An upstream regulatory region mediates high-level, tissue-specific expression of the human α1(I) collagen gene in transgenic mice

J. L. Slack, D. J. Liska, P. Bornstein

Research output: Contribution to journalArticle

56 Scopus citations

Abstract

Studies in vitro have not adequately resolved the role of intronic and upstream elements in regulating expression of the α1(I) collagen gene. To address this issue, we generated 12 separate lines of transgenic mice with α1(I) collagen-human growth hormone (hGH) constructs containing different amounts of 5'-flanking sequence, with or without most of the first intron. Transgenes driven by 2.3 kb of α1(I) 5'-flanking sequence, whether or not they contained the first intron, were expressed at a high level and in a tissue-specific manner in seven out of seven independent lines of transgenic mice. In most tissues, the transgene was expressed at levels approaching that of the endogenous α1(I) gene and was regulated identically with the endogenous gene as animals aged. However, in lung, expression of the transgene was anomalously high, and in muscle, expression was lower than that of the endogenous gene, suggesting that in these tissues other regions of the gene may participate in directing appropriate expression. Five lines of mice were generated containing transgenes driven by 0.44 kb of α1(I) 5'-flanking sequence (with or without the first intron), and expression was detected in four out of five of these lines. The level of expression of the 0.44-kb constructs in the major collagen-producing tissues was 15- to 500-fold lower than that observed with the longer 2.3-kb promoter. While transgenes containing the 0.44-kb promoter and the first intron retained a modest degree of tissue-specific expression, those without the first intron lacked tissue specificity and were poorly expressed in all tissues except lung. These results contribute to our understanding of the role of the first intron in regulating α1(I) gene expression and identify a region, upstream of the basal α1(I) promoter, which is necessary for full tissue-specific, developmentally regulated expression of the α1(I) collagen gene.

Original languageEnglish (US)
Pages (from-to)2066-2074
Number of pages9
JournalMolecular and cellular biology
Volume11
Issue number4
DOIs
StatePublished - Jan 1 1991

ASJC Scopus subject areas

  • Molecular Biology
  • Cell Biology

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