaf H. El-Sagheer and Tom Brown
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引用次数: 0
Abstract
The reversible attachment of small molecules to oligonucleotides provides versatile tools for the development of improved oligonucleotide therapeutics. However, cleavable linkers in the oligonucleotide field are scarce, particularly with respect to the requirement for traceless release of the payload in vivo. Herein, we describe a cathepsin B-cleavable dipeptide phosphoramidite, Val-Ala(NB) for the automated synthesis of oligonucleotide-small molecule conjugates. Val-Ala(NB) was protected by a photolabile 2-nitrobenzyl group to improve the stability of the peptide linker during DNA synthesis. Intracellular cathepsin B digests the dipeptide efficiently, releasing the payload-phosphate which is converted to the free payload by endogenous phosphatase enzymes. With the advantages of modular synthesis and stimuli-responsive drug release, we believe Val-Ala(NB) will be a potentially valuable cleavable linker for use in oligonucleotide-drug conjugates.
小分子与寡核苷酸的可逆连接为开发改良型寡核苷酸疗法提供了多功能工具。然而,寡核苷酸领域的可裂解连接体非常稀少,特别是在要求有效载荷在体内无痕释放方面。在此,我们介绍了一种可被螯合蛋白 B 分解的二肽亚磷酰胺 Val-Ala(NB),用于寡核苷酸-小分子共轭物的自动合成。Val-Ala(NB)受可光敏的 2-硝基苄基保护,以提高 DNA 合成过程中肽连接体的稳定性。细胞内的凝血酶 B 能有效地消化二肽,释放出有效载荷-磷酸盐,并在内源性磷酸酶的作用下转化为游离有效载荷。凭借模块化合成和刺激响应式药物释放的优势,我们相信 Val-Ala(NB)将成为寡核苷酸-药物共轭物中一种有潜在价值的可裂解连接体。
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