模型肽和单克隆抗体 Fab 片段中天冬氨酸-天冬氨酸基序的异构化。

Isomerization of Asp-Asp motif in model peptides and a monoclonal antibody Fab fragment.

机构信息

Early Stage Pharmaceutical Development, Genentech, South San Francisco, California 94080, USA.

出版信息

J Pharm Sci. 2013 Mar;102(3):947-59. doi: 10.1002/jps.23423. Epub 2012 Dec 20.

Abstract

Isomerization of aspartyl (Asp or D) residues is a critical degradation route to consider for stable monoclonal antibody formulations. Among the known hotspot sequences, the DD motif is relatively understudied. To gain mechanistic insights, we used model hexapeptides, YADXFK, YADDXK, and DIDDDM, as surrogates for the hotspots in a Fab protein (YADDFK and DIDDDM), to characterize the rate-pH profile of Asp isomerization. Compared with the YADGFK peptide, isomerization of D3 (the first D in the DD pair) in YADDFK was highly pH dependent. Comparison of rate-pH profiles of YADDFK, YADNFK, and YADHFK revealed a charge effect of the n + 1 residue-isomerization rate is accelerated by the positive side chain and reduced by negative side chain at n + 1 residue. Studies on YADDFK, YADDAK, and YADDGK indicated a mutual impact of D3 and D4 on their respective isomerization rates through charge effect. Comparison of rate-pH profile of DIDDDM sequence in peptide models with that in the complementary determining region of the Fab showed a faster rate in the Fab than in peptides, presumably because of contribution from structural factors in the former.

摘要

天冬氨酸（Asp 或 D）残基的异构化是稳定单克隆抗体制剂时需要考虑的关键降解途径。在已知的热点序列中，DD 基序相对研究较少。为了获得机理见解，我们使用模型六肽 YADXFK、YADDXK 和 DIDDDM 作为 Fab 蛋白（YADDFK 和 DIDDDM）热点的替代物，来表征 Asp 异构化的速率-pH 曲线。与 YADGFK 肽相比，YADDFK 中 D3（DD 对中的第一个 D）的异构化高度依赖于 pH。YADDFK、YADNFK 和 YADHFK 的速率-pH 曲线的比较揭示了 n + 1 残基的电荷效应-正侧链加速 n + 1 残基的异构化速率，而负侧链则降低其异构化速率。对 YADDFK、YADDAK 和 YADDGK 的研究表明，D3 和 D4 通过电荷效应相互影响各自的异构化速率。在肽模型中 DIDDDM 序列的速率-pH 曲线与 Fab 的互补决定区的比较表明，Fab 中的速率比肽中快，这可能是由于前者结构因素的贡献。

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模型肽和单克隆抗体 Fab 片段中天冬氨酸-天冬氨酸基序的异构化。

Isomerization of Asp-Asp motif in model peptides and a monoclonal antibody Fab fragment.

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