Masahiro Uehira scite author profile

We have demonstrated that intestinal epithelial cells produce interleukin 7 (IL-7), and IL-7 serves as a potent regulatory factor for proliferation of intestinal mucosal lymphocytes expressing functional IL-7 receptor. To clarify the mechanism by which locally produced IL-7 regulates the mucosal lymphocytes, we investigated IL-7 transgenic mice. Here we report that transgenic mice expressing murine IL-7 cDNA driver by the SRα promoter developed chronic colitis in concert with the expression of SRα/IL-7 transgene in the colonic mucosa. IL-7 transgenic but not littermate mice developed chronic colitis at 4–12 wk of age, with histopathological similarity to ulcerative colitis in humans. Southern blot hybridization and competitive PCR demonstrated that the expression of IL-7 messenger RNA was increased in the colonic mucosal lymphocytes but not in the colonic epithelial cells. IL-7 protein accumulation was decreased in the goblet cell–depleted colonic epithelium in the transgenic mice. Immunohistochemical and cytokine production analysis showed that lymphoid infiltrates in the lamina propria were dominated by T helper cell type 1 CD4+ T cells. Flow cytometric analysis demonstrated that CD4+ intraepithelial T cells were increased, but T cell receptor γ/δ T cells and CD8α/α cells were not increased in the area of chronic inflammation. Increased IL-7 receptor expression in mucosal lymphocytes was demonstrated in the transgenic mice. These findings suggest that chronic inflammation in the colonic mucosa may be mediated by dysregulation of colonic epithelial cell–derived IL-7, and this murine model of chronic colitis may contribute to the understanding of the pathogenesis of human inflammatory bowel disease.

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Selective expression of liver and activation-regulated chemokine (LARC) in intestinal epithelium in mice and humans

Tanaka

et al. 1999

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The liver and activation-regulated chemokine (LARC), also termed MIP-3 § and Exodus, is a novel human CC chemokine with a selective chemotactic activity for lymphocytes and den-dritic cells. Here we describe genomic and cDNA clones encoding the murine orthologue of LARC (mLARC). The gene consists of four exons and three introns. The 5'-noncoding region of about 400 bp contains typical TATA and CAAT boxes but no other potential regulatory elements so far described. The cDNA encodes a CC chemokine of 97 amino acid residues with the highest homology to human LARC (64 % amino acid identity). The 3'-noncoding region contains as many as five potential mRNA destabilization signals. mLARC was strongly and transiently induced in the murine monocytoid cell line J774 by lipopolysaccharide (LPS) but not by cytokines such as TNF-§ , IFN-+ , IL-1 g or IL-4. In normal mice, mLARC mRNA was expressed selectively in intestinal tissues such as small intestine and colon. Upon treatment with LPS, mLARC expression was enhanced in intestinal tissues and induced in some lym-phoid tissues such as lymph nodes. Because of alternative splicing, there are two types of transcripts encoding mLARC and its variant mLARCvar with and without an N-terminal ala-nine in the mature protein, respectively. Both types of transcripts appeared to be expressed in various mouse tissues. In situ hybridization revealed that epithelial cells of intestinal tissues , especially those lining lymphoid follicles, expressed mLARC. Localization of LARC mRNA in epithelial cells was also demonstrated in a human appendix. Furthermore, mLARC was efficiently chemotactic for cells such as + ˇ type T cells in intestinal epithelium and naive B cells in Peyer's patches. Thus, in both humans and mice, LARC may be physiologically involved in formation and function of the mucosal lymphoid tissues by attracting lympho-cytes and dendritic cells toward epithelial cells.

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Molecular cloning of the complementary DNA and gene that encode mouse brain natriuretic peptide and generation of transgenic mice that overexpress the brain natriuretic peptide gene.

Ogawa¹,

Itoh²,

Tamura³

et al. 1994

J. Clin. Invest.

166

105

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Brain natriuretic peptide (BNP) is a cardiac hormone that occurs predominantly in the ventricle. To study the roles of BNP in chronic cardiovascular regulation, we isolated mouse BNP cDNA and genomic clones, and generated transgenic mice with elevated plasma BNP concentration. The mouse BNP gene was organized into three exons and two introns. Two BNP mRNA species were identified, which were generated by the alternative mRNA splicing. The ventricle was a major site of BNP production in mice. Mouse preproBNP was a 121-(or 120-) residue peptide, and its COOH-terminal 45-residue peptide was the major storage form in the heart. Transgenic mice carrying the human serum amyloid P component/mouse BNP fusion gene were generated so that the hormone expression is targeted to the liver. In the liver of these mice, considerable levels of BNP mRNA and peptide were detected, reaching up to 10-fold greater than in the ventricle. These animals showed 10-to 100-fold increase in plasma BNP concentration accompanied by elevated plasma cyclic GMP concentration, and had significantly lower blood pressure than their nontransgenic littermates. The present study demonstrates that these mice provide a useful model system with which to assess the roles of BNP in cardiovascular regulation and suggests the potential usefulness of BNP as a long-term therapeutic agent. (J. Clin. In west. 1994.

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Masahiro Uehira

Interleukin 7 Transgenic Mice Develop Chronic Colitis with Decreased Interleukin 7 Protein Accumulation in the Colonic Mucosa

Selective expression of liver and activation-regulated chemokine (LARC) in intestinal epithelium in mice and humans

Molecular cloning of the complementary DNA and gene that encode mouse brain natriuretic peptide and generation of transgenic mice that overexpress the brain natriuretic peptide gene.

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