BACKGROUND/AIMS: Vitamin B12 (B-12) is an essential cofactor for methionine synthase, and methionine is critical for the methylation of various biological molecules including DNA. Whether changes in B-12 levels can alter specific gene expression through DNA methylation and whether dietary methionine has any effect on general DNA methylation status still remains controversial. METHODS: We raised severely B-12-deficient rats as well severely-B-12 deficient rats but supplemented with 5% methionine. mRNA levels of methionine cycle-related enzymes were analyzed. RESULTS: Gene expression patterns changed under B-12-deficient conditions but were recovered by dietary methionine supplementation to B-12-deficient rats. However, cystathionine beta-synthase mRNA levels, which had decreased under B-12-deficient conditions, did not recover with supplementary dietary methionine. The CpG island of the cystathionine beta-synthase promoter was hypomethylated in B-12-deficient rats, and showed no recovery after methionine addition. CONCLUSIONS: Dietary B-12 can affect epigenetic machinery by regulating DNA methylation status and dietary methionine may have small effects on DNA methylation. Copyright 2008 S. Karger AG, Basel.
BACKGROUND/AIMS: Vitamin B12 (B-12) is an essential cofactor for methionine synthase, and methionine is critical for the methylation of various biological molecules including DNA. Whether changes in B-12 levels can alter specific gene expression through DNA methylation and whether dietary methionine has any effect on general DNA methylation status still remains controversial. METHODS: We raised severely B-12-deficient rats as well severely-B-12 deficient rats but supplemented with 5% methionine. mRNA levels of methionine cycle-related enzymes were analyzed. RESULTS: Gene expression patterns changed under B-12-deficient conditions but were recovered by dietary methionine supplementation to B-12-deficient rats. However, cystathionine beta-synthase mRNA levels, which had decreased under B-12-deficient conditions, did not recover with supplementary dietary methionine. The CpG island of the cystathionine beta-synthase promoter was hypomethylated in B-12-deficient rats, and showed no recovery after methionine addition. CONCLUSIONS: Dietary B-12 can affect epigenetic machinery by regulating DNA methylation status and dietary methionine may have small effects on DNA methylation. Copyright 2008 S. Karger AG, Basel.
Authors: Christoph Dahlhoff; Charles Desmarchelier; Manuela Sailer; Rainer W Fürst; Alexander Haag; Susanne E Ulbrich; Björn Hummel; Rima Obeid; Jürgen Geisel; Bernhard L Bader; Hannelore Daniel Journal: PLoS One Date: 2013-03-05 Impact factor: 3.240