Large Scale Solid Phase Synthesis of Peptide Drugs: Use of Commercial Anion Exchange Resin as Quenching Agent for Removal of Iodine during Disulphide Bond Formation.

International Journal of Peptides Pub Date : 2012-01-01 Epub Date: 2012-10-15 DOI:10.1155/2012/323907
K M Bhaskara Reddy, Y Bharathi Kumari, Dokka Mallikharjunasarma, Kamana Bulliraju, Vanjivaka Sreelatha, Kuppanna Ananda
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Abstract

The S-acetamidomethyl (Acm) or trityl (Trt) protecting groups are widely used in the chemical synthesis of peptides that contain one or more disulfide bonds. Treatment of peptides containing S-Acm protecting group with iodine results in simultaneous removal of the sulfhydryl protecting group and disulfide formation. However, the excess iodine needs to be quenched or adsorbed as quickly as possible after completion of the disulfide bond formation in order to minimize side reactions that are often associated with the iodination step. We report here a simple method for simultaneous quenching and removal of iodine and isolation of disulphide bridge peptides. The use of excess inexpensive anion exchange resin to the oxidized peptide from the aqueous acetic acid/methanol solution affords quantitative removal of iodine and other color impurities. This improves the resin life time of expensive chromatography media that is used in preparative HPLC column during the purification of peptide using preparative HPLC. Further, it is very useful for the conversion of TFA salt to acetate in situ. It was successfully applied commercially, to the large scale synthesis of various peptides including Desmopressin, Oxytocin, and Octreotide. This new approach offers significant advantages such as more simple utility, minimal side reactions, large scale synthesis of peptide drugs, and greater cost effectiveness.

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多肽药物的大规模固相合成:使用商用阴离子交换树脂作为淬火剂去除二硫键形成过程中的碘。
S-acetamidhometyl (Acm) 或 trityl (Trt) 保护基团广泛用于含有一个或多个二硫键的肽的化学合成。用碘处理含有 S-Acm 保护基的肽会同时去除巯基保护基和形成二硫化物。然而,在二硫键形成完成后,需要尽快淬灭或吸附过量的碘,以尽量减少碘化步骤中经常出现的副反应。我们在此报告一种同时淬灭和去除碘并分离二硫桥肽的简单方法。使用过量的廉价阴离子交换树脂从醋酸/甲醇水溶液中将氧化肽定量去除碘和其他颜色杂质。这就延长了制备型高效液相色谱法纯化多肽过程中昂贵的色谱介质的使用寿命。此外,它还非常适用于将反式脂肪酸盐原位转化为醋酸盐。它已成功应用于商业化大规模合成各种肽,包括去氨加压素、催产素和奥曲肽。这种新方法具有显著的优势,如实用性更简单、副反应最小、可大规模合成多肽药物以及成本效益更高。
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