CTNNB1 Mutations and Overexpression of Wnt/β-Catenin Target Genes in WT1-Mutant Wilms' Tumors

Li, Chi Ming; Kim, Connie E.; Margolin, Adam A.; Guo, Meirong; Zhu, Jimmy; Mason, Jacqueline M.; Hensle, Terrence; Murty, Vundavalli V.; Grundy, Paul E.; Fearon, Eric R.; D’Agati, Vivette D.; Licht, Jonathan D.; Tycko, Benjamin

doi:10.1016/s0002-9440(10)63246-4

Cited by 137 publications

(145 citation statements)

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“…Furthermore, WTX mutations are not associated with differences in the clinical presentation or outcome of Wilms tumors (Wegert et al, 2009). Microarray experiments show distinct differences in the gene expression profile of WT1 wild-type and mutant tumors, with many of the changes in the WT1 mutant tumors due, in part, to activation of the Wnt pathway (Li et al, 2004). Gene expression profiles of WT1-replete, CTNNB1 wild-type Wilms tumors with or without WTX mutations, may clarify the role of WTX in Wilms tumorigenesis.…”

Section: Discussionmentioning

confidence: 97%

“…Sporadic Wilms tumors may be associated with bi-allelic mutation of WT1 in up to 15% of cases (reviewed in (Huff, 1998)). Loss of WT1 is frequently accompanied by gain of function mutations of CTNNB1 (Koesters et al, 1999;Maiti et al, 2000;Li et al, 2004). Sporadic Wilms tumors without WT1 mutation frequently show loss of imprinting of IGF2 locus and many genes within this region may be deregulated (Ogawa et al, 1993).…”

Section: Introductionmentioning

confidence: 99%

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Functional characterization of Wilms tumor-suppressor WTX and tumor-associated mutants

et al. 2010

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The WTX, Wilms tumor-associated tumor-suppressor gene, is present on the X chromosome and a single WTX mutation may be sufficient to promote carcinogenesis. Unlike the WT1 tumor suppressor, a transcription factor, WTX lacks conserved functional protein domains. To study the function of WTX, we constructed inducible cell lines expressing WTX and tumor-associated WTX mutants. Induction of WTX inhibited cell growth and caused G 1 /G 0 arrest. In contrast, a short, tumorassociated truncation mutant of WTX358 only slightly inhibited cell growth without a significant cell-cycle arrest, although expression of a longer truncation mutant WTX565 led to the growth inhibition and cell-cycle arrest to a similar extent as wild-type WTX. Like WT1, WTX slowed growth and caused cell-cycle arrest through p21 induction. Gene expression profiling showed that these two tumorsuppressors regulated genes in similar pathways, including those implicated in control of the cellular growth, cell cycle, cell death, cancer and cardiovascular system development. When gene expression changes mediated by wild-type WTX were compared with those affected by mutant forms, WTX565 showed a 55% overlap (228 genes) in differentially regulated genes, whereas WTX358 regulated only two genes affected by wild-type WTX, implying that amino-acid residues 358-561 are critical for WTX function.

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Section: Discussionmentioning

confidence: 97%

Section: Introductionmentioning

confidence: 99%

Functional characterization of Wilms tumor-suppressor WTX and tumor-associated mutants

et al. 2010

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“…WT1 mutations are strongly associated with ILNR (Beckwith, 1998) that often develop into WTs with ectopic mesenchymal elements (Beckwith et al, 1990;Beckwith, 1998). A series of immunohistochemical studies of b-catenin in WT have shown that nuclear accumulation of b-catenin is predominantly observed in mesenchymal cells irrespective of CTNNB1 mutations (Koesters et al, 2003;Li et al, 2004;Fukuzawa et al, 2004aFukuzawa et al, , 2008Zirn et al, 2006). These observations suggest a relationship between the mesenchymal lineage in WT and active WNT signalling.…”

Section: Introductionmentioning

confidence: 99%

“…The WNT-signalling pathway is known to be involved in a subset of WT (Koesters et al, 1999(Koesters et al, , 2003Maiti et al, 2000;Li et al 2004;Fukuzawa et al, 2004a). These tumours typically have WT1 mutations and/or CTNNB1 mutations (Koesters et al, 1999;Maiti et al, 2000;Li et al, 2004;Fukuzawa et al, 2004a).…”

Section: Introductionmentioning

confidence: 99%

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Canonical WNT signalling determines lineage specificity in Wilms tumour

et al. 2009

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Wilms tumours (WTs) have two distinct types of histology with or without ectopic mesenchymal elements, suggesting that WTs arise from either the mesenchymal or epithelial nephrogenic lineages. Regardless of the presence or absence of CTNNB1 mutations, nuclear accumulation of b-catenin is often observed in WTs with ectopic mesenchymal elements. Here, we addressed the relationship between the WNT-signalling pathway and lineage in WTs by examining CTNNB1 and WT1 mutations, nuclear accumulation of b-catenin, tumour histology and gene expression profiles. In addition, we screened for mutations in WTX, which has been proposed to be a negative regulator of the canonical WNT-signalling pathway. Unsupervised clustering analysis identified two classes of tumours: mesenchymal lineage WNT-dependent tumours, and epithelial lineage WNT-independent tumours. In contrast to the mesenchymal lineage specificity of CTNNB1 mutations, WTX mutations were surprisingly observed in both lineages. WTX-mutant WTs with ectopic mesenchymal elements had nuclear accumulation of b-catenin, upregulation of WNT target genes and an association with CTNNB1 mutations in exon 7 or 8. However, epithelial lineage WTs with WTX mutations had no indications of active WNT signalling, suggesting that the involvement of WTX in the WNT-signalling pathway may be lineage dependent, and that WTX may have an alternative function to its role in the canonical WNT-signalling pathway.

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Wilms tumor gene protein 1 is associated with ovarian cancer metastasis and modulates cell invasion

Barbolina

Adley

Shea

et al. 2008

Cancer

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CTNNB1 Mutations and Overexpression of Wnt/β-Catenin Target Genes in WT1-Mutant Wilms' Tumors

Cited by 137 publications

References 26 publications

Functional characterization of Wilms tumor-suppressor WTX and tumor-associated mutants

Functional characterization of Wilms tumor-suppressor WTX and tumor-associated mutants

Canonical WNT signalling determines lineage specificity in Wilms tumour

Wilms tumor gene protein 1 is associated with ovarian cancer metastasis and modulates cell invasion

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