Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0006142 (
breast cancer
)
160,383
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In this study we examined the ability of interferon-gamma (IFN-gamma) to regulate mammary epithelial cell growth and gene expression, with particular emphasis on two genes: Maspin (a member of serine protease inhibitor superfamily), and the lysosomal
aspartyl endopeptidase
cathepsin D (CatD). The protein products of these genes are critically involved in regulation of multitude of biological functions in different stages of mammary tissue development and remodeling. In addition, the expression of Maspin is down-regulated in primary
breast cancer
and is lost in metastatic disease, while CatD is excessively produced and aberrantly secreted by
breast cancer
cells. We report that IFN-gamma receptors are expressed in mammary epithelial cells, and receptor engagement by IFN-gamma transduces the IFN-gamma signal via Stat-1 resulting in decreased vacuolar pH. This change in vacuolar pH alters CatD protein processing and secretion concurrent with increased Maspin secretion. In addition, IFN-gamma exerts a suppressive effect on cell growth and proliferation, and induces morphological changes in mammary epithelial cells. Our studies also reveal that
breast cancer
cells, which are devoid of Maspin, are refractory to IFN-gamma with respect to changes in vacuolar pH and CatD. However, Maspin transfection of
breast cancer
cells partially sensitizes the cells to IFN-gamma's effect, thus providing new therapeutic implications.
...
PMID:IFN-gamma regulation of vacuolar pH, cathepsin D processing and autophagy in mammary epithelial cells. 1849 1
The post-lactational regression of mammary gland is a complex multi-step process designed to conserve the biological function of the gland for next pregnancy. This developmental stage is a biological intrigue with great relevance to
breast cancer
research, and thus has been the subject of intensive scrutiny. Multipronged studies (microarray, proteomics profiling, animal knock-out models) have provided a repertoire of genes critical to involution. However, the caveat of these approaches remains in their failure to reveal post-translational modification(s), an emerging and critical aspect of gene regulation in developmental processes and mammary gland remodeling. The massive surge in the lysosomal enzymes concurrent with the onset of involution has been known for decades, and considered essential for "clearance" purposes. However, functional significance of these enzymes in diverse biological processes distinct from their proteolytic activity is just emerging. Studies from our laboratory had indicated specific post-translational modifications of the
aspartyl endopeptidase
Cathepsin D (CatD) at distinct stages mammary gland development. This study addresses the biological significance of these modifications in the involution process, and reveals that post-translational modifications drive CatD into the nucleus to cleave Histone 3. The cleavage of Histone 3 has been associated with cellular differentiation and could be critical instigator of involution process. From functional perspective, deregulated expression and increased secretion of CatD are associated with aggressive and metastatic phenotype of
breast cancer
. Thus unraveling CatD's physiological functions in mammary gland development will bridge the present gap in understanding its pro-tumorigenic/metastatic functions, and assist in the generation of tailored therapeutic approaches.
...
PMID:Cleavage of Histone 3 by Cathepsin D in the involuting mammary gland. 2505 4
