Increased stable integration efficiency in CHO cells through enhanced nuclear localization of Bxb1 serine integrase.

IF 3.5 3区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Olli Huhtinen, Stuart Prince, Urpo Lamminmäki, Rune Salbo, Antti Kulmala
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引用次数: 0

Abstract

Background: Mammalian display is an appealing technology for therapeutic antibody development. Despite the advantages of mammalian display, such as full-length IgG display with mammalian glycosylation and its inherent ability to select antibodies with good biophysical properties, the restricted library size and large culture volumes remain challenges. Bxb1 serine integrase is commonly used for the stable genomic integration of antibody genes into mammalian cells, but presently lacks the efficiency required for the display of large mammalian display libraries. To increase the Bxb1 integrase-mediated stable integration efficiency, our study investigates factors that potentially affect the nuclear localization of Bxb1 integrase.

Methods: In an attempt to enhance Bxb1 serine integrase-mediated integration efficiency, we fused various nuclear localization signals (NLS) to the N- and C-termini of the integrase. Concurrently, we co-expressed multiple proteins associated with nuclear transport to assess their impact on the stable integration efficiency of green fluorescent protein (GFP)-encoding DNA and an antibody display cassette into the genome of Chinese hamster ovary (CHO) cells containing a landing pad for Bxb1 integrase-mediated integration.

Results: The nucleoplasmin NLS from Xenopus laevis, when fused to the C-terminus of Bxb1 integrase, demonstrated the highest enhancement in stable integration efficiency among the tested NLS fusions, exhibiting over a 6-fold improvement compared to Bxb1 integrase lacking an NLS fusion. Subsequent additions of extra NLS fusions to the Bxb1 integrase revealed an additional 131% enhancement in stable integration efficiency with the inclusion of two copies of C-terminal nucleoplasmin NLS fusions. Further improvement was achieved by co-expressing the Ran GTPase-activating protein (RanGAP). Finally, to validate the applicability of these findings to more complex proteins, the DNA encoding the membrane-bound clinical antibody abrilumab was stably integrated into the genome of CHO cells using Bxb1 integrase with two copies of C-terminal nucleoplasmin NLS fusions and co-expression of RanGAP. This approach demonstrated over 14-fold increase in integration efficiency compared to Bxb1 integrase lacking an NLS fusion.

Conclusions: This study demonstrates that optimizing the NLS sequence fusion for Bxb1 integrase significantly enhances the stable genomic integration efficiency. These findings provide a practical approach for constructing larger libraries in mammalian cells through the stable integration of genes into a genomic landing pad.

通过增强 Bxb1 丝氨酸整合酶的核定位,提高 CHO 细胞中的稳定整合效率。
背景:哺乳动物展示技术是一种极具吸引力的治疗性抗体开发技术。尽管哺乳动物展示技术有其优势,如展示哺乳动物糖基化的全长 IgG 及其固有的选择具有良好生物物理特性的抗体的能力,但受限的文库规模和庞大的培养量仍是其面临的挑战。Bxb1 丝氨酸整合酶常用于将抗体基因稳定地整合到哺乳动物细胞的基因组中,但目前缺乏展示大型哺乳动物展示文库所需的效率。为了提高 Bxb1 整合酶介导的稳定整合效率,我们的研究调查了可能影响 Bxb1 整合酶核定位的因素:为了提高Bxb1丝氨酸整合酶介导的整合效率,我们在整合酶的N端和C端融合了各种核定位信号(NLS)。同时,我们联合表达了多种与核转运相关的蛋白质,以评估它们对绿色荧光蛋白(GFP)编码 DNA 和抗体显示盒稳定整合到含有 Bxb1 整合酶介导的整合着陆垫的中国仓鼠卵巢(CHO)细胞基因组的效率的影响:结果:与缺乏 NLS 融合的 Bxb1 整合酶相比,来自爪蟾的核蛋白蛋白 NLS 与 Bxb1 整合酶的 C 端融合后,在测试的 NLS 融合物中显示出最高的稳定整合效率,提高了 6 倍多。随后在 Bxb1 整合酶中加入额外的 NLS 融合体后发现,加入两份 C 端核蛋白 NLS 融合体后,稳定整合效率提高了 131%。通过共表达 Ran GTP 酶激活蛋白(RanGAP),整合效率进一步提高。最后,为了验证这些发现是否适用于更复杂的蛋白质,使用 Bxb1 整合酶将编码膜结合临床抗体阿布利珠单抗的 DNA 稳定整合到 CHO 细胞的基因组中,同时加入两份 C 端核蛋白溶酶体 NLS 融合蛋白并共同表达 RanGAP。与缺乏 NLS 融合的 Bxb1 整合酶相比,这种方法的整合效率提高了 14 倍以上:本研究表明,优化 Bxb1 整合酶的 NLS 序列融合可显著提高稳定的基因组整合效率。这些发现为在哺乳动物细胞中通过将基因稳定整合到基因组着陆垫来构建更大的文库提供了一种实用的方法。
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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来源期刊
BMC Biotechnology
BMC Biotechnology 工程技术-生物工程与应用微生物
CiteScore
6.60
自引率
0.00%
发文量
34
审稿时长
2 months
期刊介绍: BMC Biotechnology is an open access, peer-reviewed journal that considers articles on the manipulation of biological macromolecules or organisms for use in experimental procedures, cellular and tissue engineering or in the pharmaceutical, agricultural biotechnology and allied industries.
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