The Prognostic Implication of the Basal-Like (Cyclin Ehigh/p27low/p53+/Glomeruloid-Microvascular-Proliferation+) Phenotype of <b>
                     <i>BRCA1</i>
                  </b>-Related Breast Cancer

WT1 encodes a zinc finger transcription factor implicated in kidney differentiation and tumorigenesis. In reporter assays, WT1 represses transcription from GC- and TC-rich promoters, but its physiological targets remain uncertain. We used hybridization to high-density oligonucleotide arrays to search for native genes whose expression is altered following inducible expression of WT1. The major target of WT1 was amphiregulin, a member of the epidermal growth factor family. The WT1(-KTS) isoform binds directly to the amphiregulin promoter, resulting in potent transcriptional activation. The in vivo expression profile of amphiregulin during fetal kidney development mirrors the highly specific pattern of WT1 itself, and recombinant Amphiregulin stimulates epithelial branching in organ cultures of embryonic mouse kidney. These observations suggest a model for WT1 as a transcriptional regulator during kidney differentiation.

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Broad spectrum of Pompe disease in patients with the same c.-32-13T→G haplotype

Kroos¹,

Pomponio²,

Hagemans³

et al. 2007

Neurology

150

135

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WT1 regulates the expression of the major glomerular podocyte membrane protein Podocalyxin

et al. 2001

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The WT1 tumor suppressor gene encodes a zinc finger transcription factor expressed in differentiating glomerular podocytes. Complete inactivation of WT1 in the mouse leads to failure of mesenchymal induction and renal agenesis, an early developmental phenotype that prevents analysis of subsequent stages in glomerular differentiation [1]. In humans with Denys-Drash Syndrome, a heterozygous germline mutation in WT1 is associated with specific defects in glomeruli and an increased risk for developing Wilms Tumor [2,3]. WT1 target genes implicated in cell cycle regulation and cellular proliferation have been proposed [4], but the link between WT1 function and glomerular differentiation is unexplained. Here, we show that inducible expression of WT1 in rat embryonic kidney cell precursors leads to the induction of endogenous Podocalyxin, the major structural membrane protein of glomerular podocytes, which is implicated in the maintenance of filtration slits. Binding of WT1 to conserved elements within the Podocalyxin gene promoter results in potent transcriptional activation, and the specific expression pattern of Podocalyxin in the developing kidney mirrors that of WT1 itself. These observations support a role for WT1 in the specific activation of a glomerular differentiation program in renal precursors and provide a molecular basis for the glomerulonephropathy that is characteristic of Denys-Drash Syndrome.

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Update of the Pompe disease mutation database with 107 sequence variants and a format for severity rating

Pomponio²,

et al. 2008

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Pompe disease was named after the Dutch pathologist Dr JC Pompe who reported about a deceased infant with idiopathic hypertrophy of the heart. The clinical findings were failure to thrive, generalized muscle weakness and cardio-respiratory failure. The key pathologic finding was massive storage of glycogen in heart, skeletal muscle and many other tissues. The disease was classified as glycogen storage disease type II and decades later shown to be a lysosomal disorder caused by acid α-glucosidase deficiency. The clinical spectrum of Pompe disease appeared much broader than originally recognized. Adults with the same enzyme deficiency, alternatively named acid maltase deficiency, were reported to have slowly progressive skeletal muscle weakness and respiratory problems, but no cardiac involvement. The clinical heterogeneity is largely explained by the kind and severity of mutations in the acid α-glucosidase gene (GAA), but secondary factors, as yet unknown, have a substantial impact. The Pompe disease mutation database aims to list all GAA sequence variations and describe their effect. This update with 107 sequence variations (95 being novel) brings the number of published variations to 289, the number of non-pathogenic mutations to 67 and the number of proven pathogenic mutations to 197. Further, this article introduces a tool to rate the various mutations by severity, which will improve understanding of the genotypephenotype correlation and facilitate the diagnosis and prognosis in Pompe disease.

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SUMO modification is required for in vivo Hox gene regulation by the Caenorhabditis elegans Polycomb group protein SOP-2

et al. 2004

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Figure 1Interaction of SOP-2 with UBC-9 and sumoylation. (a) Results of yeast two-hybrid screens using the C terminus of SOP-2 as bait. The strength of the protein interaction is graded on the basis of comparison with controls: human Rb and E2F-1 interaction (+, faint blue color after 24 h in X-gal assay) and rat c-Fos and mouse c-Jun interaction (+++, blue color within 1 h in X-gal assay). (b) Interaction of the wild-type SOP-2 SAM domain with itself, with the SOP-2(bx91) mutant protein and with UBC-9. The bx91 mutation substantially reduces its interaction with UBC-9 but not with the wild-type SOP-2 SAM domain. (c) In vitro and in vivo sumoylation of SOP-2. In vitro sumoylation was carried out using labeled SOP-2 and purified sumoylation components. In vivo sumoylation of hemagglutinin-tagged SOP-2 and the SOP-2(bx91) mutant was done after transfection and expression in mammalian U2OS cells. Cell lysates were analyzed by immunoprecipitation (IP) with antibody to SUMO and western blotting with antibody to hemagglutinin.

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One‐ and Two‐Year Outcomes and Predictors of Mortality Following Emergency Laparotomy: A Consecutive Series from a United Kingdom Teaching Hospital

et al. 2012

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Induction of BAIAP3 by the EWS-WT1 chimeric fusion implicates regulated exocytosis in tumorigenesis

et al. 2002

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Desmoplastic small round cell tumor (DSRCT) is defined genetically by the chimeric fusion of the Ewing's sarcoma and Wilms' tumor genes, generating a novel transcription factor, EWS-WT1. By using cells with inducible EWS-WT1 to screen high-density microarrays, we identified BAIAP3 as a transcriptional target of the chimera. The BAIAP3 promoter is specifically bound in vivo by the (-KTS) isoform of EWS-WT1, consistent with its activation in reporter assays. BAIAP3 encodes a protein implicated in regulated exocytosis, which is colocalized with a secreted growth factor within cytoplasmic organelles. Ectopic expression of BAIAP3 in tumor cells dramatically enhances growth in low serum and colony formation in soft agar. BAIAP3 therefore encodes a transcriptional target of an oncogenic fusion protein that implicates the regulated exocytotic pathway in cancer cell proliferation.

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Identification of a DNA-binding site and transcriptional target for the EWS–WT1(+KTS) oncoprotein

Reynolds¹,

Smolen²,

Palmer³

et al. 2003

Genes Dev.

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Desmoplastic small round cell tumor (DSRCT) is defined by a chimeric transcription factor, resulting from fusion of the N-terminal domain of the Ewing's sarcoma gene EWS to the three C-terminal zinc fingers of the Wilms' tumor suppressor WT1. Although DNA-binding sites have been defined for the uninterrupted WT1 zinc finger domains, the most prevalent isoforms of both WT1 and EWS-WT1 have an insertion of three amino acids [lysine, threonine, and serine (KTS)], which abrogates binding to known consensus sequences and transactivation of known target genes. Here, we used cDNA subtractive hybridization to identify an endogenous gene, LRRC15, which is specifically up-regulated after inducible expression of EWS-WT1(+KTS) in cancer cell lines, and is expressed within primary DSRCT cells. The chimeric protein binds in vitro and in vivo to a specific element upstream of LRRC15, leading to dramatic transcriptional activation. Mutagenesis studies define the optimal binding site of the (+KTS) isoform of EWS-WT1 as 5-GGAGG(A/G)-3. LRRC15 encodes a leucine-rich transmembrane protein, present at the leading edge of migrating cells, the expression of which in normal tissues is restricted to the invasive cytotrophoblast layer of the placenta; small interfering (siRNA)-mediated suppression of LRRC15 expression in breast cancer cells leads to abrogation of invasiveness in vitro. Together, these observations define the consequence of (KTS) insertion within WT1-derived zinc fingers, and identify a novel EWS-WT1 transcriptional target implicated in tumor invasiveness.

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Rachel Palmer

The Wilms Tumor Suppressor WT1 Encodes a Transcriptional Activator of amphiregulin

Broad spectrum of Pompe disease in patients with the same c.-32-13T→G haplotype

WT1 regulates the expression of the major glomerular podocyte membrane protein Podocalyxin

Update of the Pompe disease mutation database with 107 sequence variants and a format for severity rating

SUMO modification is required for in vivo Hox gene regulation by the Caenorhabditis elegans Polycomb group protein SOP-2

One‐ and Two‐Year Outcomes and Predictors of Mortality Following Emergency Laparotomy: A Consecutive Series from a United Kingdom Teaching Hospital

Induction of BAIAP3 by the EWS-WT1 chimeric fusion implicates regulated exocytosis in tumorigenesis

Identification of a DNA-binding site and transcriptional target for the EWS–WT1(+KTS) oncoprotein

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