Uyen Tran scite author profile

INhibitor of Growth 1 (ING1) expression is repressed in breast carcinomas, but its role in breast cancer development and metastasis is unknown. ING1 levels were quantified in >500 patient samples using automated quantitative fluorescence immunohistochemistry, and data were analysed for correlations to patient outcome. Effects of altering ING levels were examined in microarrays and metastasis assays in vitro, and in a mouse metastasis model in vivo. ING1 levels were lower in tumors compared to adjacent normal breast tissue and correlated with tumor size (p=0.019) and distant recurrence (p=0.001) in ER- or Her2+ patients. In these patients ING1 predicted disease-specific and distant metastasis-free survival. Transcriptome analysis showed that the pathway most affected by ING1 was breast cancer (p = 0.0008). Decreasing levels of ING1 increased, and increasing levels decreased, migration and invasion of MDA-MB231 cells in vitro. ING1 overexpression also blocked cancer cell metastasis in vivo and eliminated tumor-induced mortality in mouse models. Our data show that ING1 protein levels are downregulated in breast cancer and for the first time, we show that altering their levels regulates metastasis in vitro and in vivo, which indicates that ING1 may have a therapeutic role for inhibiting metastasis of breast cancer.

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ING1b-inducible microRNA203 inhibits cell proliferation

Chen

Tran

Rajarajacholan

et al. 2013

Br J Cancer

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Background:The ING family of type II tumour suppressors serve as both epigenetic ‘readers' and target histone acetyl transferase (HAT) and histone deacetylase (HDAC) ‘writers' of the epigenetic histone code. The ING1 protein has also been implicated in regulating microRNA (miRNA) levels. In this study, we identify a link between ING1b and the miRNA epigenetic network.Methods:Primary fibroblasts infected with adenoviruses expressing GFP control or GFP plus ING1b were examined for alterations in miRNA profiles using a miRNA PCR array. Additional experiments confirmed specificity and consequences of altered miRNA expression.Results:MicroRNAs miR-203, miR-375, miR-449b and miR-200c were increased by ING1b overexpression. Ectopic expression of miR-203 inhibited U2OS and MDA-MB-231 cancer cell growth, and induced G1 cell cycle arrest in U2OS cells as estimated by flow cytometry. Transfection with miR-203 inhibitor reversed the proliferation inhibition induced by ING1b in U2OS cells. CHIP assays showed that ING1b bound to the promoter of miR-203. Western blot analyses showed that CDK6, c-Abl and Src were downregulated by the transfection of miR-203.Conclusion:These results indicate that ING1b epigenetically regulates several miRNAs including miR-203. The several-fold increase in miR-203 by ING1b might inhibit cancer cell proliferation through coordinate downregulation of CDK6, c-Abl and Src.

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Function of the ING Proteins in Cancer and Senescence

Tran

Rajarajacholan

Riabowol

2013

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Age is one of the strongest correlates to the incidence of cancers known, suggesting that the two processes are linked. Cell aging (senescence) is increasingly being linked to epigenetic pathways, many of which have recently been found to be markedly altered in precancerous and cancer cells. Thus, misregulation of epigenetic pathways may impact both cancer and aging by infl uencing genetic and biochemical pathways common to both processes. Similar to the p53 and retinoblastoma (Rb) tumor suppressors that affect chromatin structure by genetic and epigenetic mechanisms, the IN hibitor of G rowth (ING) type II tumour suppressors affect pathways that contribute to cell aging and cancer. In particular, the INGs have been demonstrated to act as readers of the histone code by virtue of interacting specifi cally with the histone H3 residue H3K4Me3 and as targeting subunits of the writers of the histone code by being stoichiometric members of histone acetyltransferase (HAT) and histone deacetylase (HDAC) complexes. The ING proteins are frequently

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Uyen Tran

Reduced ING1 levels in breast cancer promotes metastasis

ING1b-inducible microRNA203 inhibits cell proliferation

Function of the ING Proteins in Cancer and Senescence

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