Construction and characterization of immune combinatorial cDNA library of mouse variable immunoglobuline genes

A cDNA combinatorial antibody library of mouse variable immunoglobulin fragments has been constructed from mice immunized with rhIFN-beta1b. For this purpose, cDNAS of immunoglobulin variable heavy (V(H)) and variable light (V(L)) chains genes amplified from splenocytes were joined with linker DNA to form ScFv's (single-chain Fv-antibodies). The obtained ScFv-DNA pool was cloned into a phagemid vector and used for Esherichia coli transformation. Using the phage display technique, bacterial clones producing single-chain antibodies specific to rhIFN-beta1b were selected. The following characteristics of the combinatorial library were determined in this work: abundance, functional size, and the initial ScFv-DNA diversity in the library constructed. High specificity of interaction between phage displayed ScFv's and rhIFN-beta1b has been demonstrated.     

人源性抗腮腺炎病毒噬菌体抗体库的构建

应用噬菌体表面呈现技术,从腮腺炎病毒抗体阳性者淋巴细胞中提取总RNA,经RT-PCR扩增出抗体重链Fd和轻链基因,经XhoI/SpeI、SacI/XbaI双酶切,先后克隆入噬粒载体pComb3中,再电转化大肠杆菌XL1-blue,以辅助噬菌体VCSM13进行超感染。从分离出的淋巴细胞中共提取高质量RNA约110μg,经逆转录、PCR,分别扩增出约700 bp大小的κ、λ和Fd基因。PCR产物和载体经纯化、双酶切后进行连接,在2.5 kV、200 Ω、25μF的条件下电转化,转化率为2.48×107。最终得到库容量为6.4×106,滴度为7.8×1013 cfu/L的噬菌体抗体库。所构建的抗腮腺炎病毒特异性噬菌体抗体库容量中等大小,能满足从中筛选抗HN蛋白噬菌体抗体的需要。     

Construction of high-complexity combinatorial phage display peptide libraries

Random peptide libraries displayed on the surface of filamentous bacteriophage are widely used as tools for the discovery of ligands for biologically relevant macromolecules, including antibodies, enzymes, and cell surface receptors. Phage display results in linkage of an affinity-selectable function (the displayed peptide) to the DNA encoding that function, allowing selection of individual binding clones by iterative cycles of in vitro panning and in vivo amplification. Critical to the success of a panning experiment is the complexity of the library: the greater the diversity of clones within the library, the more likely the library contains sequences that will bind a given target with useful affinity. A method for construction of high-complexity (> or = 10(9) independent clones) random peptide libraries is presented. The key steps are highly efficient binary ligation under conditions where the vector is relatively dilute, with only a modest molar excess of insert, followed by efficient electrotransformation into Escherichia coli. Library design strategies and a protocol for rapid sequence characterization are also presented.     

Microarray-based method for combinatorial library sequence mapping and characterization

Here we describe a DNA-chip-based method for high-throughput sequence mapping. This involves competitive hybridization between short and differentially labeled fluorescent oligonucleotide probes and glass-supported PCR products. Competition between an excess of oligonucleotide probes targeting the same sequence segment improves sequence discrimination and reduces sensitivity to experimental conditions such as probe concentrations, hybridization, and washing temperatures and durations. The method was found to be particularly adapted to sequence mapping of combinatorial libraries obtained by DNA shuffling between members of a gene family. We present an application of this technique for the characterization of recombination biases in combinatorial libraries used in directed evolution.     

Construction of a human X-chromosome-enriched phage library which facilitates analysis of specific loci

A human X-chromosome-enriched MboI-partial-digest recombinant library in phage lambda Charon30 has been constructed. Twelve out of the thirteen X-chromosome DNA sequences that were tested were present in the library. Most regions were covered in overlapping phage inserts; mean insert size was 13.7 kb. One phage from the library allowed detection of a 225-bp insertion of DNA into a region near the Duchenne muscular dystrophy (DMD) locus. Another recombinant phage represents an expansion of a region which exhibits extensive and varying homology with other human chromosomes, including the Y, as well as with rodent DNA. The present library should have widespread use for examining DNA sequences on the human X chromosome.     

Design, construction, and characterization of a large synthetic human antibody phage display library

Advances in proteomic research allow the identification of several hundred protein components in complex biological specimens. Structural information is typically lost during proteomic investigations. For this reason, the rapid isolation of monoclonal antibodies specific to proteins of interest would allow the study of structurally intact biological specimens, thus providing complementary proteomic information. Here, we describe the design, construction, characterization, and use of a large synthetic human antibody phage display library (ETH-2-Gold) containing three billion individual antibody clones. A large repertoire of antibodies with similar biochemical properties was produced by appending short variable complementarity-determining region 3 (CDR3) onto three antibody germline segments (DP47, DPK22, and DPL16), which are frequently found in human antibodies. The ETH-2-Gold library exhibits efficient display of antibody fragments on filamentous phage, as assessed by immunoblot. Furthermore, the library is highly functional, since >90% of clones express soluble antibodies in bacteria and since good quality monoclonal antibodies have been isolated against 16 different antigens. The usefulness of the library as a tool for generating monoclonal antibodies for biomedical applications was tested using the C-domain of tenascin-C (a marker of angiogenesis) as antigen and showing that specific antibodies to this target were able to stain vascular structures in tumor sections.     

Construction of normal human IgE phage antibody library and the screening of the anti—trichosanthin IgE

Allergen specific IgE response is the major cause of immediate hypersensitivity.However the number of IgEproducing B cells and the amount of IgE,especially the specific IgE,are so low,it greatly impedes the study of the allergic-specifc antibody responses.Here we report the construction of a normal human IgE combinatorial library.The repertoire of IgE VH genes and of κ genes were separately amplified from normal human peripheral blood lymphocytes through RT-PCR,and were then constructed to form the phage surface display human Fab(IgEVH) library.A plant protein allergen,trichosanthin(TCS),was used to affinity-enrich and to screen the anti-TCS phage HuFab clones from the library.Human IgE(Fab) to TCS were detected.     

Construction of a chromosome 16-enriched phage library and characterization of several DNA segments from 16p

Summary A flow sorted chromosome 16-enriched recombinant library was produced to isolate DNA probes useful for constructing a linkage map of 16p, primarily for the study of adult polycystic kidney disease (APKD). The APKD locus has been mapped to chromosome 16 by linkage with the probe 3HVR, which is located in the region 16p12pter. Of the 48 single-copy fragments isolated from this new phage library, 39 (81%) were found to be chromosome 16 specific. Probes mapping to chromosome 16 were regionally localized by hybridizing to flow-sorted spot blots of translocation products from lymphoblastoid cell lines containing the rearrangements t(1;16) or t(11;16). Translocation breakpoints at 16p13.11 and 16p11.1 were utilized to subdivide chromosome 16 into three regions: Twenty-six probes were mapped to 16p11.116qter, two to 16p11.116p13.11, and eleven to 16p13.1116pter. Probes from 16p were examined for their recognition of restriction fragment length polymorphisms (RFLPs). Seven polymorphic probes were found which recognized eleven RFLPs. Six of the seven probes have RFLPs which are reasonably informative (polymorphism information contents (PIC) of over 0.25). Two of these identify polymorphisms with three different alleles, one of which has a PIC value of over 0.4. These probes may aid in the diagnosis of APKD and contribute towards a linkage map of chromosome 16.     

Construction and characterization of a NotI linking library of human chromosome 21

Effective procedures have been developed for constructing NotI linking libraries starting from chromosome-specific genomic libraries. Fifteen different single copy and two rDNA NotI linking clones from human chromosome 21 were identified in two libraries. Their chromosomal origin was confirmed, and regional location established using hybrid cell panels. Hybridization experiments with these probes revealed pairs of genomic NotI fragments, each ranging in size from less than 0.05 to 4.0 Mb. Many fragments displayed cell type variation. The total size of the NotI fragments detected in a human fibroblast cell line (GM6167) and mouse hybrid cell containing chromosome 21 as its only human component (WAV17) were approximately 32 and 34 Mb, respectively. If these fragments were all non-overlapping, this would correspond to about 70% of the 50-Mb content estimated for the whole chromosome. The linking clones will be enormously useful in the subsequent construction of a NotI restriction map of this chromosome. Characterization of these clones indicates the presence of numerous additional sites for other enzymes that recognize sequences containing CpG. Thus most NotI linking clones appear to derive from CpG islands and probably identify the 5' end of genes.     

A型肉毒毒素表位多肽免疫和人源噬茵体单链抗体文库的构建

采用表位合成多肽免疫获得编码人源抗体的基因材料,抗体轻重链可变区基因通过剪接重叠延伸(SOE)技术进行组装后,亚克隆入噬菌体粒中构建免疫库。以重组制备的A型肉毒毒素保护性抗原为配体筛选结合子,ELISA鉴定,获得具有较高抗原结合力的噬菌体克隆,进行基因测序和家族定位分析。结果显示,表位合成多肽免疫,成功构建了库容大于10^8的重组抗体库。体外3轮免疫淘筛,筛选到人源A型肉毒抗毒素克隆,基因结构分析表明,其中ScFvB17全长750bp,可编码250个氨基酸残基：VH属于VH4家族,369bp,编码123个氨基酸残基;Vκ属于κ链Ⅱ家族,336bp,编码112个氨基酸残基。基因的同源分析表明,这是一株特异的单链抗体新基因。     

Identification of human scFvs targeting atherosclerotic lesions: selection by single round in vivo phage display

Our aim was to investigate by in vivo biopanning the lesions developed early in atherosclerosis and identify human antibodies that home to diseased regions. We have designed a two-step approach for a rapid isolation of human Monoclonal phage-display single-chain antibodies (MoPhabs) reactive with proteins found in lesions developed in an animal model of atherosclerosis. After a single round of in vivo biopanning, the MoPhabs were eluted from diseased sections of rabbit aorta identified by histology and NMR microscopy. MoPhabs expressed in situ were selected by subtractive colony filter screening for their capacity to recognize atherosclerotic but not normal aorta. MoPhabs selected by our method predominantly bind atherosclerotic lesions. Two of them, B3.3G and B3.GER, produced as scFv fragments, recognized an epitope present on the surface in early atherosclerotic lesions and within the intimal thickness in more complex plaques. These human MoPhabs homed to atherosclerotic lesions in ApoE(-/-) mice after in vivo injection. A protein of approximately 56 kDa recognized by B3.3G was affinity-purified and identified by mass spectrometry analysis as vitronectin. This is the first time that single round in vivo biopanning has been used to select human antibodies as candidates for diagnostic imaging and for obtaining insight into targets displayed in atherosclerotic plaques.     

Construction and characterization of phage display library: recognition of mouse serologically detected male (SDM) antigen

Improvement of animal embryo sexing depends upon high-titer serologically detected male (SDM) antibody fragments. SDM sera collected from isogenic C57BL/7 female mice after inoculation with male spleen cells were characterized and used for construction of a recombinant Fab antibody library against SDM antigen, and used for analysis of the binding capacity and specificity to SDM antigen. The heavy-chain Fd and full-length light-chain kappa were amplified by RT-PCR from a mouse (#6) that'ed high-titer antiserum. The amplified product was inserted into the pComb3 vector followed by co-infections with the help phage VCSM 13 for construction of the phage library, which gave 1.5x10(7) colonies with the titer of 3.2x10(11) pfu/ml by a recombination rate of 80%. Sequence analysis of the PCR products of plasmid DNA of E5 clones showed that V(H) and V(kappa) had common characteristics shared by other known variable region of antibodies. The Fab antibody libraries against SDM antigen were enriched by three cycles of affinity enrichment with male spleen cells, and two cycles of non-specific absorption with female spleen cells. The ELISA results showed that 9 of 15 clones had binding capacity to the SDM antigen. This is the first report on a phage display library of SDM antigen. The mouse Fab antibody library could be used for identifying SDM antigen, and for the development of sex determination of early embryos in mammals.     

Isoenzyme-directed selection and characterization of anti-creatine kinase single chain Fv antibodies from a human phage display library

Epitopes differing among isoenzymes of creatine kinase (CK) are apparently limited in number and poorly immunogenic in vivo. Especially for the BB-CK isoenzyme, very few monoclonal antibodies (mAb) are available. Here, we use in vitro selection with a synthetic human phage display antibody library and develop isoenzyme competition and peptide panning strategies to obtain human single chain Fv (scFv) antibodies against specific CK isoenzymes. We isolated and characterized seven scFv clones that recognize native as well as denatured cytosolic BB-CK in ELISA, immunoblot, immunofluorescence histochemistry and surface plasmon resonance (SPR) spectroscopy. To a variable but minor degree, they also react with cytosolic MM-CK, but not with mitochondrial CK isoenzymes. Epitope mapping revealed that the scFv antibodies recognize different BB-CK epitopes, including the N-terminus and the isoenzyme-specific box, a highly conserved sequence of unknown function for which no mAb were available so far. With a K(D) of 3.5-9.6 x 10(-7) M, the isolated scFv compare favorably with mouse mAb and may overcome certain of their limitations. Our results demonstrate the advantages of in vitro antibody selection for the generation of isoenzyme-specific antibodies.     

人IgG四亚类对噬菌体展示Ig结合蛋白单结构域随机组合文库的体外进化筛选

金黄色葡萄球菌蛋白A(Staphylococcal protein A,SpA)和链球菌蛋白G(Streptococcal protein G,SpG)是细菌产生的特异结合宿主抗体的细菌免疫球蛋白结合蛋白(Immunoglobulin(Ig)-binding proteins,IBPs)的代表分子。SpA和SpG均包含由多个序列高度同源的结合结构域重复组成的抗体结合区,各单结构域都具有完全的结合IgG的功能。为研究这些单结构域随机组合能否产生具有新结合特性的组合分子,将SpA的A、B、C、D、E以及SpG的B2、B3共7个单结合结构域随机组合构建成噬菌体展示文库后,应用人IgG1、2、3、4为诱饵分子对该文库进行4轮筛选,获得了SpA天然分子中不存在的单结构域排列组合分子D-C。在筛选过程中,阴性对照噬菌体的逐渐减少、展示两个结构域以上的噬菌体比例不断增多,尤其是D-C组合的选择性富集和其随机连接肽的严格筛选都显示了筛选的有效性和D-C组合的重要性。噬菌体ELISA进一步证实D-C与人IgG四亚类的结合能力远强于天然SpA分子。该研究应用分子进化技术首次获得了一种与人IgG四亚类具有结合优势的新型组合分子D-C,不仅可为IgG纯化、制备、检测等方面的应用提供新的候选分子,还为细菌IBP结构功能的进一步研究提供新的手段。     

Selection and characterization of high affinity VEGFR1 antibodies from a novel human binary code scFv phage library

VEGFR1 is a receptor tyrosine kinase that has been implicated in cancer pathogenesis. It is upregulated in angiogenic endothelial cells and expressed on human tumor cells as well. VEGFR1 positive hematopoietic progenitor cells home to sites of distant metastases prior to the arrival of the tumor cells thus establishing a pre-metastatic niche. To discover high affinity human antibodies selective for VEGFR1 molecular imaging or for molecularly targeted therapy, a novel phage display scFv library was assembled and characterized. The library was constructed from the humanized 4D5 framework that was mostly comprised tyrosine and serine residues in four complimentarity determining regions (CDRs). The library produced diverse and functional antibodies against a panel of proteins, some of which are of biomedical interest including, CD44, VEGFA, and VEGFR1. After panning, these antibodies had affinity strong enough for molecular imaging or targeted drug delivery without the need for affinity maturation. One of the anti-VEGFR1 scFvs recognized its cognate receptor and was selective for the VEGFR1.     

Construction and characterization of a pseudo-immune human antibody library using yeast surface display

Lymphocytes from eight individuals out of 60 healthy donors, whose plasmas showed relatively higher antibody titer for a target antigen of death receptor 5 (DR5), were selected for the source of antibody genes to construct so called an anti-DR5 pseudo-immune human single-chain fragment variable (scFv) library on the yeast cell surface (approximately 2x10(6) diversity). Compared with a large nonimmune human scFv library (approximately 1x10(9) diversity), the repertoire of the pseudo-immune scFv library was significantly biased toward the target antigen, which facilitated rapid enrichments of the target-specific high affinity scFvs during selections by fluorescence activated cell sortings. Isolated scFvs, HW5 and HW6, from the pseudo-immune library showed much higher specificity and affinity for the targeted antigen than those from the nonimmune library. Our results suggest that a pseudo-immune antibody library is very efficient to isolate target-specific high affinity antibody from a relatively small sized library.