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ABSTRACT: Metallothioneins (MT) are a group of metal binding proteins thought to play a role in the detoxification of heavy metals. Here we showed by microarray and validation analyses that MT1h, a member of MT, is down-regulated in many human malignancies. Low expression of MT1h was associated with poor clinical outcomes in both prostate and liver cancer. We found that the promoter region of MT1h was hypermethylated in cancer and that demethylation of the MT1h promoter reversed the suppression of MT1h expression. Forced expression of MT1h induced cell growth arrest, suppressed colony formation, retarded migration, and reduced invasion. SCID mice with tumor xenografts with inducible MT1h expression had lower tumor volumes as well as fewer metastases and deaths than un-induced controls. MT1h was found to interact with euchromatin histone methyltransferase 1 (EHMT1) and enhanced its methyltransferase activity on Histone 3. Knocking down of EHMT1 or a mutation in MT1h that abrogates its interaction with EHMT1 abrogated MT1h tumor suppressor activity. This demonstrates tumor suppressor activity in a heavy metal binding protein that is dependent on activation of histone methylation.
The Journal of Pathology 01/2013; · 6.32 Impact Factor
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ABSTRACT: Mutation of integrin alpha7 (ITGA7) was previously identified in multiple human malignancies. Restoration of ITGA7 expression in prostate cancer and leiomyosarcoma cell lines suppressed tumor growth and cell motility both in vitro and in vivo. In this study, we showed that integrin-linked kinase (ILK) binds with miniature chromosome maintenance 7 (MCM7), a DNA replication licensing protein. A 58-amino acid ILK binding motif was identified in the NH(2)-terminus of MCM7. The expression of ITGA7 induced the phosphorylation of MCM7. Knocking down of ILK abrogated ITGA7-induced MCM7 phosphorylation. ANK, the dominant-negative mutant of ILK, also blocked the phosphorylation of MCM7 induced by ITGA7. The phosphorylation of MCM7 reduced MCM7 chromatin association and inhibited cell growth. A MCM7 mutant that does not bind with ILK did not respond to ITGA7 stimulation, and behaved similarly to a dominant MCM7-negative mutant and neutralized the effect of ITGA7. We conclude that ILK interaction with MCM7 and MCM7 phosphorylation may be a critical event in ITGA7 signaling pathway, leading to tumor suppression.
Cancer Research 06/2010; 70(11):4375-84. · 7.86 Impact Factor
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Histopathology 06/2009; 54(6):773-5. · 3.08 Impact Factor
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ABSTRACT: MCM7 is a critical component of the DNA replication licensing complex that controls DNA replication in both yeast and Xenopus. Our previous studies have indicated that MCM7 is both amplified and overexpressed in metastatic prostate cancer. In this study, we found that MCM7 interacts with the androgen receptor (AR) with high affinity both in vitro and in vivo. We identified the AR-binding motif for MCM7, comprised of amino acids 221 to 248, and the MCM7-binding motif for the AR, comprised of amino acids 426 to 475. AR stimulation with high doses of the synthetic androgen R1881 led to a decrease in MCM7 binding to genomic DNA, a reduction of DNA synthesis, decreases in the number of cells progressing through S phase and cell proliferation, whereas low doses produced an increase in the DNA licensing activity of MCM7 and higher levels of cell proliferation. In addition, the MCM7/AR interaction down-regulated MCM7 expression. The gene transcription or repressor activity of AR is dependent on its interaction with MCM7 because either a mutant AR defective in its interaction with MCM7 or a MCM7 knockdown primarily eliminated AR effects on gene expression. Thus, this study reveals a novel mechanism by which AR and MCM7 facilitate each other's function, suggesting that AR-independent activation of MCM7 may be a mechanism by which prostate cancers bypass therapeutically induced AR blockade.
American Journal Of Pathology 01/2009; 173(6):1758-67. · 4.89 Impact Factor
