Rosaria Scelfo scite author profile

Genomic imprinting is a reversible condition that causes parentalspecific silencing of maternally or paternally inherited genes. Analysis of DNA and RNA from 52 human hepatocarcinoma samples revealed abnormal imprinting of genes located at chromosome 11p15 in 51% of 37 informative samples. The most frequently detected abnormality was gain of imprinting, which led to loss of expression of genes present on the maternal chromosome. As compared with matched normal liver tissue, hepatocellular carcinomas showed extinction or significant reduction of expression of one of the alleles of the CDKN1C, SLC22A1L, and IGF2 genes. Loss of maternal-specific methylation at the KvDMR1 locus in hepatocarcinoma correlated with abnormal expression of CDKN1C and IGF2, suggesting a function for KvDMR1 as a long-range imprinting center active in adult tissues. These results point to the role of epigenetic mechanisms leading to loss of expression of imprinted genes at chromosome region 11p15 in human tumors.

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Loss of methylation at chromosome 11p15.5 is common in human adult tumors

Scelfo

Schwienbacher

Veronese³

et al. 2002

Oncogene

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Chromosome 11p15 deletion is frequent in human tumors, suggesting the presence of at least one tumor suppressor gene within this region. While mutation analyses of local genes revealed only rare mutations, we have previously described a mechanism, gain of imprinting, that leads to loss of expression of genes located on the maternal 11p15 chromosome in human hepatocarcinomas. Loss of expression was often associated with loss of maternal-speci®c methylation at the KvDMR1 locus. Here, we show that loss of the maternal KvDMR1 methylation is common, ranging from 30 to 50%, to a variety of adult neoplasms, including liver, breast, cervical and gastric carcinomas. We found that other 11p15.5 loci were concomitantly hypomethylated, indicating that loss of KvDMR1 methylation occurred in the context of a common mechanism a ecting the methylation of a large 11p15 subchromosomal domain. These epigenetic abnormalities were not detected in any normal somatic tissue. Therefore, it seems possible that, contrary to the repression of promoter activity caused by hypermethylation, loss of gene expression at 11p15.5 may result from the activation, by hypomethylation, of one or more negative regulatory elements.

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Subchromosomal assignment<footref rid="foot01"><sup>1</sup></footref> of the TSSC1 gene to human chromosome band 11p15.5 near the HBB gene cluster

Scelfo¹,

Sabbioni²,

Barbanti-Brodano³

et al. 1998

Cytogenet Genome Res

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Rosaria Scelfo

Gain of imprinting at chromosome 11p15: A pathogenetic mechanism identified in human hepatocarcinomas

Loss of methylation at chromosome 11p15.5 is common in human adult tumors

Subchromosomal assignment<footref rid="foot01"><sup>1</sup></footref> of the TSSC1 gene to human chromosome band 11p15.5 near the HBB gene cluster

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