Antibody repertoire development in fetal and neonatal piglets. XIII. Hybrid VH genes and the preimmune repertoire revisited

The expressed porcine VH genes belong to the VH3 family (clan), four of which, VHA, VHB, VHC, and VHE, alone comprise approximately 80% of the preimmune repertoire. However, so-called "hybrid" VH genes that use CDR1 of one VH gene and the CDR2 of another are frequently encountered. We studied > 3000 cloned VDJs and found that such hybrids can contribute up to 10% of the preimmune repertoire. Based on the 1) recovery of hybrid VH genes from bacterial artificial chromosome clones, 2) frequency of occurrence of certain hybrids in the preimmune repertoire, and 3) failure to recover equal numbers of reciprocal hybrids, we concluded that some chimeric genes are present in the genome and are not PCR artifacts. Two chimeric germline genes (VHZ and VHY), together with VHF and the four genes mentioned above, constitute the major VH genes and these account for > 95% of the preimmune repertoire. Diversification of the preimmune IgG and IgM repertoires after environmental exposure was mainly due to somatic hypermutation of major VH genes with no evidence of gene conversion. Somatic hypermutation was 3- to 10-fold higher in CDRs than in framework regions, most were R mutations and transversions and transitions equally contributed. Data were used to 1) develop an index to quantify the degree of VH repertoire diversification and 2) establish a library of 29 putative porcine VH genes. One-third of these genes are chimeric genes and their sequences suggest that the porcine VH genome developed by duplication and splicing from a small number of prototypic genes.     

The reported germline repertoire of human immunoglobulin kappa chain genes is relatively complete and accurate

We describe a bioinformatic analysis of germline and rearranged immunoglobulin kappa chain (IGK) gene sequences, performed in order to assess the completeness and reliability of the reported IGK repertoire. In contrast to the reported heavy-chain gene repertoire, which includes many dubious sequences, only five IGK variable gene (IGKV) alleles appear to have been reported in error. There was, however, insufficient evidence to justify removing these IGKV genes from the germline repertoire. Bioinformatic analysis of apparent mismatches between reported germline genes and 1,863 expressed IGK sequences suggested the existence of two unreported IGKV polymorphisms. Genomic screening of 12 individuals led to the confirmation of both of these polymorphisms, IGKV1-16*02 and IGKV2-30*02. We also show that in contrast to the heavy chain, the IGK repertoire is dominated by sequences that use just a handful of kappa variable (IGKV) and junction (IGKJ) gene pairs. There is also little modification of IGKV and IGKJ genes by the processes of exonuclease removal and N nucleotide addition. The expressed IGK repertoire therefore lacks diversity and the junction region is particularly constrained. Remarkably, the analysis of a dataset of 435 relatively unmutated rearranged kappa genes showed that ten amino acid sequences account for almost 10% of the rearrangements, with identical sequences being derived from as many as seven independent sources. Such dominant sequences are likely to have important roles in the operation of the humoral immune response.     

Evolution of the porcine (<Emphasis Type="Italic">Sus scrofa domestica</Emphasis>) immunoglobulin kappa locus through germline gene conversion

Immunoglobulin (IG) gene rearrangement and expression are central to disease resistance and health maintenance in animals. The IG kappa (IGK) locus in swine (Sus scrofa domestica) contributes to approximately half of all antibody molecules, in contrast to many other Cetartiodactyla, whose members provide the majority of human dietary protein and in which kappa locus utilization is limited. The porcine IGK variable locus is 27.9 kb upstream of five IG kappa J genes (IGKJ) which are separated from a single constant gene (IGKC) by 2.8 kb. Fourteen variable genes (IGKV) were identified, of which nine are functional and two are open reading frame (ORF). Of the three pseudogenes, IGKV3-1 contains a frameshift and multiple stop codons, IGKV7-2 contains multiple stop codons, and IGKV2-5 is missing exon 2. The nine functional IGKV genes are phylogenetically related to either the human IGKV1 or IGKV2 subgroups. IGKV2 subgroup genes were found to be dominantly expressed. Polymorphisms were identified on overlapping BACs derived from the same individual such that 11 genes contain amino acid differences. The most striking allelic differences are present in IGKV2 genes, which contain as many as 16 amino acid changes between alleles, the majority of which are in complementarity determining region (CDR) 1. In addition, many IGKV2 CDR1 are shared between genes but not between alleles, suggesting extensive diversification of this locus through gene conversion.     

Molecular signatures of anti-nuclear antibodies: contributions of specific light chain residues and a novel New Zealand Black V kappa 1 germline gene

Although the Ig H chains of anti-nuclear Abs (ANA) have been described to possess certain shared molecular signatures, it remains unclear whether the L chains of these Abs also possess distinctive molecular features. The present study examines this by generating and analyzing two comprehensive murine Ig L chain databases, one consisting of 264 monoclonal ANAs and the other consisting of 145 non-ANAs, drawn from previously published work. Importantly, clonal replicates were represented only once each, so as to minimize bias. ANAs and non-ANAs did not differ in Vkappa family or Jkappa gene usage, nor in their mutation frequencies. Interestingly, the L chains of ANAs exhibited differential usage of certain complementarity-determining region residues, arising almost entirely from the increased usage of certain Vkappa germline genes, notably, Vkappa ai4 among anti-dsDNA ANAs, Vkappa23-45 among anti-ssDNA ANAs, and Vkappa21-12 among non-ANAs. Finally, prompted by the increased prevalence of a particular Vkappa1 family sequence among ANAs, we proceeded to clone a novel New Zealand Black Vkappa1 germline gene, named bb1.1, which appears to be frequently used to encoded anti-ssDNA Abs. Collectively, these studies underline the potential contribution of particular Vkappa germline genes in promoting or thwarting DNA binding.     

The human anti-thyroid peroxidase autoantibody repertoire in Graves' and Hashimoto's autoimmune thyroid diseases

Human anti-thyroid peroxidase (TPO) autoantibodies (aAb) are generated during autoimmune thyroid diseases (AITD). Within recent years, increasing knowledge of the TPO-specific aAb repertoire, gained mainly by the use of combinatorial library methodology, has led to the cloning and sequencing of around 180 human anti-TPO aAb. Analysis of the immunoglobulin (Ig) variable (V) genes encoding the TPO aAb in the ImMunoGeneTics database (IMGT) (http://imgt.cines.fr) reveals major features of the TPO-directed aAb repertoire during AITD. Heavy chain VH domains of TPO-specific aAb from Graves' disease patients preferentially use D proximal IGHV1 genes, whereas those from Hashimoto's thyroiditis are characterized more frequently by IGHV3 genes, mainly located in the middle of the IGH locus. A large proportion of the anti-TPO heavy chain VH domains is obtained following a VDJ recombination process that uses inverted D genes. J distal IGKV1 and IGLV1 genes are predominantly used in TPO aAb. In contrast to the numerous somatic hypermutations in the TPO-specific heavy chains, there is only limited amino acid replacement in most of the TPO-specific light chains, particularly in those encoded by J proximal IGLV or IGKV genes, suggesting that a defect in receptor editing can occur during aAb generation in AITD. Among the predominant IGHV1 or IGKV1 TPO aAb, conserved somatic mutations are the hallmark of the TPO aAb repertoire. The aim of this review is to provide new insights into aAb generation against TPO, a major autoantigen involved in AITD.     

Fully synthetic human combinatorial antibody libraries (HuCAL) based on modular consensus frameworks and CDRs randomized with trinucleotides

By analyzing the human antibody repertoire in terms of structure, amino acid sequence diversity and germline usage, we found that seven V(H) and seven V(L) (four Vkappa and three Vlambda) germline families cover more than 95 % of the human antibody diversity used. A consensus sequence was derived for each family and optimized for expression in Escherichia coli. In order to make all six complementarity determining regions (CDRs) accessible for diversification, the synthetic genes were designed to be modular and mutually compatible by introducing unique restriction endonuclease sites flanking the CDRs. Molecular modeling verified that all canonical classes were present. We could show that all master genes are expressed as soluble proteins in the periplasm of E. coli. A first set of antibody phage display libraries totalling 2x10(9) members was created after cloning the genes in all 49 combinations into a phagemid vector, itself devoid of the restriction sites in question. Diversity was created by replacing the V(H) and V(L) CDR3 regions of the master genes by CDR3 library cassettes, generated from mixed trinucleotides and biased towards natural human antibody CDR3 sequences. The sequencing of 257 members of the unselected libraries indicated that the frequency of correct and thus potentially functional sequences was 61 %. Selection experiments against many antigens yielded a diverse set of binders with high affinities. Due to the modular design of all master genes, either single binders or even pools of binders can now be rapidly optimized without knowledge of the particular sequence, using pre-built CDR cassette libraries. The small number of 49 master genes will allow future improvements to be incorporated quickly, and the separation of the frameworks may help in analyzing why nature has evolved these distinct subfamilies of antibody germline genes.     

Antigen-binding repertoire and Ig H chain gene usage among B cell hybridomas from normal and autoimmune mice

LPS-stimulated B cells were used to generate a panel of mAb that were a random sample of the preimmune repertoire of C57BL/6 and highly autoimmune, viable motheaten mice. These mAb were tested for reactivity to a number of "self" and foreign Ag. Binding that could be detected only at nM mAb concentrations or less was considered significant. We found that a surprisingly high number of the mAb bound one or more of the Ag tested, and many mAb bound more than a single Ag. Ag-induced mAb were likewise tested and found to have greatly reduced cross-reactivities. We found no significant differences, either in frequency of Ag binding or degree of cross-reactivity, between normal and autoimmune mice. Furthermore, the frequency with which a given Ag was bound by our panel of mAb was found to be proportional to the size of the Ag. The frequency with which individual VH gene families were expressed by our panel was consistent with a stochastic usage of VH genes in the preimmune repertoire. We interpret these data as showing that the preimmune repertoire is highly cross-reactive and that the activation of autoreactive clones in autoimmune animals is due to a defect in cellular regulation rather than a difference in repertoire.     

Utilization of V kappa families and V kappa exons. Implications for the available B cell repertoire

A molecular cloning approach was used to determine the relative utilization of 2 individual V kappa 21 genes, 13 V kappa gene families, and the 4 functional J kappa gene segments among splenic B cells of nonimmunized BALB/c mice. Based on the observed frequency of individual V kappa gene expression, we estimate that the mouse genome encodes 150 to 180 functional V kappa genes, and we suggest that most functional V kappa exons are expressed at comparable frequencies in the preimmune antibody repertoire. In contrast, clear differences in J kappa segment utilization were observed, J kappa 4 being consistently underrepresented with respect to the other J kappa segments.     

抗A型肉毒毒素人源三结构域抗体的重组设计与表达

以获得的抗A型肉毒毒素人源单链抗体ScFvB17为模板 ,PCR扩增抗体ScFv基因的重链可变区 (VH)和轻链可变区 (Vκ) ,以重链恒定区 1(CH1) 5′端 12个氨基酸的序列作为连接肽 ,构建成三结构域抗体分子 :VH_连接肽_Vκ(VH Vκ)。重组VH Vκ抗体分子在大肠杆菌中得到高效表达 ,其表达量占菌体总蛋白质的 34%以上。表达的蛋白质在菌内形成包含体 ,采用镍柱金属鏊合层析法对该包含体进行纯化 ,得到了纯度高达 95 %的VH Vκ。ELISA等实验结果显示 ,重组设计并制备的三结构域抗体蛋白VH Vκ不但可以特异识别毒素抗原 ,具有与原母本单链抗体ScFv相同的抗原特异性 ,而且具有了更高的相对亲和力和稳定性。     

A variable region gene subfamily encoding T cell receptor beta-chains is selectively conserved among mammals

Studies of murine T cell receptor genes indicate that the VT beta repertoire, in contrast to the large VT alpha, VH, and VK repertoires, is limited to approximately 21 genes. Large differences between the various VT beta sequences allow classification into distinct subfamilies consisting of one or few members. The VT beta sequence of a gene, RTB92, expressed in a rabbit T cell line is most closely related to a VT beta gene expressed in the human cell line Molt-4. Genomic blots with RTB92 VT beta region used as probe indicated conservation of related VT beta gene subfamilies in man and pig, but no related sequences were seen in rat, mouse, or hamster. The relationship among these VT beta genes mirrors similarities and differences in MHC genes of the compared species and suggests coordinate evolution of these functionally related gene families. The constant region of RTB92 was shown to be rabbit CT beta 2 by reference to genomic clones. Comparisons with constant region sequences of human and murine CT beta 1 and CT beta 2 chains reveal no similarities in amino acid or nucleic acid sequence in the coding region characteristic of the respective isotypes. Intraspecies homologies between CT beta 1 and CT beta 2 sequences were much greater than those between CT beta 1 or CT beta 2 from other species. By contrast, comparisons of JT beta and 3' untranslated region sequences showed significant interspecies conservation of sequences in the beta 1 and in the beta 2 regions.     

Mapping of genes expressed in activated porcine Peyer's patch

To determine the chromosomal locations for genes expressed in porcine Peyer's patches, polymerase chain reaction-based mapping of expressed sequence tags (ESTs) isolated from a porcine Peyer's patch-specific cDNA library was performed across a 6500-rad swine radiation hybrid panel. A total of 116 ESTs were mapped with LOD scores >6.0, and another 11 ESTs had LOD scores between 5.0 and 6.0. Of these 127 ESTs, 63% matched known genes (相似文献   

cDNA cloning,sequence identification and tissue expression distribution of three novel porcine genes: UCHL3, RIT1 and CCND3

The complete CDS sequences of three porcine genes: UCHL3, RIT1 and CCND3 were amplified using RT-PCR based on the sequence information of the mouse or other mammals and referenced highly homologous pig ESTs. Sequence analysis of these three genes revealed that the porcine UCHL3 gene encodes a protein of 230 amino acids and has high homology with the ubiquitin carboxyl-terminal hydrolase isozyme L3 (UCHL3) of four species-bovine (97%), human (96%), mouse (95%) and rat (94%). The porcine RIT1 gene encodes a protein of 219 amino acids and has high homology with the GTP-binding protein Rit1 (RIT1) of two species-human (97%), mouse (97%). The porcine CCND3 gene encodes a protein of 292 amino acids and has high homology with the G1/S-specific cyclin-D3 (CCND3) of four species-bovine (98%), human (97%), mouse (93%) and rat (92%). The phylogenetic tree analysis revealed that the swine UCHL3 has a closer genetic relationship with the UCHL3 of bovine, and the swine RIT1 has closer genetic relationships with the RIT1 of human, but the swine CCND3 has a closer genetic relationship with the CCND3 of bovine. The RT-PCR gene expression analysis indicated that the swine UCHL3, RIT1 and CCND3 genes were differentially expressed in tissues including small intestine, large intestine, liver, muscle, fat, lung, spleen and kidney. Our experiment established the primary foundation for further research on these three swine genes.     

合作小型猪T细胞受体α链的基因结构及其多样性

目的探讨猪TCR基因分子结构的复杂性及其与人类的相似性。方法以公开的猪TCRα链基因为参考序列设计两对特异性引物,用RT-PCR法从合作小型猪外周血、淋巴结和脾脏的淋巴细胞中克隆了93个猪TCRα基因(简称STA)。结果测序分析表明,克隆的猪TCRα链的基因均含有可变的信号肽区和V区、高变的J区和恒定的C区的基因片段,但基因间的核苷酸序列组成都不完全相同,且具有十分复杂的多态性和多样性,基因间的同源性在68.4%~98.7%,这与TCRα链的基本基因结构特征相一致。依据TCRα基因的同源性对其分子结构、遗传演化关系和归类分析发现,在其信号肽区、FR1区和CDR1区、FR2区和CDR2区以及FR3区和CDR3区都存在一些变异集中点和变异热点区。用IMGT/V-QUEST分析方法可将合作小型猪TCRαV区(STAV)、J区(STAJ)基因片段与人类的进行比较分析,发现合作小型猪TCRα与人类的遗传演化关系较近,每个序列都能找到与人类对应的TRAV、TRAJ基因片段,甚至V区的相似性可达92%以上。结论近交培育的合作小型猪在正常状态具有应对外界复杂微生物等环境的TCR遗传多样性分子基础,且适合作为人类免疫学及疾病研究的动物模型。