Shih‐Feng Tsai scite author profile

The early onset breast cancer patients (age ≤ 40) often display higher incidence of axillary lymph node metastasis, and poorer five-year survival than the late-onset patients. To identify the genes and molecules associated with poor prognosis of early onset breast cancer, we examined gene expression profiles from paired breast normal/tumor tissues, and coupled with Gene Ontology and public data base analysis. Our data showed that the expression of GAS7b gene was lower in the early onset breast cancer patients as compared to the elder patients. We found that GAS7 was associated with CYFIP1 and WAVE2 complex to suppress breast cancer metastasis via blocking CYFIP1 and Rac1 protein interaction, actin polymerization, and β1-integrin/FAK/Src signaling. We further demonstrated that p53 directly regulated GAS7 gene expression, which was inversely correlated with p53 mutations in breast cancer specimens. Our study uncover a novel regulatory mechanism of p53 in early onset breast cancer progression through GAS7–CYFIP1-mediated signaling pathways.

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Cloning of cDNA for the major DNA-binding protein of the erythroid lineage through expression in mammalian cells

Tsai

Martin

Zon

et al. 1989

Nature

899

582

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Genes expressed in erythroid cells contain binding sites for a cell-specific factor believed to be an important regulator for this haematopoietic lineage. Using high-level transient expression in mammalian cells, we have identified complementary DNA encoding the murine protein. The factor, a new member of the zinc-finger family of DNA-binding proteins, is restricted to erythroid cells at the level of RNA expression and is closely homologous between mouse and man.

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Genome Sequencing and Comparative Analysis ofKlebsiella pneumoniaeNTUH-K2044, a Strain Causing Liver Abscess and Meningitis

et al. 2009

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Nosocomial infections caused by antibiotic-resistant Klebsiella pneumoniae are emerging as a major health problem worldwide, while community-acquired K. pneumoniae infections present with a range of diverse clinical pictures in different geographic areas. In particular, an invasive form of K. pneumoniae that causes liver abscesses was first observed in Asia and then was found worldwide. We are interested in how differences in gene content of the same species result in different diseases. Thus, we sequenced the whole genome of K. pneumoniae NTUH-K2044, which was isolated from a patient with liver abscess and meningitis, and analyzed differences compared to strain MGH 78578, which was isolated from a patient with pneumonia. Six major types of differences were found in gene clusters that included an integrative and conjugative element, clusters involved in citrate fermentation, lipopolysaccharide synthesis, and capsular polysaccharide synthesis, phage-related insertions, and a cluster containing fimbria-related genes. We also conducted comparative genomic hybridization with 15 K. pneumoniae isolates obtained from community-acquired or nosocomial infections using tiling probes for the NTUH-K2044 genome. Hierarchical clustering revealed three major groups of genomic insertion-deletion patterns that correlate with the strains' clinical features, antimicrobial susceptibilities, and virulence phenotypes with mice. Here we report the whole-genome sequence of K. pneumoniae NTUH-K2044 and describe evidence showing significant genomic diversity and sequence acquisition among K. pneumoniae pathogenic strains. Our findings support the hypothesis that these factors are responsible for the changes that have occurred in the disease profile over time.

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Functional analysis and in vivo footprinting implicate the erythroid transcription factor GATA-1 as a positive regulator of its own promoter.

Tsai¹,

Strauss²,

Orkin³

1991

Genes Dev.

327

241

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Transcription of erythroid-expressed genes and normal erythroid development in vivo are dependent on a regulatory protein (GATA-1) that recognizes a consensus GATA motif. GATA-1 expression is itself restricted to erythroid progenitors and to two related hematopoietic lineages, megakaryocytes and mast cells. During cellular maturation the levels of GATA-1 RNA and protein increase progressively. In an effort to delineate mechanisms by which this pivotal transcription factor is itself regulated we have characterized the mouse GATA-1 gene and cis-elements within its promoter. We find that the isolated promoter retains cell specificity exhibited by the intact gene. Full promoter activity requires the presence of proximal CACCC box sequences and an upstream, double GATA motif that binds a single GATA-1 molecule in an asymmetric fashion. Using in vivo footprinting of mouse erythroleukemic cells we detect protein binding in vivo to both cis-elements. On the basis of these findings we propose that a positive feedback loop mediated through GATA-1 serves two complementary functions: maintenance of the differentiated state by locking the promoter into an "on" state, and programming the progressive increase in protein content throughout cellular maturation.

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Human GATA-3: a lineage-restricted transcription factor that regulates the expression of the T cell receptor alpha gene.

et al. 1991

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In addition to its role in the recognition of foreign antigens, the T cell receptor (TCR) alpha gene serves as a model system for studies of developmentally‐regulated, lineage‐specific gene expression in T cells. TCR alpha gene expression is restricted to cells of the TCR alpha/beta+ lineage, and is controlled by a T cell‐specific transcriptional enhancer located 4.5 kb 3′ to the C alpha gene segment. The TCR alpha enhancer contains four nuclear protein binding sites called T alpha 1‐T alpha 4. In this report we describe the identification and characterization of a novel human cDNA, hGATA‐3 that binds to the T alpha 3 element of the human TCR alpha enhancer. hGATA‐3 contains a zinc finger domain that is highly related to the DNA‐binding domain of the erythroid‐specific transcription factor, GATA‐1, and binds to a region of T alpha 3 that contains a consensus GATA binding site (AGATAG). Northern blot analyses of hematopoietic cell lines demonstrate that hGATA‐3 is expressed exclusively in T cells. Overexpression of hGATA‐3 in HeLa cells or human B cells specifically activated transcription from a co‐transfected reporter plasmid containing two copies of the T alpha 3 binding site located upstream of the minimal SV40 promoter. Taken together these results demonstrate that hGATA‐3 is a novel lineage‐specific hematopoietic transcription factor that appears to play an important role in regulating the T cell‐specific expression of the TCR alpha gene.

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Shih‐Feng Tsai

Wild-type p53 upregulates an early onset breast cancer-associated gene GAS7 to suppress metastasis via GAS7–CYFIP1-mediated signaling pathway

Cloning of cDNA for the major DNA-binding protein of the erythroid lineage through expression in mammalian cells

Genome Sequencing and Comparative Analysis ofKlebsiella pneumoniaeNTUH-K2044, a Strain Causing Liver Abscess and Meningitis

Functional analysis and in vivo footprinting implicate the erythroid transcription factor GATA-1 as a positive regulator of its own promoter.

Human GATA-3: a lineage-restricted transcription factor that regulates the expression of the T cell receptor alpha gene.

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