Abstract
ABSTRACTThe fibrillar collagen scaffold of the extracellular matrix provides a structural framework for cells in tissues and regulates intercellular communication; its disregulation has been associated with tumour development and progression. Previous work has shown that expression of type I collagen, the most abundant mammalian extracellular matrix protein, is decreased in chemically or virally transformed cells. This negative regulation could be mapped to a proximal COL1A2 promoter element spanning a CME (Collagen Modulating Element) site in SV40‐transformed human fibroblasts (SV‐WI38) that binds an unknown repressing protein. By magnetic bead pull‐down, we observed a multi‐protein complex bound to the CME with preference for single‐stranded over conventional double‐stranded DNA. MALDI‐TOF mass spectrometry of the CME‐binding protein complex revealed involvement of nuclear annexin A2 (AnxA2) which was increased in SV40‐transformed cells. Further EMSA analysis demonstrated that AnxA2 did not directly bind to the DNA but stabilised the complex and led to an increase in protein binding to the CME in SV‐WI38 but not untransformed WI38 cells. Knockdown of AnxA2 by siRNA increased type I collagen production in both WI38 and SV‐WI38 cells; however, these effects were not mediated at the transcriptional level. Rather, our data indicate a novel functional role of AnxA2 in the negative post‐transcriptional regulation of type I collagen synthesis in human fibroblasts. In SV40‐transformed cells, AnxA2 is accumulated at the proximal COL1A2 promoter region, suggesting close association with the transcriptional machinery that possibly facilitates binding to the emerging mRNA, eventually contributing to overall repression of type I collagen protein synthesis. J. Cell. Biochem. 116: 408–417, 2015. © 2014 The Authors. Journal of Cellular Biochemistry published by Wiley Periodicals, Inc.
Highlights
Type I collagen is the most abundant mammalian extracellular matrix protein and consists of a heterotrimer of two a1(1) and one a2(1) chains
Previous work from our laboratory has led to the identification of two elements in Abbreviations: Annexin A2 (AnxA2), annexin A2; Collagen Modulating Element (CME), collagen modulating element; Co-IP, coimmunoprecipitation; COL1A2, a2(1) collagen chain; ELECTROPHORETIC MOBILITY SHIFT ASSAY (EMSA), electrophoretic mobility shift assay; SV40 T Ag, SV40 large T antigen; SV-WI38, SV40 transformed WI38 cells; tris phosphine hydrochloride. Disclosure (TCEP), tris (2-carboxylethyl) phosphine hydrochloride
DIFFERENTIAL NUCLEAR PROTEIN BINDING TO THE CME AT THE PROXIMAL COL1A2 PROMOTER While human embryonic lung WI38 fibroblasts produce normal levels of type I collagen, SV-WI38 show a marked reduction in COL1A2 gene expression [Parker et al, 1989]
Summary
Type I collagen is the most abundant mammalian extracellular matrix protein and consists of a heterotrimer of two a1(1) and one a2(1) chains. It is hypothesised that the CME in the COL1A2 promoter has a context- and species-specific regulatory function as this element is only present in the human promoter [Collins et al, 1997; Leaner et al, 2005]. This is supported by the observation that in the COL1A2 expressing human lung fibroblast cell line WI38, a transcriptional activator binds to the CME and probably functions cooperatively with the adjacent CBE binding factors in the regulation of the COL1A2 gene [Collins et al, 1997]. We describe a novel functional role of AnxA2 in the post-transcriptional regulation of human type I collagen expression contributing to its decrease upon malignant transformation
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