Pegylated peptides. II. Solid-phase synthesis of amino-, carboxy- and side-chain pegylated peptides.

Y A Lu, A M Felix
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引用次数: 0

Abstract

General procedures are presented for the site-specific pegylation of peptides at the NH2-terminus, side-chain positions (Lys or Asp/Glu) or COOH-terminus using solid-phase Fmoc/tBu methodologies. A model tridecapeptide fragment of interleukin-2, IL-2(44-56)-NH2, was chosen for this study since it possesses several trifunctional amino acids which serve as potential sites for pegylation. The pegylation reagents were designed to contain either Nle or Orn, which served as diagnostic amino acids for confirming the presence of 1 PEG unit per mole of peptide. NH2-Terminal pegylation was carried out by coupling PEG-CH2CO-Nle-OH to the free NH2-terminus of the peptide-resin. Side-chain pegylation of Lys or Asp was achieved by one of two pathways. Direct side-chain pegylation was accomplished by coupling with Fmoc-Lys(PEG-CH2CO-Nle)-OH or Fmoc-Asp(Nle-NH-CH2CH2-PEG)-OH, followed by solid-phase assemblage of the pegylated peptide-resin and TFA cleavage. Alternatively, allylic protective groups were introduced via Fmoc-Lys(Alloc)-OH or Fmoc-Asp(O-Allyl)-OH, and selectively removed by palladium-catalyzed deprotection after assemblage of the peptide-resin. Solid-phase pegylation of the side-chain of Lys or Asp was then carried out in the final stage with PEG-CH2CO-Nle-OH or H-Nle-NH-(CH2)2-PEG, respectively. COOH-Terminal pegylation was achieved through the initial attachment of Fmoc-Orn(PEG-CH2CO)-OH to the solid support, followed by solid-phase peptide synthesis using the Fmoc/tBu strategy. The pegylated peptides were purified by dialysis and preparative HPLC and were fully characterized by analytical HPLC, amino acid analysis, 1H-NMR spectroscopy and laser desorption mass spectrometry.

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聚乙二醇缩氨酸。2氨基、羧基和侧链聚乙二醇肽的固相合成。
介绍了使用固相Fmoc/tBu方法在nh2端、侧链位置(Lys或Asp/Glu)或cooh端进行位点特异性聚乙二醇化的一般程序。本研究选择了白介素-2的模型三肽片段IL-2(44-56)-NH2,因为它具有几个三功能氨基酸,可以作为聚乙二醇化的潜在位点。聚乙二醇化试剂被设计为含有Nle或Orn,它们作为诊断氨基酸,用于确认每摩尔肽中存在1个PEG单位。通过将PEG-CH2CO-Nle-OH偶联到肽树脂的游离nh2端进行了nh2末端聚乙二醇化。赖氨酸或Asp的侧链聚乙二醇化是通过两种途径之一实现的。通过与fmoc - lyys (PEG-CH2CO-Nle)-OH或Fmoc-Asp(Nle-NH-CH2CH2-PEG)-OH偶联实现直接侧链聚乙二醇化,然后将聚乙二醇化的肽-树脂进行固相组装和TFA裂解。或者,烯丙基保护基团通过Fmoc-Lys(Alloc)-OH或Fmoc-Asp(O-Allyl)-OH引入,并在肽-树脂组装后通过钯催化脱保护选择性去除。最后用PEG-CH2CO-Nle-OH或H-Nle-NH-(CH2)2-PEG对Lys侧链或Asp侧链进行固相聚乙二醇化。通过将Fmoc- orn (PEG-CH2CO)-OH初始附着在固体载体上实现cooh末端聚乙二醇化,然后使用Fmoc/tBu策略合成固相肽。聚乙二醇化肽通过透析和制备型高效液相色谱纯化,并通过分析型高效液相色谱、氨基酸分析、1H-NMR谱和激光解吸质谱进行了全面表征。
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