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What's in an intron? CCN1 mRNA splicing in cancer.
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PMID:  19381874     Owner:  NLM     Status:  In-Data-Review    
Abstract/OtherAbstract:
The CCN family of matricellular signaling regulators shares a common domain structure. Variants of individual CCN proteins exist, which contain different combinations of these domains. Although mRNA splicing is likely to play a key role on CCN biology, this hypothesis has not been thoroughly tested. In a recent report, Hirschfeld and colleagues (Cancer Res 69:2082-90, 2009), show that CCN1 (cyr61) mRNA is normally present in a form in which intron 3 is retained. In cancers, or upon hypoxia, intron 3 is removed resulting in the appearance of CCN1 protein. The significance of this paper is discussed.
Authors:
Andrew Leask
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Publication Detail:
Type:  Journal Article     Date:  2009-04-21
Journal Detail:
Title:  Journal of cell communication and signaling     Volume:  3     ISSN:  1873-9601     ISO Abbreviation:  J Cell Commun Signal     Publication Date:  2009 Jun 
Date Detail:
Created Date:  2009-08-05     Completed Date:  -     Revised Date:  -    
Medline Journal Info:
Nlm Unique ID:  101308338     Medline TA:  J Cell Commun Signal     Country:  Netherlands    
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Languages:  eng     Pagination:  151-2     Citation Subset:  -    
Affiliation:
CIHR Group in Skeletal Development and Remodeling, Division of Oral Biology and Department of Physiology and Pharmacology, Schulich School of Medicine and Dentistry, University of Western Ontario, Dental Sciences Building, London, ON, Canada, N6A 5C1, Andrew.leask@schulich.uwo.ca.
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Journal ID (nlm-ta): J Cell Commun Signal
ISSN: 1873-9601
ISSN: 1873-961X
Publisher: Springer Netherlands, Dordrecht
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? The Author(s) 2009
Received Day: 23 Month: 3 Year: 2009
Accepted Day: 27 Month: 3 Year: 2009
Electronic publication date: Day: 21 Month: 4 Year: 2009
Print publication date: Month: 6 Year: 2009
Volume: 3 Issue: 2
First Page: 151 Last Page: 152
ID: 2721082
PubMed Id: 19381874
Publisher Id: 50
DOI: 10.1007/s12079-009-0050-x
issue-copyright-statement: ? The International CCN Society 2009

What?s in an intron? CCN1 mRNA splicing in cancer
Andrew LeaskAff1 Address: Andrew.leask@schulich.uwo.ca
CIHR Group in Skeletal Development and Remodeling, Division of Oral Biology and Department of Physiology and Pharmacology, Schulich School of Medicine and Dentistry, University of Western Ontario, Dental Sciences Building, London, ON Canada N6A 5C1

The CCN family of matricellular signaling modifiers are intimately involved with crucial biological processes, such as proliferation, differentiation, survival, adhesion and migration (Leask and Abraham 2006; Holbourn et al. 2008; Mason 2009). As such, CCN proteins are key contributors to process such as development, tissue remodeling, fibrosis and cancers. The CCN family of genes comprises six members which possess specific, non redundant functions despite their high degree of structural identity (Leask and Abraham 2006; Kennedy et al. 2007). The CCN proteins possess four distinct structural modules (IGFBP, VWC, TSP1, and CT) which resemble, respectively, Insulin-like Growth Factor Binding Proteins, the Von Willebrand factor, Thrombospondin 1, and growth factors that contain a cysteine knot motif [including platelet-derived (PDGF), nerve growth factor (NGF) and transforming growth factor-? ] (Bork 1993).

It has long been appreciated that individual CCN proteins are present not only as full-length proteins, but also as fragments containing various combinations of entire modules. For example, a fragment containing the heparin-binding CT domain of CCN2 was purified based on bioactivity from pig uterine flushings (Brigstock et al. 1997). Moreover, it has been shown that the amino-terminal fragment of CCN2 (containing only the IGFBP and VWC domains) is an effective surrogate biomarker for fibrosis (Leask et al. 2009). Furthermore, in the case of avian nephroblastoma, a CCN3 protein lacking the amino-proximal (IGFBP) domain is likely to exist (Joliot et al. 1992) and in cultured human tumor cells truncated CCN3 proteins lacking the two first domains have been identified (Kyurkchiev et al. 2004). Also, CCN3 proteins lacking the TSP1 domain are developmentally regulated in human kidney (Subramaniam et al. 2008). In addition, a variant CCN4 (wisp1) protein, lacking the VWC module, has been identified in scirrhous gastric carcinomas (Tanaka et al. 2005).

The different versions of CCN proteins are likely to arise due to differential mRNA splicing. Although the group of B. Perbal (Martinerie et al. 1997) detected two different mRNA phenotypes of human CCN1 (Cyr61) in a Northern blot analysis of tumor cells from the nervous system, and concluded that alternative splicing might play a key role in cancer, this hypothesis was never further investigated.

CCN1 (Cyr61) is overexpressed in tumors, and promotes angiogenesis via integrin signaling (Lau and Lam 1999). Hypoxia is known to induce the transcriptional activation of pathways involved in angiogenesis, growth factor signaling, and tissue invasion and is therefore a potential key regulator of tumor growth, and hypoxia induces CCN1 mRNA expression, through a HIF response element in the CCN1 promoter (Lin et al. 2008). In a recent report, Hirschfeld et al. (2009) carefully analyzed the expression pattern of human CCN1 in breast cancer cell lines and tissue samples. Surprisingly, they found that breast carcinogenesis was accompanied by a shift in a CCN1 mRNA which retained intron 3 toward a CCN1 mRNA which correctly lacked intron 3. Hypoxia also resulted in the correct splicing of CCN1 mRNA. Moreover, analyses of matched pairs of invasive breast cancers and corresponding non-cancerous tissue revealed a very strong induction of the correctly spliced CCN1 transcript in invasive breast cancers. An antibody recognizing the hinge portion of the CCN1 molecule, located between the VWC and TSP1, was used to recognize CCN1, CCN1 was not detected in samples possessing the intron3-containing mRNA; indeed, the loss of intron3 correlated with the appearance of CCN1 protein.

Whether the retention of intron 3 resulted in any CCN1 protein at all was not assessed; it is possible that the incompletely spliced transcript may result in no CCN1 protein, or perhaps a severely truncated protein. Nonetheless, these data suggest that domain-specific CCN antibodies may represent unique tools for cancer prognosis (Lazar et al. 2007) but also imply that different fragments of CCN proteins may have different functions. Moreover, individual CCN modules interact with members of the TGF? family, fibronectin, integrins and heparan sulfate containing proteoglycans (Leask and Abraham 2006). Thus the different isoforms of individual CCN proteins may possess different biological functions based on the modules they contain. As an example, mice deleted for entire CCN genes may have different phenotypes than mice deleted for individual modules (Heath et al. 2008; Perbal 2007; Leask 2007). Indeed, full length and variant CCN proteins might functionally compete and antagonize in normal and pathological conditions. These considerations are important for considering the overall in vivo effect of CCN proteins at particular junctures of development, homeostasis and pathologies.


Open Access This article is distributed under the terms of the Creative Commons Attribution Noncommercial License which permits any noncommercial use, distribution, and reproduction in any medium, provided the original author(s) and source are credited.


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Keywords: Keywords CCN1, Cyr61, mRNA splicing, Intron.

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