Optimization of tetanus toxoid ammonium sulfate precipitation process using response surface methodology

M. Brgles, P. Prebeg, T. Kurtović, J. Ranić, M. Marchetti‐Deschmann, G. Allmaier, B. Halassy
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引用次数: 6

Abstract

ABSTRACT Tetanus toxoid (TTd) is a highly immunogenic, detoxified form of tetanus toxin, a causative agent of tetanus disease, produced by Clostridium tetani. Since tetanus disease cannot be eradicated but is easily prevented by vaccination, the need for the tetanus vaccine is permanent. The aim of this work was to investigate the possibility of optimizing TTd purification, i.e., ammonium sulfate precipitation process. The influence of the percentage of ammonium sulfate, starting amount of TTd, buffer type, pH, temperature, and starting purity of TTd on the purification process were investigated using optimal design for response surface models. Responses measured for evaluation of the ammonium sulfate precipitation process were TTd amount (Lf/mL) and total protein content. These two parameters were used to calculate purity (Lf/mgPN) and the yield of the process. Results indicate that citrate buffer, lower temperature, and lower starting amount of TTd result in higher purities of precipitates. Gel electrophoresis combined with matrix-assisted laser desorption ionization–mass spectrometric analysis of precipitates revealed that there are no inter-protein cross-links and that all contaminating proteins have pIs similar to TTd, so this is most probably the reason for the limited success of purification by precipitation.
响应面法优化破伤风类毒素硫酸铵沉淀工艺
破伤风类毒素(TTd)是一种高度免疫原性、解毒形式的破伤风毒素,破伤风毒素是由破伤风梭菌产生的破伤风疾病的病原体。由于破伤风无法根除,但很容易通过接种疫苗预防,因此对破伤风疫苗的需求是永久性的。本工作的目的是探讨优化TTd净化,即硫酸铵沉淀工艺的可能性。采用响应面模型优化设计,考察了硫酸铵用量、TTd起始量、缓冲液类型、pH、温度和TTd起始纯度对纯化过程的影响。评价硫酸铵沉淀过程的响应测量为TTd量(Lf/mL)和总蛋白含量。利用这两个参数计算了该工艺的纯度(Lf/mgPN)和收率。结果表明,柠檬酸缓冲液、较低的温度和较低的TTd起始量可以提高沉淀的纯度。凝胶电泳结合基质辅助激光解吸电离-质谱分析沉淀物显示,没有蛋白间交联,所有污染蛋白都具有类似于TTd的pi,这很可能是沉淀法纯化成功有限的原因。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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