Aberrant methylated key genes of methyl group metabolism within the molecular etiology of urothelial carcinogenesis

Aberrant methylated key genes of methyl group metabolism within the molecular etiology of urothelial carcinogenesis

Abstract Urothelial carcinoma (UC), the most common cancer of the urinary bladder causes severe morbidity and mortality, e.g. about 40.000 deaths in the EU annually, and incurs considerable costs for the health system due to the need for prolonged treatments and long-term monitoring. Extensive aberr...

Full description

Saved in:
Bibliographic Details
Main Authors: Lars Erichsen, Foued Ghanjati, Agnes Beermann, Cedric Poyet, Thomas Hermanns, Wolfgang A. Schulz, Hans-Helge Seifert, Peter J. Wild, Lorenz Buser, Alexander Kröning, Stefan Braunstein, Martin Anlauf, Silvia Jankowiak, Mohamed Hassan, Marcelo L. Bendhack, Marcos J. Araúzo-Bravo, Simeon Santourlidis
Format: article
Language:EN
Published: Nature Portfolio 2018
Subjects:
Medicine
R
Science
Q
Online Access:https://doaj.org/article/2c7f1dd5e43c455492ff4ecacd90cfcf
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Abstract Urothelial carcinoma (UC), the most common cancer of the urinary bladder causes severe morbidity and mortality, e.g. about 40.000 deaths in the EU annually, and incurs considerable costs for the health system due to the need for prolonged treatments and long-term monitoring. Extensive aberrant  DNA methylation is described to prevail in urothelial carcinoma and is thought to contribute to genetic instability, altered gene expression and tumor progression. However, it is unknown how this epigenetic alteration arises during carcinogenesis. Intact methyl group metabolism is required to ensure maintenance of cell-type specific methylomes and thereby genetic integrity and proper cellular function. Here, using two independent techniques for detecting DNA methylation, we observed DNA hypermethylation of the 5′-regulatory regions of the key methyl group metabolism genes ODC1, AHCY and MTHFR in early urothelial carcinoma. These hypermethylation events are associated with genome-wide DNA hypomethylation which is commonly associated with genetic instability. We therefore infer that hypermethylation of methyl group metabolism genes acts in a feed-forward cycle to promote additional DNA methylation changes and suggest a new hypothesis on the molecular etiology of urothelial carcinoma.

Similar Items