Xiaole S. Liu scite author profile

SummaryReversible phase variation between the rugose and smooth colony variants is predicted to be important for the survival of Vibrio cholerae in natural aquatic habitats. Microarray expression profiling studies of the rugose and smooth variants of the same strain led to the identification of 124 differentially regulated genes. Further expression profiling experiments showed how these genes are regulated by the VpsR and HapR transcription factors, which, respectively, positively and negatively regulate production of VPS El Tor , a rugose-associated extracellular polysaccharide. The study of mutants of rpoN and rpoS demonstrated the effects of these alternative sigma factors on phase variation-specific gene expression. Bioinformatics analysis of these expression data shows that 'rugosity' and 'smoothness' are determined by a complex hierarchy of positive and negative regulators, which also affect the biofilm, surface hydrophobicity and motility phenotypes of the organism.

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The common oncogenomic program of NOTCH1 and NOTCH3 signaling in T-cell acute lymphoblastic leukemia

Choi

Severson

Pear

et al. 2017

PLoS ONE

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Notch is a major oncogenic driver in T cell acute lymphoblastic leukemia (T-ALL), in part because it binds to an enhancer that increases expression of MYC. Here, we exploit the capacity of activated NOTCH1 and NOTCH3 to induce T-ALL, despite substantial divergence in their intracellular regions, as a means to elucidate a broad, common Notch-dependent oncogenomic program through systematic comparison of the transcriptomes and Notch-bound genomic regulatory elements of NOTCH1- and NOTCH3-dependent T-ALL cells. ChIP-seq studies show a high concordance of functional NOTCH1 and NOTCH3 genomic binding sites that are enriched in binding motifs for RBPJ, the transcription factor that recruits activated Notch to DNA. The interchangeability of NOTCH1 and NOTCH3 was confirmed by rescue of NOTCH1-dependent T-ALL cells with activated NOTCH3 and vice versa. Despite remarkable overall similarity, there are nuanced differences in chromatin landscapes near critical common Notch target genes, most notably at a Notch-dependent enhancer that regulates MYC, which correlates with responsiveness to Notch pathway inhibitors. Overall, a common oncogenomic program driven by binding of either Notch is sufficient to maintain T-ALL cell growth, whereas cell-context specific differences appear to influence the response of T-ALL cells to Notch inhibition.

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Nkx3-1 and LEF-1 Function as Transcriptional Inhibitors of Estrogen Receptor Activity

Holmes

Song

Liu

et al. 2008

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Estrogen receptor (ER)-associated cofactors and cooperating transcription factors are one of the primary components determining transcriptional activity of estrogen target genes and may constitute potential therapeutic targets. Recent mapping of ER-binding sites on a genome-wide scale has provided insight into novel cooperating factors based on the enrichment of transcription factor motifs within the ERbinding sites. We have used the ER-binding sites in combination with sequence conservation to identify the statistical enrichment of Nkx and LEF motifs. We find that Nkx3-1 and LEF-1 bind to several ER cis-regulatory elements in vivo, but they both function as transcriptional repressors of estrogen signaling. We show that Nkx3-1 and LEF-1 can inhibit ER binding to chromatin, suggesting competition for common chromatin-binding regions. These data provide insight into the role of Nkx3-1 and LEF-1 as potential regulators of the hormone response in breast cancer. [Cancer Res 2008;68(18):7380-5]

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Abstract 3300: MYC regulation of a “poor prognosis” metastatic cancer cell state

Wolfer

Wittner

Irimia

et al. 2010

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Gene expression signatures are used clinically as prognostic tools to determine the risk of individual patients with localized breast tumors developing distant metastasis. However, we lack a clear understanding of whether these correlative biomarkers link to a common biological network that regulates metastasis. METHODS: In order to address this question, we analyzed thirteen different well-described (including two in clinical use) “poor outcome” cancer signatures in a cell line model of estrogen receptor positive breast cancer (MCF7) manipulated by diverse oncogenic stimuli. RESULTS: We find that the c-MYC oncoprotein coordinately regulates the expression of these thirteen different “poor outcome” cancer signatures. In addition, functional inactivation of MYC in human breast cancer cells specifically inhibits their distant metastasis in vivo and invasive behavior in vitro. CONCLUSION: These results suggest that MYC oncogene activity, as reflected by “poor prognosis” signature expression, may be necessary for the translocation of “poor outcome” human breast tumors to distant sites. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 101st Annual Meeting of the American Association for Cancer Research; 2010 Apr 17-21; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2010;70(8 Suppl):Abstract nr 3300.

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Xiaole S. Liu

Molecular analysis of rugosity in a Vibrio cholerae O1 El Tor phase variant

The common oncogenomic program of NOTCH1 and NOTCH3 signaling in T-cell acute lymphoblastic leukemia

Nkx3-1 and LEF-1 Function as Transcriptional Inhibitors of Estrogen Receptor Activity

Abstract 3300: MYC regulation of a “poor prognosis” metastatic cancer cell state

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