针对C端组氨酸残基的IgG结合肽的合成及构效关系研究。
Synthesis and structure-activity relationship studies of IgG-binding peptides focused on the C-terminal histidine residue.
作者信息
Muguruma Kyohei, Ito Mayu, Fukuda Akane, Kishimoto Satoshi, Taguchi Akihiro, Takayama Kentaro, Taniguchi Atsuhiko, Ito Yuji, Hayashi Yoshio
机构信息
Department of Medicinal Chemistry , Tokyo University of Pharmacy and Life Sciences , Hachioji , Tokyo , 192-0392 , Japan . Email:
Department of Chemistry and Bioscience , Graduate School of Science and Engineering , Kagoshima University , Korimoto , Kagoshima , 890-0065 , Japan.
出版信息
Medchemcomm. 2019 Aug 1;10(10):1789-1795. doi: 10.1039/c9md00294d. eCollection 2019 Oct 1.
Currently, IgG-binding peptides are widely utilized as a research tool, as molecules that guide substrates to the Fc site for site-selective antibody modification, leading to preparation of a homogeneous antibody-drug conjugate. In this study, a structure-activity relationship study of an IgG-binding peptide, 15-IgBP, that is focused on its C-terminal His residue was performed in an attempt to create more potent peptides. A peptide with a substitution of His17 by 2-pyridylalanine (2-Pya) showed a good binding affinity (15-His17(2-Pya), = 75.7 nM). In combination with a previous result, we obtained 15-Lys8Leu/His17(2-Pya)-OH that showed a potent binding affinity ( = 2.48 nM) and avoided three synthetic problems concerning the -hydroxybenzyl amidation at the C-terminus, the difficulty associated with coupling at the His7 position and the racemization of 2-Pya.
目前,IgG结合肽作为一种研究工具被广泛应用,它可作为引导底物至Fc位点进行位点选择性抗体修饰的分子,从而制备出均一的抗体-药物偶联物。在本研究中,为了制备出活性更强的肽段,我们针对IgG结合肽15-IgBP的C端组氨酸残基进行了构效关系研究。用2-吡啶基丙氨酸(2-Pya)取代组氨酸17的肽段表现出良好的结合亲和力(15-His17(2-Pya),Kd = 75.7 nM)。结合之前的研究结果,我们得到了15-Lys8Leu/His17(2-Pya)-OH,它表现出很强的结合亲和力(Kd = 2.48 nM),并且避免了C端的对羟基苄基酰胺化、组氨酸7位偶联困难以及2-Pya消旋化这三个合成问题。
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