奥曲肽的聚乙二醇化：I. 位置异构体的分离及对聚（D，L-丙交酯-共-乙交酯）酰化的稳定性

PEGylation of octreotide: I. Separation of positional isomers and stability against acylation by poly(D,L-lactide-co-glycolide).

作者信息

Na Dong Hee, DeLuca Patrick P

机构信息

College of Pharmacy, Kyungsung University, Busan, South Korea.

出版信息

Pharm Res. 2005 May;22(5):736-42. doi: 10.1007/s11095-005-2589-4. Epub 2005 May 17.

DOI:10.1007/s11095-005-2589-4

PMID:15906168

Abstract

PURPOSE

To investigate the mechanism by which polyethylene glycol (PEG) conjugation (PEGylation) prevents the acylation of octreotide by poly(d,l-lactide-co-glycolide) (PLGA).

METHODS

Octreotide was chemically modified by reaction with succinimidyl propionate-monomethoxy PEG. Each PEGylated octreotide species with different PEG number and modified position was separated by reversed-phase high-performance liquid chromatography (RP-HPLC) and characterized by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS) with endoproteinase Lys-C digestion. Acylation of octreotide and PEGylated octreotides was observed with hydrophobic and hydrophilic PLGA.

RESULTS

Two mono- and one di-PEGylated octreotides were separated by RP-HPLC. MALDI-TOF MS of the PEGylated products after Lys-C digestion at different pH revealed that the two mono-PEGylated octreotides were modified at the N-terminus and Lys(5) residue, respectively. The interaction of octreotide with PLGA involved an initial adsorption followed by acylation and the subsequent release of octreotide and acylated octreotide. The initial adsorption of octreotide was dependent on the acidity of PLGA. PEGylation of octreotide significantly inhibited the initial adsorption and acylation by PLGA. In particular, the acylation could be completely prevented by mono-PEGylation at the N-terminus of octreotide.

CONCLUSIONS

This study shows that the N-terminus of octreotide is the preferred PEGylation site to prevent acylation in degrading PLGA microspheres. The mono-N-terminally PEGylated octreotide may possibly serve as a new source for somatostatin microsphere formulation.

摘要

目的

研究聚乙二醇（PEG）偶联（聚乙二醇化）防止聚（d，l-丙交酯-共-乙交酯）（PLGA）对奥曲肽进行酰化的机制。

方法

奥曲肽通过与丙酸琥珀酰亚胺酯-单甲氧基PEG反应进行化学修饰。通过反相高效液相色谱（RP-HPLC）分离具有不同PEG数量和修饰位置的每种聚乙二醇化奥曲肽，并通过基质辅助激光解吸/电离飞行时间质谱（MALDI-TOF MS）结合内肽酶Lys-C消化进行表征。用疏水性和亲水性PLGA观察奥曲肽和聚乙二醇化奥曲肽的酰化情况。

结果

通过RP-HPLC分离出两种单聚乙二醇化奥曲肽和一种双聚乙二醇化奥曲肽。在不同pH下用Lys-C消化后的聚乙二醇化产物的MALDI-TOF MS显示，两种单聚乙二醇化奥曲肽分别在N端和Lys(5)残基处被修饰。奥曲肽与PLGA的相互作用包括初始吸附，随后是酰化以及随后奥曲肽和酰化奥曲肽的释放。奥曲肽的初始吸附取决于PLGA的酸度。奥曲肽的聚乙二醇化显著抑制了PLGA的初始吸附和酰化。特别是，奥曲肽N端的单聚乙二醇化可完全防止酰化。

结论

本研究表明，奥曲肽的N端是防止降解PLGA微球中酰化的首选聚乙二醇化位点。单N端聚乙二醇化奥曲肽可能作为生长抑素微球制剂的新来源。

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奥曲肽的聚乙二醇化：I. 位置异构体的分离及对聚（D，L-丙交酯-共-乙交酯）酰化的稳定性

PEGylation of octreotide: I. Separation of positional isomers and stability against acylation by poly(D,L-lactide-co-glycolide).

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出版信息

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