Zhenqui Liu scite author profile

Zhenqui Liu

5Publications

98Citation Statements Received

81Citation Statements Given

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Affiliations

University of Maryland, Baltimore, University of Mary

Publications

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Identification of Transformation-Related Pathways in a Breast Epithelial Cell Model Using a Ribonomics Approach

Mazan-Mamczarz

Hagner

Dai

et al. 2008

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The aberrant expression of many genes is a common feature in the malignant transformation of cells. In mammalian cells, posttranscriptional gene regulatory processes are emerging as critical determinants controlling gene expression both in physiologic and pathologic conditions. These regulatory mechanisms are directed primarily by the interaction of mRNAs with specific RNA-binding proteins (RBP). There is an emerging body of data demonstrating that two RBPs, AUF1 and HuR, can antagonistically affect the posttranscriptional fate of target mRNAs, as well as concurrently bind to common target transcripts. Employing MCT-1 oncogene-mediated transformation of immortalized breast epithelial MCF10A cells, we characterized the largely reciprocal association of these two RBPs with target mRNAs and their influence on protein expression vis-a-vis cellular transformation. Using a ribonomics approach, we identified mRNAs from cancerrelated pathways whose association with AUF1 and/or HuR were altered when comparing immortalized with transformed MCF10A cells. Significantly, we were able to show that knockdown of HuR expression using RNA interference reduced anchorage-independent growth capacity in transformed MCF10A cells and decreased protein expression of a number of validated target genes. Our data show that the global alterations in binding of HuR and AUF1 with target transcripts have a critical role in posttranscriptional regulation of genes encoding proteins involved in breast epithelial cell transformation. These findings further support the feasibility of using a ribonomics approach for the identification of cancer-related pathways.

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ATM regulates a DNA damage response posttranscriptional RNA operon in lymphocytes

Mazan-Mamczarz

Hagner

Zhang

et al. 2011

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Maintenance of genomic stability depends on the DNA damage response, a biologic barrier in early stages of cancer development. Failure of this response results in genomic instability and high predisposition toward lymphoma, as seen in patients with ataxia-telangiectasia mutated (ATM) dysfunction. ATM activates multiple cell-cycle checkpoints and DNA repair after DNA damage, but its influence on posttranscriptional gene expression has not been examined on a global level. We show that ionizing radiation modulates the dynamic association of the RNA-binding protein HuR with target mRNAs in an ATM-dependent manner, potentially coordinating the genotoxic response as an RNA operon. Pharmacologic ATM inhibition and use of ATM-null cells revealed a critical role for ATM in this process. Numerous mRNAs encoding cancer-related proteins were differentially associated with HuR depending on the functional state of ATM, in turn affecting expression of encoded proteins. The findings presented here reveal a previously unidentified role of ATM in controlling gene expression posttranscriptionally. Dysregulation of this DNA damage response RNA operon is probably relevant to lymphoma development in ataxia-telangiectasia persons. These novel RNA regulatory modules and genetic networks provide critical insight into the function of ATM in oncogenesis.

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Targeted suppression of MCT-1 attenuates the malignant phenotype through a translational mechanism

et al. 2009

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Supplementary Figure Legends 1-2, Tables1-3 from Identification of Transformation-Related Pathways in a Breast Epithelial Cell Model Using a Ribonomics Approach

Mazan-Mamczarz¹,

Hagner²,

Dai³

et al. 2023

Preprint

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Supplementary Figures 1-2 from Identification of Transformation-Related Pathways in a Breast Epithelial Cell Model Using a Ribonomics Approach

Mazan-Mamczarz¹,

Hagner²,

Dai³

et al. 2023

Preprint

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Zhenqui Liu

Identification of Transformation-Related Pathways in a Breast Epithelial Cell Model Using a Ribonomics Approach

ATM regulates a DNA damage response posttranscriptional RNA operon in lymphocytes

Targeted suppression of MCT-1 attenuates the malignant phenotype through a translational mechanism

Supplementary Figure Legends 1-2, Tables1-3 from Identification of Transformation-Related Pathways in a Breast Epithelial Cell Model Using a Ribonomics Approach

Supplementary Figures 1-2 from Identification of Transformation-Related Pathways in a Breast Epithelial Cell Model Using a Ribonomics Approach

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