Caleb M. Bailey scite author profile

Maspin (Mammary Serine Protease Inhibitor) was first reported in 1994 as a serpin with tumor suppressive properties. Maspin was initially isolated through subtractive hybridization and differential display analysis as a 42-kDa protein that is expressed in normal mammary epithelial cells but reduced or absent in breast carcinomas (Zou et al., 1994). Further research led to maspin's characterization as a class II tumor suppressor based on its ability to inhibit cell invasion, promote apoptosis, and inhibit angiogenesis (Sheng et al., 1996; Zhang et al., 2000b; Jiang et al., 2002). Since then, efforts have been made to characterize maspin's tumor suppressive mechanisms. In particular, researchers have studied maspin localization, the regulation of maspin expression, and more recently, maspin protein interactions. By elucidating these mechanisms, researchers are beginning to understand the complex, pleiotropic nature of maspin and the pathways through which maspin exerts its tumor suppressive properties. These new findings not only further enhance our understanding of cancer biology but also provide an avenue to develop maspin's potential as a diagnostic marker for cancer progression, and as a potentially powerful therapeutic agent in the fight against breast cancer.

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Mammary Serine Protease Inhibitor (Maspin) Binds Directly to Interferon Regulatory Factor 6

Bailey

Khalkhali‐Ellis

Kondo

et al. 2005

Journal of Biological Chemistry

136

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Since its reported discovery in 1994, maspin (mammary serine protease inhibitor) has been characterized as a class II tumor suppressor by its ability to promote apoptosis and inhibit cell invasion. Maspin is highly expressed in normal mammary epithelial cells but reduced or absent in aggressive breast carcinomas. However, despite efforts to characterize the mechanism(s) by which maspin functions as a tumor suppressor, its molecular characterization has remained somewhat elusive. Therefore, in an attempt to identify maspin-interacting proteins and thereby gain insight into the functional pathways of maspin, we employed a maspin-baited yeast twohybrid system and subsequently identified Interferon Regulatory Factor 6 (IRF6) as a maspin-binding protein. IRF6 belongs to the IRF family of transcription factors, which is best known for its regulation of interferon and interferon-inducible genes following a pathogenic stimulus. Although many of the IRF family members have been well characterized, IRF6 remains poorly understood. We report that IRF6 is expressed in normal mammary epithelial cells and that it directly associates with maspin in a yeast two-hybrid system and in vitro. The interaction occurs via the conserved IRF protein association domain and is regulated by phosphorylation of IRF6. We have shown that, similar to maspin, IRF6 expression is inversely correlated with breast cancer invasiveness. We further demonstrated that the transient re-expression of IRF6 in breast cancer cells results in an increase of N-cadherin and a redistribution of vimentin commensurate with changes in cell morphology, suggestive of an epithelial-to-mesenchymal transition event. Concomitantly, we showed that maspin acts as a negative regulator of this process. These findings help to elucidate the molecular mechanisms of maspin and suggest an interactive role between maspin and IRF6 in regulating cellular phenotype, the loss of which can lead to neoplastic transformation. Maspin2 (mammary serine protease inhibitor, SerpinB5) was first isolated by subtractive hybridization and differential display as a protein that is expressed in normal mammary epithelial cells but reduced or absent in breast carcinomas (1). Since its initial discovery, maspin has been shown to inhibit tumor invasion and metastasis in breast cancer cells (2). Further studies implicate maspin as an angiogenesis inhibitor by its ability to block neovascularization and reduce tumor-associated microvessels and also demonstrate a role for maspin in the induction of apoptosis of tumor cells (3-4). In addition, the overexpression of maspin in transgenic mice disrupts normal mammary gland development by increasing apoptosis and disrupting cell differentiation (5). Despite the characterization of maspin as a tumor suppressor, the molecular mechanisms underlying maspin function are complex and remain predominantly unknown. Therefore, in an effort to decipher the molecular mechanisms of maspin, we employed a yeast two-hybrid system, in which we expressed full-length maspin as bai...

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Caleb M. Bailey

Biological functions of maspin

Mammary Serine Protease Inhibitor (Maspin) Binds Directly to Interferon Regulatory Factor 6

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