Protection against cellular stress by 25-hydroxyvitamin D3 in breast epithelial cells

Protection against cellular stress by 25-hydroxyvitamin D3 in breast epithelial cells

25‐Hydroxyvitamin D3 (25(OH)D3) is a prohormone and a major vitamin D metabolite. The discovery of (25(OH)D3) 1α‐hydroxylase in many vitamin D target organs has yielded an increased interest in defining the role(s) of 25(OH)D3 in these tissues. The etiology of cancer appears to be complex and multi‐...

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Published in:Journal of cellular biochemistry Vol. 110; no. 6; pp. 1324 - 1333
Main Authors: Peng, Xinjian, Vaishnav, Avani, Murillo, Genoveva, Alimirah, Fatouma, Torres, Karen E.O., Mehta, Rajendra G.
Format: Journal Article
Language:English
Published: Hoboken Wiley Subscription Services, Inc., A Wiley Company 15-08-2010
Subjects:
25(OH)D3
Apoptosis - drug effects
Blotting, Western
Breast - cytology
Breast - metabolism
breast epithelial cells
Calcifediol - pharmacology
Cell Hypoxia
Cell Line
Cell Line, Tumor
cellular stress
Culture Media - chemistry
Culture Media - pharmacology
Culture Media, Serum-Free - pharmacology
Cysteine Proteinase Inhibitors - pharmacology
Dose-Response Relationship, Drug
Epithelial Cells - cytology
Epithelial Cells - drug effects
Epithelial Cells - metabolism
Female
Humans
Hydrogen Peroxide - pharmacology
Leupeptins - pharmacology
MicroRNAs - genetics
MicroRNAs - metabolism
Oligonucleotide Array Sequence Analysis
Oxidants - pharmacology
Oxidative Stress - drug effects
Proliferating Cell Nuclear Antigen - metabolism
Reverse Transcriptase Polymerase Chain Reaction
Tumor Suppressor Protein p53 - metabolism
Vitamins - pharmacology
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Summary:25‐Hydroxyvitamin D3 (25(OH)D3) is a prohormone and a major vitamin D metabolite. The discovery of (25(OH)D3) 1α‐hydroxylase in many vitamin D target organs has yielded an increased interest in defining the role(s) of 25(OH)D3 in these tissues. The etiology of cancer appears to be complex and multi‐factorial. Cellular stress (e.g., DNA damage, hypoxia, oncogene activation) has been identified as one of the key factors responsible for initiating the carcinogenesis process. In this study, we investigated whether 25(OH)D3 protects breast epithelial cells from cellular stress using an established breast epithelial cell line MCF12F. To better elucidate the role of 25(OH)D3 in the stress response, we used multiple in vitro stress models including serum starvation, hypoxia, oxidative stress, and apoptosis induction. Under all these stress conditions, 25(OH)D3 (250 nmol/L) treatment significantly protected cells against cell death. Low‐serum stress induced p53 expression accompanied with downregulation of PCNA, the presence of 25(OH)D3 consistently inhibited the alteration of p53 and PCNA, suggesting that these molecules were involved in the stress process and may be potential target genes of 25(OH)D3. miRNA microarray analysis demonstrated that stress induced by serum starvation caused significant alteration in the expression of multiple miRNAs including miR182, but the presence of 25(OH)D3 effectively reversed this alteration. These data suggest that there is a significant protective role for 25(OH)D3 against cellular stress in the breast epithelial cells and these effects may be mediated by altered miRNA expression. J. Cell. Biochem. 110: 1324–1333, 2010. © 2010 Wiley‐Liss, Inc.
Bibliography:NIH grants - No. CA121365; No. CA82316; No. CA12157
ArticleID:JCB22646
ark:/67375/WNG-ZKLFP284-V
istex:AB003AD7BC5995DDA03A40A41256BC580EACF5A7
ISSN:0730-2312
1097-4644
DOI:10.1002/jcb.22646