罗曼鸡胚脾细胞白介素-18基因的克隆与序列分析

根据国外已发表的鸡白细胞介素 18(IL- 18) c DNA基因序列设计了 1对特异性引物 ,应用 RT- PCR技术 ,从鸡新城疫 系病毒接种 4 8h左右的罗曼鸡胚脾细胞中扩增出鸡 IL - 18全基因 ,并进行了序列测定。结果表明 ,扩增片段全长 5 94 bp,共编码 198个氨基酸的前体蛋白 ,其中含有表达完整功能蛋白所必需的起始密码子和终止密码子。该序列与国外报道的鸡 IL - 18全基因核苷酸序列及推导的氨基酸序列的同源性分别为 99.8%和 10 0 % ;序列中编码成熟蛋白的这段基因与国内报道的源自白来航鸡编码 IL- 18成熟蛋白的基因核苷酸序列及推导的氨基酸序列的同源性分别为 99.8%和 99.4 %。本研究为鸡 IL - 18的扩增及其他细胞因子的扩增提供了一种简便易行的新方法 ,为进一步研究IL- 18基因的结构、功能、表达及表达产物的应用奠定了良好基础     

鸡IL—15基因的分子克隆及其有关特性的研究

实验应用聚合酶链式反应技术从鸡脾淋巴细胞中克隆得到了白细胞介素-15基因，序列分析表明与已发表的鸡白细胞介素-15基因完全一致，核苷酸序列和推导的氨基酸序列与牛的最接近，同源性分别为46%和31%，与哺乳动物白细胞介素-15序列类似，有4个高度保守的半胱氨酸残基，同时本研究也用此方法对鸡脾脏、法氏囊、胸腺、哈德氏腺和盲肠扁桃体等淋巴器官的淋巴细胞中鸡白细胞介素-15mRNA的表达进行了研究，结果表明这些器官的淋巴细胞均表达mRNA。在实验还用有丝分裂原ConA对鸡脾淋巴细胞进行活化，观察活化的淋巴细胞表达白细胞介素-15mRNA的情况，结果发现白细胞介素-15mRNA在活化的脾淋巴细胞中表达量升高。     

Molecular cloning, sequencing, and expression of equine interleukin-6

Equine interleukin-6 (IL-6) cDNA was amplified from mitogen-stimulated equine peripheral blood mononuclear cells (PBMC) using consensus sequence primers. The 727bp amplified cDNA contains the entire coding region for equine IL-6 and includes 118 bases in the 3' non-translated region. The coding sequence translates to a protein of 208 amino acids with a predicted 28 amino acid leader sequence. The mature protein of 180 amino acids has a predicted molecular mass of 20471Da without post-translational modifications. The amino acid sequence of equine IL-6 displays between 46 and 84% similarity to other mammalian IL-6 sequences. Expression of equine IL-6 in Chinese hamster ovary (CHO) cells yielded a supernatant that supported the proliferation of B9 cells in a dose-dependent manner. Treatment of B9 cells with an anti-IL-6 receptor antibody ablated the response to the recombinant equine IL-6.     

Cloning and sequence analysis of llama (lama glama) Th2 (IL-4, IL-10 and IL-13) cytokines

This paper describes the cloning and sequence analysis of the cDNAs encoding the T helper (Th) 2 cytokines of llama including interleukin-4 (IL-4), IL-10 and IL-13. The cDNAs encoding for IL-4, IL-10 and IL-13 were amplified using specific primers designed from reported sequences of bovine cytokine genes. The cDNAs for llama IL-4, IL-10 and IL-13 were found to be 402, 537 and 411 bp in length, with open reading frames encoding 133, 178 or 136 amino acids, respectively. Homology analyses of nucleotide and deduced amino acid sequences of llama IL-4, IL-10 and IL-13 and phylogenetic analysis based on their nucleotide sequences indicated the close relationship in these cytokine genes between llama and eutherian mammalian order Artiodactyla (pig, cattle) and Perissodactyla (horse).     

Cloning, expression and bioinformatics analysis of the duck TLR 4 gene

1. Toll-like receptors (TLRs) are type I transmembrane proteins that play an essential role in the innate immune system. Studies on the structure and function of TLRs can be applied to the development of new approaches to control diseases of humans and animals.

2. A 3432-bp cDNA encoding duck toll-like receptor 4 (duTLR4) was cloned from duck splenic lymphocytes using RT-PCR and rapid amplification of cDNA ends.

3. The encoded protein, which was predicted to contain 843 amino acids, had a molecular weight of 96·01?kDa and included an archetypal toll/interleukin-1 receptor domain, a transmembrane domain, and a distinctive arrangement of extracellular leucine-rich repeat regions similar to chicken TLR4, human TLR4, and mouse TLR4. The duTLR4 showed 82·1% amino acid sequence identity with previously described chicken TLR4, and 43·2–45·2% sequence identity with mammalian homologs.

4. RT-qPCR analysis indicated that the duTLR4 gene was strongly expressed in the liver, kidney, spleen, intestine, and brain.     

Postnatal development of T-lymphocyte subpopulations in the intestinal intraepithelium and lamina propria in chickens.

Postnatal development of various T-lymphocyte subpopulations expressing CD3, CD8, CD4, and antigen-specific TCR heterodimers alpha beta (TCR2) or gamma delta (TCR1) was investigated in two different inbred chicken strains, SC and TK. The ratios of jejunum T-cells expressing TCR1 to TCR2 in the intraepithelium of SC and TK strains gradually increased after hatching and were 3.40 and 4.28 by 12 weeks in TK and SC chickens respectively. The ratios of TCR1+ to TCR2(+)-cells in intraepithelium and the lamina propria in SC chickens were 0.96 and 1.23 at 8 weeks and 4.29 and 2.15 at 12 weeks, respectively. Jejunum intraepithelial lymphocytes expressing the CD8 antigen increased gradually until 4-6 weeks of age and subsequently declined as chickens aged. CD4(+)-cells represented a minor subpopulation among the intestinal lymphocyte subpopulations. Therefore, the composition of various T-cell subpopulations in the intestine depended upon host age, the regions of the gut examined and host genetic background. These results suggest that changes in T-cell subpopulations in the intestine may reflect age-related maturation of the gut-associated lymphoid tissues.     

鸡白介素17A的克隆表达及活性测定

从经人工感染柔嫩艾美尔球虫孢子化卵囊(1×104个/只鸡)的盲肠上皮间淋巴细胞(IELs)提取总RNA,用RT-PCR方法成功扩增了鸡白介素17A(IL-17A)基因,测序结果显示,开放阅读框为453bp,编码150个氨基酸,与GenBank上鸡IL-17A基因(AM773756)的核苷酸和氨基酸序列完全一致(100%),与报道的哺乳动物IL-17A的氨基酸相似性达37%～46%。构建的pGEX-6p1-chIL-17A原核表达载体经1mmol/L IPTG诱导后表达出43kDa左右的融合蛋白,与预期大小一致,且Western-blot鉴定表达产物为目的蛋白。功能试验表明,表达的重组鸡IL-17A能够刺激鸡胚成纤维细胞产生IL-6。这些结果表明,鸡IL-17A在结构和功能方面与哺乳动物的IL-17A都有一定的相似性,可能在鸡的免疫应答过程中起到重要的作用。     

Characterization of new monoclonal antibodies against porcine lymphocytes: molecular characterization of clone 7G3, an antibody reactive with the constant region of the T-cell receptor delta-chains

A battery of mouse monoclonal antibodies (mAbs) reactive with porcine peripheral blood (PB) leukocytes was generated. Among the mAbs, 6F10 was found to react probably with cluster of differentiation (CD)8 alpha-chain, while 7G3 and 3E12 were found to recognize gammadelta T-cells, as revealed by two-color flow cytometric and immunoprecipitation studies. 7G3 was shown to react with the constant (C) region of the T-cell receptor (TCR) delta-chain by the following facts: (1) 7G3 immunoprecipitated full-length TCR delta-chain protein fused with glutathione S-transferase (GST) produced by Esherichia coli and (2) 7G3 reacted with TCR delta-chain expressing Cos-7 cells transfected with either full-length or N-terminal deleted mutant cDNA, but did not react with Cos-7 cells transfected with C-terminal deleted mutant TCR delta-chain cDNA. All three mAbs produced high-quality immunostaining results on frozen sections, revealing a distinct distribution of gammadelta T-cells and CD8(+) cells. This report precisely characterizes mAbs against porcine TCR for the first time, facilitating molecular biological investigations of the porcine immune system.     

鸡白细胞介素-15基因克隆、序列分析及表达

根据GenBank上发表的鸡IL-15基因序列设计两对引物,以从鸡脾脏中提取的基因组RNA为模板,采用RT-PCR扩增出鸡白细胞介素-15基因并进行了序列分析。序列分析结果表明,鸡白细胞介素-15基因序列全长580bp,开放阅读框架内564个核苷酸共编码188个氨基酸。所扩增的序列与已报道的序列同源性为99.9%(563/564)。将扩增序列插入大肠杆菌载体pBV220中进行表达,SDS-PAGE显示目的蛋白约为21ku,表达产物经免疫荧光鉴定为阳性。     

Marek's disease virus-transformed chicken T-cell lines respond to lymphokines.

Current assays for chicken interleukin-2 (IL-2) utilize mitogen-activated lymphocytes. However, very high inter-assay variability and sporadic high background proliferation limit their usefulness. In view of the above, several Marek's disease virus (MDV)-transformed T-cell lines (which grow well in a serum-supplemented medium) were tested for a response to chicken IL-2 when grown in serum-free media. Five of six lines examined showed a dose-dependent proliferative response to chicken T-cell conditioned media. One line, MDCC-CU14, was chosen for further studies. In addition to the tumor cells' dose-dependent responses to semi-purified chicken IL-2, they expressed T-cell activation antigens on the cell surface. Furthermore, the level of surface expression was enhanced on cells provided IL-2. Co-incubation of the tumor cells with monoclonal antibody INN-CH-16 (specific for an antigen on the surface of activated T-cells) and IL-2 resulted in a modulation of lymphokine-induced proliferation. Together, these data suggest that signalling mechanisms in MDV T-cell tumors are intact and that these lines can be used as an assay for chicken T-cell lymphokines. Furthermore, they provide an interesting model for the study of avian and mammalian T-cell transformation. Implications for the study of Marek's disease are also discussed.     

Molecular cloning of feline interferon-gamma-inducing factor (interleukin-18) and its expression in various tissues

Interleukin-18 (IL-18) is a cytokine with potent interferon-gamma-inducing activity, and plays an important biologic role in the enhancement of the activity of natural killer cells and cytotoxic T-lymphocytes. In this study, feline IL-18 cDNA was cloned and characterized to establish a basis for the prospective cytokine therapy in small animal practice. The nucleotide sequence of feline IL-18 cDNA obtained in this study was 712bp long and contained its entire open reading frame encoding 192 amino acid residues. The predicted amino acid sequence of feline IL-18 cDNA showed 77.2, 84.8, 60.2 and 62.6% similarity with those of human, dog, rat and mouse counterparts, respectively. The feline IL-18 cDNA included a putative cleavage site of IL-1beta-converting enzyme (ICE) and IL-1 signature-like sequences identified in human and mouse IL-18 cDNAs. Expression of IL-18 mRNA was detected in various tissues including spleen, liver and cerebrum in the cat.     

Cloning,expression, and tissue distribution of bovine interleukin-21

Bovine interleukin-21 (IL-21) cDNA was cloned and sequenced from bovine peripheral blood lymphocytes (PBLs) stimulated with 10 microg/ml concanavalin A (ConA), 10 microg/ml phytohemagglutinin (PHA), and 50 ng/ml phorbol 12-myristate 13-acetate (PMA) for 48 h. The open reading frame of the bovine IL-21 cDNA is 459 bp in length and encodes 152 amino acids. The predicted amino acid sequence is 78.2 and 58.5% homologous to the human and murine IL-21 amino acid sequences, respectively. Recombinant bovine IL-21 was expressed by a baculovirus expression system. The bovine IL-21 was processed to the mature form in insect cells and secreted to the supernatant confirmed by N-terminal amino acid sequencing. The recombinant bovine mature IL-21 induced the proliferation of human IL-2-dependent cells, ILT-MAT. The mRNA expression for bovine IL-21 was observed in the spleen, but not in the brain, heart, lung, liver, and kidney. The bovine IL-21 identified in this study may provide new methods for the enhancement of innate immunity in cows.