Hennicke Julia, Lastin Anna Maria, Reinhart David, Grünwald-Gruber Clemens, Altmann Friedrich, Kunert Renate
Department of Biotechnology, VIBT, University of Natural Resources and Life Sciences, Vienna, Muthgasse 18, 1190 Vienna, Austria.
Department of Chemistry, VIBT, University of Natural Resources and Life Sciences, Vienna, Muthgasse 18, 1190 Vienna, Austria.
Anal Biochem. 2017 Dec 15;539:162-166. doi: 10.1016/j.ab.2017.10.020. Epub 2017 Nov 4.
Immunoglobulin M (IgM) antibodies are reckoned as promising tools for therapy and diagnostic approaches. Nevertheless, the commercial success of IgMs is hampered due to bottlenecks in recombinant production and downstream processing. IgMs are large, complex and highly glycosylated proteins that are only stable in a limited range of conditions. To investigate these sensitive IgM antibodies we optimized the elution conditions for a commercially available IgM affinity matrix (CaptureSelect™). Applying a small-scale screening system, we optimized our single step purification strategy for high purity, high yield and retained antigen binding capacity. Here we show that IgMs are sensitive to aggregation at very acidic conditions (pH ≤ 3.0) despite often being used for affinity chromatography. We combined pH 3.5 with a high salt concentration to prevent aggregation during elution. The elution strategy presented in this paper will improve IgM processes for further applications. The herein used IgMs were produced in Chinese hamster ovary (CHO) cells. We present the first detailed glycan analysis of IgM produced in CHO cells with predominantly complex type structures at Asn171, Asn332 and Asn395 and oligomannosidic structures at Asn402 and Asn563 similar to human serum-IgM.
免疫球蛋白M(IgM)抗体被认为是治疗和诊断方法的有前景的工具。然而,由于重组生产和下游加工的瓶颈,IgM的商业成功受到阻碍。IgM是大的、复杂的且高度糖基化的蛋白质,仅在有限的条件范围内稳定。为了研究这些敏感的IgM抗体,我们优化了市售IgM亲和基质(CaptureSelect™)的洗脱条件。应用小规模筛选系统,我们优化了单步纯化策略,以实现高纯度、高产量并保留抗原结合能力。我们在此表明,尽管IgM常用于亲和色谱,但它们在非常酸性的条件(pH≤3.0)下对聚集敏感。我们将pH 3.5与高盐浓度相结合,以防止洗脱过程中的聚集。本文提出的洗脱策略将改进IgM的进一步应用工艺。本文中使用的IgM是在中国仓鼠卵巢(CHO)细胞中产生的。我们首次详细分析了CHO细胞中产生的IgM的聚糖,其在Asn171、Asn332和Asn395处主要为复合型结构,在Asn402和Asn563处为寡甘露糖型结构,类似于人血清IgM。
