Alternative exon usage creates novel transcript variants of tumor suppressor SHREW-1 gene with differential tissue expression profile

Shrew-1, also called AJAP1, is a transmembrane protein associated with E-cadherin-mediated adherence junctions and a putative tumor suppressor. Apart from its interaction with β-catenin and involvement in E-cadherin internalization, little structure or function information exists. Here we explored s...

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Bibliographic Details
Published in:Biology open 2016-11, Vol.5 (11), p.1607-1619
Main Authors: Klemmt, Petra A B, Resch, Eduard, Smyrek, Isabell, Engels, Knut, Stelzer, Ernst H K, Starzinski-Powitz, Anna
Format: Article
Language:English
Subjects:
Adherence junctions
AJAP1
Antibodies
E-cadherin
Gene expression
Human tissues
Internalization
Lactation
Localization
Mammary gland
Mammary glands
Proteins
Splice variants
Structure-function relationships
Tumor suppressor genes
Tumor suppressor protein
Tumors
β-Catenin
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Summary:Shrew-1, also called AJAP1, is a transmembrane protein associated with E-cadherin-mediated adherence junctions and a putative tumor suppressor. Apart from its interaction with β-catenin and involvement in E-cadherin internalization, little structure or function information exists. Here we explored shrew-1 expression during postnatal differentiation of mammary gland as a model system. Immunohistological analyses with antibodies against either the extracellular or the cytoplasmic domains of shrew-1 consistently revealed the expression of full-length shrew-1 in myoepithelial cells, but only part of it in luminal cells. While shrew-1 localization remained unaltered in myoepithelial cells, nuclear localization occurred in luminal cells during lactation. Based on these observations, we identified two unknown shrew-1 transcript variants encoding N-terminally truncated proteins. The smallest shrew-1 protein lacks the extracellular domain and is most likely the only variant present in luminal cells. RNA analyses of human tissues confirmed that the novel transcript variants of shrew-1 exist in vivo and exhibit a differential tissue expression profile. We conclude that our findings are essential for the understanding and interpretation of future functional and interactome analyses of shrew-1 variants.
ISSN:2046-6390
2046-6390
DOI:10.1242/bio.019463