YEAST SURFACE DISPLAY OF FULL-LENGTH IGG FOR ENGINEERING MONOCLONAL AND BISPECIFIC ANTIBODIES

Q2 Medicine
Youwei Jiang
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引用次数: 0

Abstract

Abstract The single-chain variable fragment (scFv) and antigen-binding fragment (Fab) are widely used in yeast surface display for antibody engineering. However, these non-IgG antibody fragments are not always well-expressed or functional. We developed a novel approach to display full-length IgG on yeast surfaces for engineering monoclonal and bispecific antibodies. The yeast surface display of full-length IgG was generated by transforming glycoengineered yeast P. pastoris with plasmids encoding for anchor protein, heavy chains, and light chains. IgG-displaying yeast cells were incubated with the fluorophore antigen and secondary detection antibody for FACS sorting. The displayed antibody with bound antigen and detection antibody was detected by FACS sorting based on both antibody affinity and display level. FACS sorting could eliminate the deviation caused by expression levels. The yeast surface display of IgG-like bispecific antibodies was also constructed, which exhibited specific binding of two distinct fluorophore antigens in flow-cytometry analysis. Thus, our yeast surface display of full-length IgG can be used to screen light chain libraries to isolate common light chains for bispecific antibodies. To assess antigen-binding efficiency between different displaying formats, an antibody was respectively displayed as full-length IgG or Fab on the surface of yeast cells for flow-cytometry analysis. Cells displaying full-length IgG showed a higher level of fluorescence than those displaying Fab fragments, indicating that yeast surface display of full-length IgG is superior for high-throughput screening. To test the specificity of the displayed antibody, we performed a demo experiment in which TNF-binding adalimumab-displaying cells were mixed with trastuzumab-displaying cells at a 1 to 1,000,000 ratio, mimicking the immune library. After three consecutive rounds of sorting, the yeast cells with high fluorescence were plated on a selective medium and the individual antibody clones were sequenced. All ten sequenced clones were confirmed to be adalimumab, demonstrating the maintenance of genotype-phenotype linkage for library screening in yeast surface display of full-length IgG. A mutation library was also generated from the initial hit and displayed at the surface of yeast cells for the screening of higher affinity maturation antibodies by FACS. A pool of high-affinity binders was plated on a selective medium. Individual clones were analyzed by flow cytometry and sequenced to identify unique antibodies with higher affinity. In summary, full-length IgG antibodies can be displayed on the yeast cell surface, mimicking their native forms in molecular structure and biophysical properties. The technique combines the high throughput of yeast display with mammalian-cell quality control. This novel approach can be used to engineer monoclonal and bispecific antibodies for high affinity and improved developability profiles.
工程单克隆和双特异性抗体全长IGG的酵母表面展示
单链可变片段(scFv)和抗原结合片段(Fab)在酵母表面展示抗体工程中应用广泛。然而,这些非igg抗体片段并不总是表达良好或具有功能。我们开发了一种在酵母表面显示全长IgG的新方法,用于工程单克隆和双特异性抗体。用编码锚蛋白、重链和轻链的质粒转化糖工程酵母酵母,在酵母表面显示全长IgG。将显示igg的酵母细胞与荧光团抗原和二检抗体孵育,进行FACS分选。结合抗原的显示抗体和检测抗体采用FACS分选,根据抗体亲和力和显示水平进行检测。FACS分选可消除表达水平引起的偏差。构建了igg样双特异性抗体的酵母表面显示,在流式细胞术分析中显示出两种不同的荧光团抗原的特异性结合。因此,我们的酵母表面展示的全长IgG可用于筛选轻链文库,以分离双特异性抗体的常见轻链。为了评估不同显示格式之间的抗原结合效率,将抗体分别以全长IgG或Fab的形式显示在酵母细胞表面进行流式细胞术分析。显示全长IgG的细胞比显示Fab片段的细胞荧光水平更高,表明酵母表面显示全长IgG更有利于高通量筛选。为了测试所显示抗体的特异性,我们进行了一个演示实验,将tnf结合的阿达木单抗显示细胞与曲妥珠单抗显示细胞以1比1,000,000的比例混合,模拟免疫文库。连续三轮分选后,将高荧光酵母细胞置于选择性培养基上,对单个抗体克隆进行测序。10个测序克隆均为阿达木单抗,证明在酵母表面展示全长IgG的文库筛选中维持了基因型-表型连锁。从初始命中生成突变文库,并在酵母细胞表面显示,用于FACS筛选高亲和力成熟抗体。在选择性培养基上镀上一池高亲和力的粘合剂。通过流式细胞术对单个克隆进行分析和测序,鉴定出具有较高亲和力的独特抗体。综上所述,全长IgG抗体可以在酵母细胞表面显示,在分子结构和生物物理性质上模仿其天然形式。该技术将酵母的高通量展示与哺乳动物细胞质量控制相结合。这种新方法可用于设计高亲和力和改进的可开发性的单克隆和双特异性抗体。
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来源期刊
Antibody Therapeutics
Antibody Therapeutics Medicine-Immunology and Allergy
CiteScore
8.70
自引率
0.00%
发文量
30
审稿时长
8 weeks
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