Phage surface presentation and secretion of antibody fragments using an adaptable phagemid vector.

Human antibodies and hybridomas Pub Date : 1994-01-01 DOI:10.3233/HAB-1994-51-207

M. Lah, A. Goldstraw, James Francis White, O. Dolezal, R. Malby, P. Hudson

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引用次数: 18

Abstract

Phagemid vectors have been developed which promise to supersede hybridoma technology for the selection and production of human antibodies. We have modified an existing phagemid vector to improve the stability of synthesized soluble antibody fragments. The vector allows the antibody fragment to be produced: i) as a soluble protein incorporating a stable carboxyl terminal octapeptide (FLAG) or, ii) on the surface of a bacteriophage fused to a minor coat protein (the gene III protein). The antibody gene encoding the well characterized monoclonal antibody NC10 (an antibody that recognizes the neuraminidase of the influenza strain N9) was inserted as a single chain Fv construct into the phagemid vectors pHFA and pHFA/SacII. Western blotting, ELISA and electron microscopy studies showed that recombinant clones could be manipulated to either synthesize soluble protein into the periplasm or present the protein on the surface of bacteriophage. Cosynthesis of GroEL and GroES chaperonins resulted in complete proteolysis of the scFvNC10-FLAG-gIIIp fusion product and did not improve total phage production. Coexpression of chaperonins should be used with caution for library construction due to the expected selection pressure for protease resistant gene III fusions.

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使用适应性噬菌体载体的噬菌体表面呈递和抗体片段的分泌。

噬菌体载体已经被开发出来，有望取代杂交瘤技术来选择和生产人类抗体。我们已经修改了现有的噬菌体载体，以提高合成的可溶性抗体片段的稳定性。载体允许抗体片段产生:i)作为含有稳定羧基末端八肽(FLAG)的可溶性蛋白，或ii)在与次要外壳蛋白(基因III蛋白)融合的噬菌体表面。将编码单克隆抗体NC10(一种识别流感病毒N9的神经氨酸酶的抗体)的抗体基因作为单链Fv构建体插入到噬菌体载体pHFA和pHFA/SacII中。Western blotting、ELISA和电镜研究表明，重组克隆既可以将可溶性蛋白合成到外周质中，也可以将蛋白质呈现在噬菌体表面。GroEL和GroES伴侣蛋白的共同合成导致scFvNC10-FLAG-gIIIp融合产物的完全蛋白水解，但没有提高噬菌体的总产量。由于蛋白酶抗性基因III融合的预期选择压力，在文库建设中应谨慎使用伴侣蛋白的共表达。

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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Human antibodies and hybridomas

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