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Full-Text Articles in Translational Medical Research
Cyclin D1-Mediated Microrna Expression Signature Predicts Breast Cancer Outcome, Guangxue Wang, Michael Gormley, Jing Qiao, Qian Zhao, Min Wang, Gabriele Disante, Shengqiong Deng, Lin Dong, Timothy G. Pestell, Xiaoming Ju, Mathew C. Casimiro, Sankar Addya, Adam Ertel, Ayden Tozeren, Qinchuan Li, Zuoren Yu, Richard G. Pestell
Cyclin D1-Mediated Microrna Expression Signature Predicts Breast Cancer Outcome, Guangxue Wang, Michael Gormley, Jing Qiao, Qian Zhao, Min Wang, Gabriele Disante, Shengqiong Deng, Lin Dong, Timothy G. Pestell, Xiaoming Ju, Mathew C. Casimiro, Sankar Addya, Adam Ertel, Ayden Tozeren, Qinchuan Li, Zuoren Yu, Richard G. Pestell
Department of Cancer Biology Faculty Papers
Background: Genetic classification of breast cancer based on the coding mRNA suggests the evolution of distinct subtypes. Whether the non-coding genome is altered concordantly with the coding genome and the mechanism by which the cell cycle directly controls the non-coding genome is poorly understood.
Methods: Herein, the miRNA signature maintained by endogenous cyclin D1 in human breast cancer cells was defined. In order to determine the clinical significance of the cyclin D1-mediated miRNA signature, we defined a miRNA expression superset from 459 breast cancer samples. We compared the coding and non-coding genome of breast cancer subtypes.
Results: Hierarchical clustering of …
Small Rna Zippers Lock Mirna Molecules And Block Mirna Function In Mammalian Cells., Lingyu Meng, Cuicui Liu, Jinhui Lü, Qian Zhao, Shengqiong Deng, Guangxue Wang, Jing Qiao, Chuyi Zhang, Lixiao Zhen, Ying Lu, Wenshu Li, Yuzhen Zhang, Richard G. Pestell, Huiming Fan, Yi-Han Chen, Zhongmin Liu, Zuoren Yu
Small Rna Zippers Lock Mirna Molecules And Block Mirna Function In Mammalian Cells., Lingyu Meng, Cuicui Liu, Jinhui Lü, Qian Zhao, Shengqiong Deng, Guangxue Wang, Jing Qiao, Chuyi Zhang, Lixiao Zhen, Ying Lu, Wenshu Li, Yuzhen Zhang, Richard G. Pestell, Huiming Fan, Yi-Han Chen, Zhongmin Liu, Zuoren Yu
Department of Cancer Biology Faculty Papers
MicroRNAs (miRNAs) loss-of-function phenotypes are mainly induced by chemically modified antisense oligonucleotides. Here we develop an alternative inhibitor for miRNAs, termed 'small RNA zipper'. It is designed to connect miRNA molecules end to end, forming a DNA-RNA duplex through a complementary interaction with high affinity, high specificity and high stability. Two miRNAs, miR-221 and miR-17, are tested in human breast cancer cell lines, demonstrating the 70∼90% knockdown of miRNA levels by 30-50 nM small RNA zippers. The miR-221 zipper shows capability in rescuing the expression of target genes of miR-221 and reversing the oncogenic function of miR-221 in breast cancer …