Loss of imprinting in normal tissue of colorectal cancer patients with microsatellite instability

Cui, Hengmi; Horon, Isabelle L.; Ohlsson, Rolf; Hamilton, Stanley R.; Feinberg, Andrew P.

doi:10.1038/3260

Cited by 251 publications

(208 citation statements)

References 32 publications

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“…The same phenomenon of relaxed IGF2 imprinting commonly occurs in Beckwith-Wiedemann syndrome (Weksberg et al, 1993;Reik et al, 1994), in children with the constitutional IGF2 overgrowth syndrome (Morison et al, 1996), and in the normal tissue adjacent to some cancers with relaxed imprinting (Okamoto et al, 1997;Cui et al, 1998).…”

Section: Introductionmentioning

confidence: 74%

Relaxation of IGF2 imprinting in Wilms tumours associated with specific changes in IGF2 methylation

et al. 1999

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Relaxation of IGF2 imprinting occurs in Wilms tumours and many other cancers, but the mechanism of loss of imprinting (LOI) remains unknown. To investigate the role of altered DNA methylation in LOI, we examined the pattern of methylation of the human insulin-IGF2 region in Wilms tumours and the normal kidney. The analysis included regions homologous to three`di erentially methylated regions' of the mouse Igf2 gene (dmrs 0, 1 and 2). In tumours displaying normal IGF2 imprinting, and in the normal kidney, maternal allelespeci®c DNA methylation was identi®ed spanning exons 2 and 3. This region is homologous to dmr 0, a site of maternal-speci®c di erential methylation in the mouse. In Wilms tumours with relaxed imprinting or 11p15.5 LOH this region was unmethylated. No other di erential methylation was identi®ed. In particular, two sites of paternal methylation in the mouse (dmrs 1 and 2), and all three imprinted IGF2 promoters were not methylated in the kidney or in Wilms tumours. We postulate that LOI in Wilms tumours is associated with loss of maternal allele-speci®c methylation from a region located upstream of the imprinted IGF2 promoters. This region may contain cis acting sequences that coordinately in¯uence imprinting.

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Section: Introductionmentioning

confidence: 74%

Relaxation of IGF2 imprinting in Wilms tumours associated with specific changes in IGF2 methylation

et al. 1999

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“…Loss of imprinting at the 11p15.5 locus is a frequent event leading to the overexpression of genes in colorectal cancer (Cui et al, 1998). Therefore, loss of imprinting of ascl2 was hypothesized to contribute to the upregulation of ascl2 transcription.…”

Section: Discussionmentioning

confidence: 99%

“…By contrast, ascl2 has not been implicated in neoplastic transformation or progression, but there is circumstantial evidence to support a role for ascl2 in cancer. ascl2 resides at chromosome 11p15.5 and loss of imprinting at this locus is a frequent event in colorectal tumourigenesis (Cui et al, 1998).…”

Section: Introductionmentioning

confidence: 99%

Achaete-scute like 2 (ascl2) is a target of Wnt signalling and is upregulated in intestinal neoplasia

Jubb

Chalasani²,

Frantz³

et al. 2006

Oncogene

121

112

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Achaete-scute like (ASCL)2 is a basic helix-loop-helix transcription factor essential for the maintenance of proliferating trophoblasts during placental development. Using oligonucleotide microarrays we identified ascl2 as a gene significantly upregulated in colorectal adenocarcinomas (n ¼ 36 cancers, n ¼ 16 normals; 15-fold, Po0.0001). This finding was confirmed by quantitative reverse transcriptase (RT)-PCR on large intestinal cancers (n ¼ 29 cancers, n ¼ 16 normals; 10-fold, Po0.0001).In situ hybridization for ascl2 demonstrated expression at the base of small and large intestinal crypts (n ¼ 304), but in no other normal tissues excepting placenta. By in situ hybridization, 52-71% of colorectal adenomas (n ¼ 187), 50-73% of large (n ¼ 327) and 33-64% of small intestinal adenocarcinomas (n ¼ 124) were positive for ascl2 expression. Upregulation of murine ascl2 was also observed using oligonucleotide microarrays, quantitative RT-PCR and in situ hybridization on apc min/ þ and apc 1638N/ þ smad4 À/ þ tumours. Tumour cell lines stably transfected with LEF1 DN or APC2, or transiently transfected with short-interfering RNA (siRNA) against b-catenin showed a significant downregulation of ascl2. Colocalization of ascl2 with nuclear b-catenin was observed in 73 small intestinal adenocarcinomas (P ¼ 0.0008) and apc min/ þ tumours. Preliminary in vitro data suggest ascl2 may promote progression through the G2/M cell cycle checkpoint. In summary, ascl2 is a putative regulator of proliferation that is overexpressed in intestinal neoplasia.

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“…The importance of epigenetic changes in cancer development was shown in experiments in which reducing the level of DNA methylation to 10% of normal levels by introducing a hypomorphic allele of the DNA methyltransferase gene Dnmt1 was sufficient to induce cancer development in mice , presumably due to induction of chromosome instability . Studies on human colorectal cancers have shown that 30-40% of patients show aberrant loss of imprinting (LOI) of the IGF2 gene due to loss of DNA methylation in the maternal IGF2 allele, both in the tumor and in the tumor's neighboring normal mucosa cells (Cui et al, 1998(Cui et al, , 2003. About 10% of the normal human population show LOI of IGF2 in their peripheral blood cells and this population has a fivefold higher risk of developing colorectal cancer (Cui et al, 2003).…”

Section: Differentiation Plasticity In Normal and Cancer Stem Cells Jmentioning

confidence: 99%

Epigenetics and the plasticity of differentiation in normal and cancer stem cells

Lotem

Sachs

2006

Oncogene

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Loss of imprinting in normal tissue of colorectal cancer patients with microsatellite instability

Cited by 251 publications

References 32 publications

Relaxation of IGF2 imprinting in Wilms tumours associated with specific changes in IGF2 methylation

Relaxation of IGF2 imprinting in Wilms tumours associated with specific changes in IGF2 methylation

Achaete-scute like 2 (ascl2) is a target of Wnt signalling and is upregulated in intestinal neoplasia

Epigenetics and the plasticity of differentiation in normal and cancer stem cells

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