奥曲肽的聚乙二醇化：II. N端单聚乙二醇化对生物活性和药代动力学的影响。

PEGylation of octreotide: II. Effect of N-terminal mono-PEGylation on biological activity and pharmacokinetics.

作者信息

Na Dong Hee, Lee Kang Choon, 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):743-9. doi: 10.1007/s11095-005-2590-y. Epub 2005 May 17.

DOI:10.1007/s11095-005-2590-y

PMID:15906169

Abstract

PURPOSE

: To determine the optimal polyethylene glycol (PEG)-conjugate of octreotide by evaluating the effects of PEGylation chemistry on the biological activity and pharmacokinetic properties.

METHODS

: Octreotide was chemically modified by reaction with succinimidyl propionate monomethoxy PEG (SPA-mPEG, molecular weight 2000) or succinimidyl butyraldehyde-mPEG (ALD-mPEG, molecular weight 2000 and 5000). The structural conformation of PEG-octreotides was evaluated by circular dichroism (CD), the biological activity was assessed by measuring the decrease of serum insulin-like growth factor-I levels in rats, and a pharmacokinetic study was performed after subcutaneous administration in rats. The stability against acylation was investigated with poly(D,L -lactide-co-glycolide) (PLGA).

RESULTS

: ALD-mPEG was site-specific in PEGylating octreotide at the N-terminus. The mono-PEG-octreotides prepared with ALD-mPEG (mono-ALDPEG-octreotide), which alkyl bond preserves the amine's positive charge, showed complete preservation of biological activity, whereas the PEG-octreotides prepared with SPA-mPEG showed lower activity. In the CD analysis, the spectra of the mono-ALDPEG-octreotides were nearly superimposable with that of native octreotide. The mono-ALDPEG-5K-octreotide showed significantly improved pharmacokinetic properties compared with mono-ALDPEG-2K-octreotide as well as native octreotide. Both mono-ALDPEG-2K- and mono-ALDPEG-5K-octreotides were stable against acylation by degrading PLGA.

CONCLUSIONS

: The mono-PEGylation of octreotide at N-terminus with ALD-mPEG produced a conjugate that is biologically and structurally active and stable against acylation by PLGA, and therefore it may serve as a candidate for somatostatin microsphere formulations.

摘要

目的

通过评估聚乙二醇化化学修饰对生物活性和药代动力学特性的影响，确定奥曲肽的最佳聚乙二醇（PEG）缀合物。

方法

奥曲肽通过与丙酸琥珀酰亚胺酯单甲氧基PEG（SPA-mPEG，分子量2000）或丁醛琥珀酰亚胺酯-mPEG（ALD-mPEG，分子量2000和5000）反应进行化学修饰。通过圆二色性（CD）评估PEG-奥曲肽的结构构象，通过测量大鼠血清胰岛素样生长因子-I水平的降低来评估生物活性，并在大鼠皮下给药后进行药代动力学研究。用聚（D，L-丙交酯-共-乙交酯）（PLGA）研究其对酰化的稳定性。

结果

ALD-mPEG在奥曲肽的N端进行聚乙二醇化时具有位点特异性。用ALD-mPEG制备的单PEG-奥曲肽（单ALDPEG-奥曲肽），其烷基键保留了胺的正电荷，显示出生物活性完全保留，而用SPA-mPEG制备的PEG-奥曲肽活性较低。在CD分析中，单ALDPEG-奥曲肽的光谱与天然奥曲肽的光谱几乎重叠。与单ALDPEG-2K-奥曲肽以及天然奥曲肽相比，单ALDPEG-5K-奥曲肽显示出显著改善的药代动力学特性。单ALDPEG-2K-奥曲肽和单ALDPEG-5K-奥曲肽对PLGA的酰化均具有稳定性。

结论

用ALD-mPEG在N端对奥曲肽进行单聚乙二醇化产生了一种缀合物，该缀合物具有生物活性和结构活性，并且对PLGA的酰化具有稳定性，因此它可能作为生长抑素微球制剂的候选物。

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奥曲肽的聚乙二醇化：II. N端单聚乙二醇化对生物活性和药代动力学的影响。

PEGylation of octreotide: II. Effect of N-terminal mono-PEGylation on biological activity and pharmacokinetics.

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