S. Yoshida, D. Murata, S. Taira, Keita Iguchi, M. Takano, Yoshiyuki Nakano, K. Minakuchi
{"title":"蛋白A的合理设计和工程,获得单克隆抗体纯化的控制洗脱谱","authors":"S. Yoshida, D. Murata, S. Taira, Keita Iguchi, M. Takano, Yoshiyuki Nakano, K. Minakuchi","doi":"10.1273/CBIJ.12.1","DOIUrl":null,"url":null,"abstract":"Biopharmaceutical monoclonal antibodies (Mabs) show different chromatographic behaviors in the elution step on protein A chromatography, although Mabs have similar three-dimensional structures. It is well known that interactions of conventional protein A to the V H 3 subfamily variable region negatively affect Mabs elution properties. The mutation G29A is known to weaken this binding, although not always sufficiently. We designed novel protein A mutations, S33E and D36R, by a computer-aided evaluation based on the three-dimensional structure. These mutations are expected to not only eliminate protein A binding to the variable region of Mabs but also to maintain its alkaline stability, which is required for effective CIP (Clean in place) of the protein A affinity matrix. In view of the superior potential of C domain, an in vitro study was performed with the G29A mutant of C domain (C-G29A) as a model protein. Both pentameric C domain mutants (C-G29A/S33E.5d and C-G29A/D36R.5d) showed little binding ability to the V H 3 subfamily variable region of Mabs by BIACORE analysis. We used a C-G29A/S33E.5d-immobilized matrix to confirm that the elution profile of Mabs belonging to the V H 3 subfamily at pH 3.5 was significantly improved. This matrix also showed almost the same alkaline stability as did the C-G29A.5d-immobilized matrix. The engineered protein A ligand, whose binding ability to the variable region is completely eliminated, would enable the separation of Fab fragments in flow-through fractions from Mab digestions. Rational design by a computer-aided evaluation should enhance the efficiency of protein ligand engineering. -9.0 T (Thr) +23.9 (-3.3) +0.9 +15.4 (-9.9) -5.0 The results of the mutations at residue Ser-33 or Asp-36 of C domain are shown. As for the complex, another result by adjusting the relatively high dielectric constant is shown in parentheses ( ). The negative G of the mutants (Fab complex or free-state) indicate better thermostability than the case of the respective wild type. Hence, in this study, the positive G complex is preferable in a complex to eliminate the binding to Fab, while the negative G free is preferable in the free","PeriodicalId":40659,"journal":{"name":"Chem-Bio Informatics Journal","volume":"40 1","pages":"1-13"},"PeriodicalIF":0.4000,"publicationDate":"2012-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"8","resultStr":"{\"title\":\"Rational design and engineering of protein A to obtain the controlled elution profile in monoclonal antibody purification\",\"authors\":\"S. Yoshida, D. Murata, S. Taira, Keita Iguchi, M. Takano, Yoshiyuki Nakano, K. 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In view of the superior potential of C domain, an in vitro study was performed with the G29A mutant of C domain (C-G29A) as a model protein. Both pentameric C domain mutants (C-G29A/S33E.5d and C-G29A/D36R.5d) showed little binding ability to the V H 3 subfamily variable region of Mabs by BIACORE analysis. We used a C-G29A/S33E.5d-immobilized matrix to confirm that the elution profile of Mabs belonging to the V H 3 subfamily at pH 3.5 was significantly improved. This matrix also showed almost the same alkaline stability as did the C-G29A.5d-immobilized matrix. The engineered protein A ligand, whose binding ability to the variable region is completely eliminated, would enable the separation of Fab fragments in flow-through fractions from Mab digestions. Rational design by a computer-aided evaluation should enhance the efficiency of protein ligand engineering. -9.0 T (Thr) +23.9 (-3.3) +0.9 +15.4 (-9.9) -5.0 The results of the mutations at residue Ser-33 or Asp-36 of C domain are shown. 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引用次数: 8
摘要
生物制药单克隆抗体(mab)在蛋白A层析的洗脱步骤中表现出不同的色谱行为,尽管单克隆抗体具有相似的三维结构。众所周知,常规蛋白A与vh3亚家族可变区域的相互作用会对mab的洗脱性能产生负面影响。已知突变G29A会削弱这种结合,尽管并不总是充分削弱。我们通过基于三维结构的计算机辅助评估设计了新的蛋白A突变S33E和D36R。预计这些突变不仅可以消除蛋白A与单克隆抗体可变区域的结合,还可以保持其碱性稳定性,这是蛋白A亲和基质有效CIP (Clean in place)所必需的。鉴于C结构域的优越潜力,我们以C结构域的G29A突变体(C-G29A)作为模型蛋白进行了体外研究。这两个五聚体C结构域突变体(C- g29a /S33E)。经BIACORE分析,5d和C-G29A/D36R.5d)对单克隆抗体的vh3亚家族可变区结合能力较弱。我们使用的是C-G29A/S33E。5d-固定化基质,证实在pH 3.5下,vh3亚家族单克隆抗体的洗脱谱明显改善。该基质也表现出与C-G29A几乎相同的碱性稳定性。5 d-immobilized矩阵。工程蛋白A配体与可变区域的结合能力被完全消除,将使单抗消化的流动组分中Fab片段的分离成为可能。通过计算机辅助评价进行合理设计,可以提高蛋白质配体工程的效率。-9.0 T (Thr) +23.9 (-3.3) +0.9 +15.4 (-9.9) -5.0 C结构域Ser-33或Asp-36残基突变结果对于复合物,通过调整相对较高的介电常数得到的另一个结果如括号()所示。突变体(Fab复合体或自由态)的负G表明比各自的野生型具有更好的热稳定性。因此,在本研究中,为了消除与Fab的结合,配合物中首选正的G复合物,而游离物中首选负的G free复合物
Rational design and engineering of protein A to obtain the controlled elution profile in monoclonal antibody purification
Biopharmaceutical monoclonal antibodies (Mabs) show different chromatographic behaviors in the elution step on protein A chromatography, although Mabs have similar three-dimensional structures. It is well known that interactions of conventional protein A to the V H 3 subfamily variable region negatively affect Mabs elution properties. The mutation G29A is known to weaken this binding, although not always sufficiently. We designed novel protein A mutations, S33E and D36R, by a computer-aided evaluation based on the three-dimensional structure. These mutations are expected to not only eliminate protein A binding to the variable region of Mabs but also to maintain its alkaline stability, which is required for effective CIP (Clean in place) of the protein A affinity matrix. In view of the superior potential of C domain, an in vitro study was performed with the G29A mutant of C domain (C-G29A) as a model protein. Both pentameric C domain mutants (C-G29A/S33E.5d and C-G29A/D36R.5d) showed little binding ability to the V H 3 subfamily variable region of Mabs by BIACORE analysis. We used a C-G29A/S33E.5d-immobilized matrix to confirm that the elution profile of Mabs belonging to the V H 3 subfamily at pH 3.5 was significantly improved. This matrix also showed almost the same alkaline stability as did the C-G29A.5d-immobilized matrix. The engineered protein A ligand, whose binding ability to the variable region is completely eliminated, would enable the separation of Fab fragments in flow-through fractions from Mab digestions. Rational design by a computer-aided evaluation should enhance the efficiency of protein ligand engineering. -9.0 T (Thr) +23.9 (-3.3) +0.9 +15.4 (-9.9) -5.0 The results of the mutations at residue Ser-33 or Asp-36 of C domain are shown. As for the complex, another result by adjusting the relatively high dielectric constant is shown in parentheses ( ). The negative G of the mutants (Fab complex or free-state) indicate better thermostability than the case of the respective wild type. Hence, in this study, the positive G complex is preferable in a complex to eliminate the binding to Fab, while the negative G free is preferable in the free
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