Publications by authors named "Maria S Baker"
Background: We recently identified ~ 10,000 correlated regions of systemic interindividual epigenetic variation (CoRSIVs) in the human genome. These methylation variants are amenable to population studies, as DNA methylation measurements in blood provide information on epigenetic regulation throughout the body. Moreover, establishment of DNA methylation at human CoRSIVs is labile to periconceptional influences such as nutrition.
View Article and Find Full Text PDFBackground: Genetic variants can modulate phenotypic outcomes via epigenetic intermediates, for example at methylation quantitative trait loci (mQTL). We present the first large-scale assessment of mQTL at human genomic regions selected for interindividual variation in CpG methylation, which we call correlated regions of systemic interindividual variation (CoRSIVs). These can be assayed in blood DNA and do not reflect interindividual variation in cellular composition.
View Article and Find Full Text PDFPAX8 is a key thyroid transcription factor implicated in thyroid gland differentiation and function, and gene methylation is reported to be sensitive to the periconceptional environment. Using a novel recall-by-epigenotype study in Gambian children, we found that hypomethylation at age 2 years is associated with a 21% increase in thyroid volume and an increase in free thyroxine (T4) at 5 to 8 years, the latter equivalent to 8.4% of the normal range.
View Article and Find Full Text PDFBackground: The traditional approach to studying the epigenetic mechanism CpG methylation in tissue samples is to identify regions of concordant differential methylation spanning multiple CpG sites (differentially methylated regions). Variation limited to single or small numbers of CpGs has been assumed to reflect stochastic processes. To test this, we developed software, Cluster-Based analysis of CpG methylation (CluBCpG), and explored variation in read-level CpG methylation patterns in whole genome bisulfite sequencing data.
View Article and Find Full Text PDFDNA methylation regulates cell type-specific gene expression. Here, in a transgenic mouse model, we show that deletion of the gene encoding DNA methyltransferase Dnmt3a in hypothalamic AgRP neurons causes a sedentary phenotype characterized by reduced voluntary exercise and increased adiposity. Whole-genome bisulfite sequencing (WGBS) and transcriptional profiling in neuronal nuclei from the arcuate nucleus of the hypothalamus (ARH) reveal differentially methylated genomic regions and reduced expression of AgRP neuron-associated genes in knockout mice.
View Article and Find Full Text PDFPancreatic islets of type 2 diabetes patients have altered DNA methylation, contributing to islet dysfunction and the onset of type 2 diabetes. The cause of these epigenetic alterations is largely unknown. We set out to test whether (i) islet DNA methylation would change with aging and (ii) early postnatal overnutrition would persistently alter DNA methylation.
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- DNA methylation plays a key role in human phenotypic variation, but its impact has been difficult to measure due to its specificity to different cell types.
- Researchers identified 9,926 genomic regions (CoRSIVs) demonstrating consistent interindividual DNA methylation variation across three germ layer tissues—thyroid, heart, and brain.
- These CoRSIVs are linked to human disease and phenotypes, offering a valuable resource for studying how epigenetic differences may influence individual health risks in the future.
Article Synopsis
- Monozygotic twins are often studied to understand the role of genetics and epigenetics in their phenotypic similarities, which are thought to be mainly due to their identical genetics.
- Recent research shows that monozygotic twins have greater epigenetic similarity than expected, due to specific epigenetic changes happening before the embryo splits, a phenomenon called "epigenetic supersimilarity."
- This epigenetic similarity is linked to environmental factors and is associated with a higher risk of developing certain cancers, suggesting early embryonic epigenetic changes can influence health later in life.
Previous rodent studies have shown that maternal voluntary exercise during pregnancy leads to metabolic changes in adult offspring. We set out to test whether maternal voluntary exercise during pregnancy also induces persistent changes in voluntary physical activity in the offspring. Adult C57BL/6J female mice were randomly assigned to be caged with an unlocked (U) or locked (L) running wheel before and during pregnancy.
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- - The study explores differences in DNA methylation between neurons and glia, highlighting that prior research downplayed the role of CpG methylation and focused on non-CpG methylation instead.
- - The authors reanalyze data and discover significant cell type-specific differences in CpG methylation, with distinct patterns of hypermethylation for neurons and glia.
- - Their findings emphasize the importance of verifying epigenetic research and suggest that CpG methylation is crucial in neuroepigenetics, supporting the mouse model for studying human neurodevelopment and disease.
Extensive human and animal model data show that environmental influences during critical periods of prenatal and early postnatal development can cause persistent alterations in energy balance regulation. Although a potentially important factor in the worldwide obesity epidemic, the fundamental mechanisms underlying such developmental programming of energy balance are poorly understood, limiting our ability to intervene. Most studies of developmental programming of energy balance have focused on persistent alterations in the regulation of energy intake; energy expenditure has been relatively underemphasised.
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- The research investigates how early environmental factors influence epigenetic changes in the embryo, particularly focusing on differentially methylated regions in easily accessible tissues like blood and hair follicles.
- Two methods were used: genome-wide bisulfite sequencing in adults' DNA and assessing PBL methylation differences related to the season of conception in rural Gambia, both revealing the VTRNA2-1 gene as a primary epigenetic responder to environmental changes.
- The findings suggest that the VTRNA2-1 gene, linked to immunity and cancer suppression, experiences stable epigenetic changes due to early environmental conditions, highlighting potential connections between these alterations and human health outcomes.
Article Synopsis
- Maternal diet during the periconceptional period significantly affects DNA methylation in offspring, leading to lasting changes in traits.
- Research in rural Gambia shows how seasonal dietary variations among women impact important plasma biomarkers related to methylation.
- The study indicates that these maternal nutritional differences during early pregnancy cause enduring epigenetic changes in infants, visible in DNA from their lymphocytes and hair follicles.
Prenatal and early postnatal environment can persistently alter one's risk of obesity. Environmental effects on hypothalamic developmental epigenetics constitute a likely mechanism underlying such 'developmental programming' of energy balance regulation. To advance our understanding of these processes, it is essential to develop approaches to disentangle the cellular and regional heterogeneity of hypothalamic developmental epigenetics.
View Article and Find Full Text PDFDecades of research in rodent models has shown that early postnatal overnutrition induces excess adiposity and other components of metabolic syndrome that persist into adulthood. The specific biologic mechanisms explaining the persistence of these effects, however, remain unknown. On postnatal day 1 (P1), mice were fostered in control (C) or small litters (SL).
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