1.Overexpression of Cell Cycle Progression Inhibitor Geminin is Associated with Tumor Stem-Like Phenotype of Triple-Negative Breast Cancer.
Maurizio DI BONITO ; Monica CANTILE ; Francesca COLLINA ; Giosue SCOGNAMIGLIO ; Margherita CERRONE ; Elvira LA MANTIA ; Antonio BARBATO ; Giuseppina LIGUORI ; Gerardo BOTTI
Journal of Breast Cancer 2012;15(2):162-171
PURPOSE: Triple-negative breast cancer, has a significant clinical relevance being associated with a shorter median time to relapse and death and does not respond to endocrine therapy or other available targeted agents. For this reason, identifying the molecular pathways associated with increased aggressiveness, for example the presence of stem cell populations within the tumor and alteration of genes associated with cell cycle regulation represents an important objective in the clinical research into this neoplasm. METHODS: To investigate the role of cell cycle progression inhibitor Geminin in triple-negative breast cancers and its potential correlation with stem-like phenotype of this neoplasm, we used tissue microarray technology to build a specific triple-negative breast cancer tissue micro-array. Geminin and cancer stem cell marker CD133 expression was further investigated at the mRNA level for selected breast tumor samples through realtime polymerase chain reaction quantification. RESULTS: Our results showed that CD133 expression was significantly associated to high Geminin expression (p=0.017), a strong association between Ki-67 and tumor grade (p=0.020) and an inverse association between Geminin expression and lymphonode metastases (p=0.058), and a trend of statistically significance between Geminin marker expression and survival of triple-negative breast cancer patients (p=0.076). CONCLUSION: The strong association between the expression of CD133 and Geminin could be useful in molecular stratification of breast tumors and in particular of triple-negative breast cancers.
Antigens, CD
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Breast
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Breast Neoplasms
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Cell Cycle
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Glycoproteins
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Humans
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Neoplasm Metastasis
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Neoplastic Stem Cells
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Peptides
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Phenotype
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Polymerase Chain Reaction
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Recurrence
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RNA, Messenger
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Stem Cells