Genome-wide screen reveals WNT11, a non-canonical WNT gene, as a direct target of ETS transcription factor ERG

Mochmann, Liliana H.; Böck, J. C.; Ortiz-Tánchez, Jutta; Schlee, Cornelia; Bohne, Arend; Neumann, Konrad; Hofmann, Wolf‐Karsten; Thiel, Eckhard; Baldus, Claudia D.

doi:10.1038/onc.2010.582

Cited by 35 publications

(40 citation statements)

References 51 publications

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“…Activation of ERG expression by TMPRSS2:ERG gene fusion results in aberrant activation of different signalling cascades in ERG fusion-positive as compared with ERG fusion-negative prostate cancers 27 32–34. One of the best known consequences of ERG expression is activation of WNT signalling26 27 35 It is tempting to speculate that FOXP2 and ERG, or their target genes, interfere with pathways governing tumour aggressiveness, possibly including the WNT pathway, which is subsequently reflected by the different clinical course in ERG-positive and ERG-negative cancers. The genes or mechanisms mediating this effect remain to be identified.…”

Section: Discussionmentioning

confidence: 99%

Strong expression of the neuronal transcription factor FOXP2 is linked to an increased risk of early PSA recurrence in ERG fusion-negative cancers

et al. 2013

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Background and aimsTranscription factors of the forkhead box P (FOXP1-4) family have been implicated in various human cancer types before. The relevance and role of neuronal transcription factor FOXP2 in prostate cancer is unknown.MethodsA tissue microarray containing samples from more than 11 000 prostate cancers from radical prostatectomy specimens with clinical follow-up data was analysed for FOXP2 expression by immunohistochemistry. FOXP2 data were also compared with pre-existing ERG fusion (by fluorescence in situ hybridisation and immunohistochemistry) and cell proliferation (Ki67 labelling index) data.ResultsThere was a moderate to strong FOXP2 protein expression in basal and secretory cells of normal prostatic glands. As compared with normal cells, FOXP2 expression was lost or reduced in 25% of cancers. Strong FOXP2 expression was linked to advanced tumour stage, high Gleason score, presence of lymph node metastases and early tumour recurrence (p<0.0001; each) in ERG fusion-negative, but not in ERG fusion-positive cancers. High FOXP2 expression was linked to high Ki67 labelling index (p<0.0001) in all cancers irrespective of ERG fusion status.ConclusionsThese data demonstrate that similar high FOXP2 protein levels as in normal prostate epithelium exert a ‘paradoxical’ oncogenic role in ‘non fusion-type’ prostate cancer. It may be speculated that interaction of FOXP2 with members of pathways that are specifically activated in ‘non fusion-type’ cancers may be responsible for this phenomenon.

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Section: Discussionmentioning

confidence: 99%

Strong expression of the neuronal transcription factor FOXP2 is linked to an increased risk of early PSA recurrence in ERG fusion-negative cancers

et al. 2013

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“…There is also little information on downstream targets of ERG that contribute to malignant leukemogenesis. A genome wide screen of ERG target genes conducted with ChIP-chip in Jurkat cells included the WNT signaling genes WNT11, WNT2, WNT9A, CCND1 , and FZD7 (Mochmann et al, 2011). Sampling of patient diagnostic material showed that ERG and WNT1 were co-expressed in 80% of AML, whereas knockdown of ERG1 by siRNA lead to WNT1 transcript down-regulation and WNT1 transcripts could be stimulated with tet-on ERG inducible assay.…”

Section: B Mechanisms Of Ets Protein Mediated Oncogenesismentioning

confidence: 99%

Molecular mechanisms of ETS transcription factor-mediated tumorigenesis

Kar¹,

Gutierrez‐Hartmann

2013

Critical Reviews in Biochemistry and Molecular Biology

121

106

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The ETS family of transcription factors is critical for development, differentiation, proliferation and also has a role in apoptosis and tissue remodeling. Changes in expression of ETS proteins therefore have a significant impact on normal physiology of the cell. Transcriptional consequences of ETS protein deregulation by overexpression, gene fusion, and modulation by RAS/MAPK signaling are linked to alterations in normal cell functions, and lead to unlimited increased proliferation, sustained angiogenesis, invasion and metastasis. Existing data show that ETS proteins control pathways in epithelial cells as well as stromal compartments, and the crosstalk between the two is essential for normal development and cancer. In this review we have focused on ETS factors with a known contribution in cancer development. Instead of focusing on a prototype, we address cancer associated ETS proteins and have highlighted the diverse mechanisms by which they affect carcinogenesis. Finally, we discuss strategies for ETS factor targeting as a potential means for cancer therapeutics.

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“…7, 12 Deregulation of the WNT pathway has been linked to leukemogenesis in T-ALL. 13, 14 The previously unreported FAT1 mutation rate of 15% in adult T-ALL stresses the importance of the WNT pathway in T-ALL.…”

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confidence: 99%