Journal ArticleDOI
Global DNA hypomethylation is associated with NTD‐affected pregnancy: A case‐control study
Xiaoli Chen,Jin Guo,Yunping Lei,Jizhen Zou,Xiaolin Lu,Yihua Bao,Lihua Wu,Jianxin Wu,Xiaoying Zheng,Yiping Shen,Bai-Lin Wu,Ting Zhang +11 more
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TLDR
Global DNA hypomethylation in fetal brain tissue was associated with N TD-affected pregnancy and DNA methylation levels were correlated with NTD complexity.Abstract:
BACKGROUND: Neural tube defects are severe, common birth defects that result from failure of neural tube closure. They are considered to be a multifactorial disorder, and our knowledge of causal mechanisms remains limited. We hypothesized that abnormal DNA methylation occurs in NTD-affected fetuses. The correlations of global DNA methylation levels with complexity of NTDs and known risk factors of NTDs, MTHFR genotype and fever, were analyzed. METHODS: A hospital-based case-control study was performed. Epidemiologic data, pathologic diagnosis, and methylenetetrahydrofolate reductase (MTHFR) genotype analysis were completed. Array comparative genomic hybridization was used to exclude cytogenetic abnormalities. Global DNA methylation statuses were determined for both brain and skin tissue. RESULTS: Sixty-five NTD-affected fetuses and 65 normal controls matched for gestational and maternal ages were collected. In brain tissue, global DNA methylation levels were significantly decreased in cases compared with controls (4.12 vs. 4.99%; p < 0.001). DNA hypomethylation (<4.35%) resulted in a significant 5.736-fold increased risk for NTDs (95% confidence interval, 1.731–19.009; p = 0.004). Nonisolated NTDs had lower levels of global DNA methylation than did isolated NTDs (3.77 vs. 4.70%; p = 0.022). After stratifying subjects by MTHFR genotype, we observed a skewed distribution of global DNA methylation levels. For genotype C/C, global DNA methylation status was the same in the two groups (4.51 vs. 4.72%; p = 0.687). For T/T, cases had significantly lower global methylation levels than did controls (5.23 vs. 3.79%; p < 0.001). CONCLUSIONS: Global DNA hypomethylation in fetal brain tissue was associated with NTD-affected pregnancy. DNA methylation levels were correlated with NTD complexity. The MTHFR genotype contributed to global DNA hypomethylation. Birth Defects Research (Part A), 2010. © 2010 Wiley-Liss, Inc.read more
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Methyl Donor Supplementation Blocks the Adverse Effects of Maternal High Fat Diet on Offspring Physiology
TL;DR: In this paper, a mouse model was designed to attempt to reverse this DNA hypomethylation through supplementation of the maternal diet with methyl donors, and to determine whether methyl donor supplementation could block or attenuate phenotypes associated with maternal consumption of a high fat diet.
Journal ArticleDOI
Different measures of "genome-wide" DNA methylation exhibit unique properties in placental and somatic tissues.
E. Magda Price,Allison M. Cotton,Maria S. Peñaherrera,Deborah E. McFadden,Michael S. Kobor,Wendy P. Robinson +5 more
TL;DR: Assessment of L1 and Alu DNA methylation by Pyrosequencing of consensus sequences and using subsets of probes included in the Illumina Infinium HumanMethylation27 BeadChip array shows that evolutionary age and assay method affect the assessment of repetitive elementDNA methylation.
Journal ArticleDOI
Maternal Genome-Wide DNA Methylation Patterns and Congenital Heart Defects
Shimul Chowdhury,Stephen W. Erickson,Stewart L. MacLeod,Mario A. Cleves,Ping Hu,Mohammad A. Karim,Charlotte A. Hobbs +6 more
TL;DR: Preliminary evidence that alterations in maternal DNA methylation may be associated with congenital heart defects is presented, suggesting that further studies involving maternal epigenetic patterns and CHDs are warranted.
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Hyperhomocysteinemia: related genetic diseases and congenital defects, abnormal DNA methylation and newborn screening issues.
TL;DR: The relevance of present and future diagnostic tools such as tandem mass spectrometry and next generation sequencing in newborn screening is highlighted, and a possible correlation between hyperhomocysteine and congenital disorders through the involvement of abnormal DNA methylation during embryogenesis is discussed.
References
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DNA methyltransferases Dnmt3a and Dnmt3b are essential for de novo methylation and mammalian development.
TL;DR: It is demonstrated that two recently identified DNA methyltransferases, DnMT3a and Dnmt3b, are essential for de novo methylation and for mouse development and play important roles in normal development and disease.
Journal ArticleDOI
A candidate genetic risk factor for vascular disease: a common mutation in methylenetetrahydrofolate reductase
P. Frosst,Henk J. Blom,Renate Milos,Philippe Goyette,Christal A. Sheppard,Rowena G. Matthews,G. J.H. Boers,M. den Heijer,Leo A. J. Kluijtmans,L.P.W.J. van den Heuvel,Rima Rozen +10 more
TL;DR: This work has identified a common mutation in MTHFR which alters a highly-conserved amino acid; the substitution occurs at a frequency of approximately 38% of unselected chromosomes and may represent an important genetic risk factor in vascular disease.
Journal ArticleDOI
Prevention of the First Occurrence of Neural-Tube Defects by Periconceptional Vitamin Supplementation
Andrew E. Czeizel,István Dudás +1 more
TL;DR: A randomized, controlled trial of periconceptional multivitamin supplementation to test the efficacy of this treatment in reducing the incidence of a first occurrence of neural-tube defects.
Journal ArticleDOI
Prevention of neural tube defects: Results of the Medical Research Council vitamin study
TL;DR: An unexplained elevated level of maternal serum alpha-fetoprotein in the second trimester of pregnancy is associated with an increased risk of subsequent fetal death, up to four to five months after alphafetoprotein screening.
Journal ArticleDOI
Epigenetic Reprogramming in Mammalian Development
Wolf Reik,Wendy Dean,Jörn Walter +2 more
TL;DR: What is known about reprogramming in mammals and how it might relate to developmental potency and imprinting are discussed, including whether or not methylation is involved in the control of gene expression during normal development.