Molecular cloning of the feline thymus and activation-regulated chemokine cDNA and its expression in lesional skin of cats with eosinophilic plaque

Thymus and activation-regulated chemokine (TARC) is a member of CC chemokine and plays an essential role in recruitment of CC chemokine receptor 4 positive Th2 cells to allergic lesion. To investigate the association of TARC in allergic inflammation of cats, a TARC cDNA was cloned from feline thymus by RT-PCR with 3' rapid amplification of cDNA ends (RACE) method. The feline TARC clone contained a full length open reading frame encoding 99 amino acids which shared 80.8%, 72.5%, 65.6% and 67.8% homology with dog, human, mouse and rat homologues, respectively. Expression of TARC mRNA was detected not only in thymus but also in spleen, lung, lymph node, kidney, small intestine, colon and skin of the normal cat tissues examined. Furthermore, it was found that TARC mRNA was strongly expressed in lesional skin of cats with eosinophilic plaque. The present results demonstrated that TARC might be involved in the pathogenesis of eosinophilic plaque in cats.     

Expression of CC chemokine receptor 4 (CCR4) mRNA in canine atopic skin lesion

CC chemokine receptor 4 (CCR4) is a G protein-coupled seven transmembrane receptor that is selectively expressed on Th2 cells and plays an important role in the trafficking of Th2 cells into inflammatory sites. In this study, a full-length canine CCR4 cDNA was cloned and characterized in order to examine the potential role of CCR4 in allergic responses that produce skin lesions in canine atopic dermatitis (AD). The canine CCR4 cDNA reported in this study contained an open reading frame of 1083 nucleotides encoding 360 amino acids. The predicted amino acid sequence of canine CCR4 showed 91.9, 85.3 and 84.5% similarity with those of the human, mouse and guinea pig counterparts, respectively. Expression of CCR4 mRNA was detected in various tissues including thymus, spleen, heart, small intestine and lymph node. Furthermore, it was found that CCR4 mRNA was preferentially expressed in lesional skin of dogs with AD, together with the mRNA of thymus and activation-regulated chemokine (TARC), which is a ligand for CCR4. The present study demonstrates that CCR4 contributes strongly to the immunopathogenesis of canine AD.     

Production of a monoclonal antibody to canine thymus and activation-regulated chemokine (TARC) and detection of TARC in lesional skin from dogs with atopic dermatitis

A monoclonal antibody to canine thymus and activation-regulated chemokine (TARC/CCL17) was developed to examine the association of TARC with the immunopathogenesis of canine atopic dermatitis (AD). Recombinant canine TARC was prepared using an E. coli expression system. Results of transwell chemotaxis assay demonstrated that the recombinant canine TARC showed chemotactic activity for canine lymphoid cells expressing CC chemokine receptor 4 (CCR4). Mice were then immunized with the recombinant canine TARC to obtain monoclonal antibodies. Among the monoclonal antibodies thereby obtained, one monoclonal antibody (CTA-1) was found to react with both recombinant and authentic canine TARC in ELISA and flowcytometric assays, respectively. Immunohistochemical analysis using the monoclonal antibody CTA-1 demonstrated that keratinocytes were major TARC producing cells in lesional skin of dogs with AD.     

Molecular cloning of the canine c-Met/HGF receptor and its expression in normal and regenerated liver

The c-Met proto-oncogene is the receptor for hepatocyte growth factor (HGF), which is a member of the tyrosine kinase family. Activation of the HGF/c-Met signal pathway leads to cell proliferation, motility, regeneration, and morphogenesis. In this study, the complete nucleotide sequence of complementary DNA (cDNA) of canine c-Met was cloned, and its distribution was determined in tissues. The canine c-Met cDNA clone had an open reading frame of 4419 bp that encoded a putative polypeptide of 1383 amino acids. The c-Met mRNA was expressed in a variety of canine tissues including peripheral blood mononuclear cells (PBMC), bone marrow, liver, kidney, lung, stomach, uterus, testis, thymus, lymph node, small intestine, colon, adrenal gland, thyroid gland, heart, muscle, skin, pancreas, ovary, prostate, spleen, fat, cerebrum, and cerebellum. In addition, the c-Met mRNA expression in normal and regenerated liver was examined. The levels of the mRNA increased 2-fold in regenerated liver compared to that found in normal liver, indicating that c-Met is involved in various functions including remodeling of canine hepatocytes.     

Canine Bcl-xL gene and its expression in tumor cell lines

The canine Bcl-xL gene was cloned and sequenced. Canine Bcl-xL cDNA clone was 1252 bp in length, and encoded 233 deduced amino acides. The predicted canine Bcl-xL amino acid sequence shared 99.6%, 97.0%, 97.9%, 98.7% and 98.3% homology with that of human, mouse, rat, sheep and pig Bcl-xL, respectively. RT-PCR analysis revealed that canine Bcl-xL mRNA was constitutively expressed in CL-1 (canine lymphoma) and GL-1 (canine B cell leukemia) cell lines.     

Molecular cloning and phylogenetic analysis of a cDNA encoding the cat (Felis domesticus) Ig epsilon constant region

A feline splenic cDNA library was screened with a (32)P-labelled cDNA probe encoding the canine IgE epsilon heavy chain subunit. A cDNA sequence of 1614 nucleotides encoding the complete feline IgE heavy chain, as well as a portion of a variable region, was identified. A search of the GenBank database revealed an identity of 82% at the nucleotide level and 76% at the amino acid level between the feline epsilon heavy chain sequence and the canine homologue. In a separate study, feline genomic DNA, isolated from whole feline embryo cells, was subjected to PCR amplification using primers based on known partial genomic DNA sequences for the feline C epsilon gene. Following removal of an intron from the 683 bp PCR product, the coding sequence yielded an ORF of 506 bp. The DNA sequence of this PCR clone differed by a single nucleotide from the cDNA clone. This difference is silent, and therefore the proteins encoded by the two sequences are identical over the regions cloned and sequenced. Phylogenetic analysis of the constant regions of nine immunoglobulin epsilon genes revealed that the feline cDNA is most similar to the canine homologue.     

Molecular cloning of canine activation-induced cytidine deaminase (AID) cDNA and its expression in normal tissues

Activation-induced cytidine deaminase (AID) is essential for class switch recombination, somatic hypermutation, and gene conversion of immunoglobulin gene. In the present study, canine AID cDNA was cloned from the lymph node of a healthy dog by RT-PCR with rapid amplification of cDNA ends (RACE) method. The canine AID cDNA was 1,377 bp in length, and contained the entire open reading frame encoding 198 amino acids which had 94.9%, 94.4%, and 89.9% homology with human, mouse, and chicken homologues, respectively. Canine AID mRNA was expressed in thymus, lung, spleen, kidney, small intestine, lymph node, and tonsil of a healthy dog, similar to humans.     

Identifying innate immune pathways of the chicken may lead to new antiviral therapies

Fractalkine, also known as CX(3)CL1, is a unique chemokine that mediates inflammatory responses and is involved in the pathogenesis of several inflammatory disorders, including inflammatory bowel disease (IBD) in humans. In this study, we isolated cDNAs encoding canine fractalkine and its receptor CX(3)CR1, and assessed the biological activity of these molecules. The deduced amino acid sequence of the canine fractalkine cDNA showed 66% and 57% identity to human and mouse homologs, respectively. The N-terminal chemokine domain of the canine fractalkine showed 68% and 65% identity to human and mouse counterparts, respectively. The canine CX(3)CR1 amino acid sequence showed close homology to its human (83% identity) and mouse (81% identity) counterparts. Fractalkine and CX(3)CR1 mRNA were detected in all tissues in this study. Relatively higher expression levels of fractalkine mRNA were observed in the brain, medulla spinalis, small intestine, and mesenteric lymph nodes (MLNs), whereas higher expression levels of CX(3)CR1 mRNA were observed in the medulla spinalis, brain, liver, small intestine, and MLNs. The cross-reactivities of anti-human fractalkine antibody and anti-rat CX(3)CR1 antibody to canine proteins were confirmed using recombinant canine fractalkine and a cell line overexpressing canine CX(3)CR1, respectively. A transwell chemotaxis assay showed that the recombinant canine fractalkine induced migration in canine lymphoid cells expressing CX(3)CR1. The present study will be useful in understanding the canine immune system and the immunopathogenesis of canine inflammatory diseases.     

Molecular cloning and expression analysis of the canine chemokine receptor CCR9

The chemokine receptor CCR9, which interacts with the thymus-expressed chemokine TECK/CCL25, contributes to the localization of lymphocytes to the small intestine, and is implicated in the development of human inflammatory bowel disease (IBD); however, their role in canine IBD is unknown. The objective of this study was to isolate cDNA encoding CCR9 and to investigate CCR9 expression in normal canine tissues and lymphoid cell lines. The complete open reading frame contained 1104 bp, encoding 367 amino acids, with 85% and 81% identity to human and mouse homologs, respectively. CCR9 mRNA was detected in all tissues investigated with the highest expression level in the small intestine. CCR9 mRNA was also expressed in GL-1, a canine B cell leukemia cell line, but not in CLBL-1, a canine B cell lymphoma cell line. Immunoblot and flow cytometry analyses of these cell lines using an anti-human CCR9 monoclonal antibody revealed that CCR9 protein expression was detected only in GL-1, indicating the cross-reactivity of the antibody. Using the antibody, flow cytometry showed that the proportions of CCR9(+) cells were small (mean, 4.88%; SD, 2.15%) in the normal canine PBMCs. This study will be useful in understanding canine intestinal immunity and the immunopathogenesis of canine IBD.     

Expression analysis of CCL27 and CCL28 mRNA in lesional and non-lesional skin of dogs with atopic dermatitis

Chemokines are important regulators of the selective recruitment of inflammatory cells into sites of allergic inflammation. Since canine atopic dermatitis (AD) shares many clinical features of human AD, patterns of chemokine production in dogs may also be similar with those in humans. The aim of this study was to examine mRNA expression of CCL27 and CCL28 in lesional skin of dogs with AD to demonstrate similarity of chemokine production with human counterparts. RNA was extracted from skin biopsy specimens of 12 dogs with AD. The mRNA expression of CC chemokines (CCL4, CCL19, CCL20, CCL21, CCL24, CCL27 and CCL28) was analyzed by quantitative real-time PCR and was compared between lesional and non-lesional skin. Seven types of chemokines examined were constitutively expressed in both lesional and non-lesional skin. It was found that mRNA expression levels of CCL27 and CCL28 among the chemokines were significantly different between lesional and non-lesional skin (P<0.05). Expression level of CCL27 mRNA in lesional skin was significantly lower than that in non-lesional skin. On the other hand, CCL28 mRNA expression in lesional skin was found to be higher than that in non-lesional skin. These results suggest that CCL28 but not CCL27 may play important roles in immunopathogenesis of canine AD, indicating that experimental canine study may provide additional information that can be extrapolated to human AD.     

Cloning and sequence analysis of the complementary DNA for feline preproparathyroid hormone

OBJECTIVES: To clone and sequence the cDNA for feline preproparathyroid hormone (preproPTH) and to compare that sequence with other known parathyroid hormone (PTH) sequences. SAMPLE POPULATION: Parathyroid glands from 1 healthy cat. PROCEDURES: A cDNA library was constructed in lambda phage from feline parathyroid gland mRNA and screened with a radiolabeled canine PTH probe. Positive clones were sequenced, and nucleic acid and deduced amino acid sequences were analyzed and compared with known preproPTH and PTH sequences. RESULTS: Screening of approximately 2 X 10(5) recombinant plaques revealed 3 that hybridized with the canine PTH probe; 2 clones comprised the complete sequence for feline preproPTH. Feline preproPTH cDNA consisted of a 63-base pair (bp) 5'-untranslated region (UTR), a 348-bp coding region, and a 326-bp 3'-UTR. The coding region encoded a 115-amino acid peptide. Mature feline PTH consisted of 84 amino acids. Amino acid sequence analysis revealed that feline PTH was > 83% identical to canine, bovine, swine, equine, human, and macaque PTH and 69, 71, and 44% identical to mouse, rat, and chicken PTH, respectively. Within the region responsible for hormonal activity (amino acids 1 to 34), feline PTH was > 79% identical to other mammalian PTH sequences and 64% identical to the chicken sequence. CONCLUSIONS AND CLINICAL RELEVANCE: The amino acid sequence of PTH is conserved among mammalian species. Knowledge of the cDNA sequence for feline PTH may be useful to investigate disturbances of calcium metabolism and alterations in PTH expression in cats.     

SD大鼠EGFR基因cDNA序列的分子克隆

参考大鼠EGFR基因序列,用RT-PCR方法对SD大鼠EGFR基因cDNA序列进行克隆,获得了SD大鼠EGFR基因的全长4127bp的cDNA序列（GenBank登录号HM801042）,其中CDS长度为3627bp,编码1209个氨基酸。SD大鼠与国外报道的大鼠、小鼠、牛、猴、人等5个物种的EGFR基因cDNA序列的同源性分别为99．5％、92．9％、78．4％、83．4％、80．2％,其编码蛋白的氨基酸序列同源性分别为99．6％、95．9％、86．6％、89．0％、90．5％。这一结果表明了EGFR基N在进化过程中具有较高的保守性。通过比较SD大鼠EGFR基因与GenBank数据库中发布的EGFR基因的cDNA序列,本试验发现了10个SNP位点,其中5个没有改变氨基酸残基的性质,这一研究结果为EGFR基因的SNPs数据库提供了新的信息。