Project description:After a brief period of stabilization, recent data have shown that the prevalence of asthma and allergic diseases continues to increase. Atopic diseases are major public health problems resulting in significant disability and resource use globally. Although environmental factors influence the development of atopic disease, dietary changes might partially explain the high burden of atopic disease. Potential mechanisms through which diet is suspected to effect asthma and allergy susceptibility are through epigenetic changes, including DNA methylation. Dietary methyl donors are important in the one-carbon metabolic pathway that is essential for DNA methylation. Findings from both observational studies and interventional trials of dietary methyl donor supplementation on the development and treatment of asthma and allergy have produced mixed results. Although issues related to the differences in study design partially explain the heterogeneous results, 2 other issues have been largely overlooked in these studies. First, these nutrients affect one of many pathways and occur in many of the same foods. Second, it is now becoming clear that the human intestinal microbiome is involved in the metabolism and production of the B vitamins and other methyl donor nutrients. Future studies will need to account for both the interrelationships between these nutrients and the effects of the microbiome.

Project description:Dietary intake of methyl donors, such as folic acid and methionine, shows considerable intra-individual variation in human populations. While it is recognized that maternal departures from the optimum of dietary methyl donor intake can increase the risk for mental health issues and neurological disorders in offspring, it has not been explored whether paternal dietary methyl donor intake influences behavioral and cognitive functions in the next generation. Here, we report that elevated paternal dietary methyl donor intake in a mouse model, transiently applied prior to mating, resulted in offspring animals (methyl donor-rich diet (MD) F1 mice) with deficits in hippocampus-dependent learning and memory, impaired hippocampal synaptic plasticity and reduced hippocampal theta oscillations. Gene expression analyses revealed altered expression of the methionine adenosyltransferase Mat2a and BK channel subunit Kcnmb2, which was associated with changes in Kcnmb2 promoter methylation in MD F1 mice. Hippocampal overexpression of Kcnmb2 in MD F1 mice ameliorated altered spatial learning and memory, supporting a role of this BK channel subunit in the MD F1 behavioral phenotype. Behavioral and gene expression changes did not extend into the F2 offspring generation. Together, our data indicate that paternal dietary factors influence cognitive and neural functions in the offspring generation.

Project description:BALB/c male mice were maintained for 8 weeks on a synthetic diet lacking in choline and folic acid and sacrificed 0, 2 and 6 weeks after the end of dietary restrictions. The design of this study is further described in Voutounou, M., C .D. Glen, and Y. E. 2012. The effects of methyl-donor deficiency on mutation induction and transgenerational instability in mice. Mutat. Res. 734(1):1-4 (PMID: 22569175) The pattern of gene expression in liver and kidney of mice sacrificed immediatelly after the end of dietary restrictions is significatly altered. A ten 12x135K chip study using total RNA extracted from kidney and liver of control and treated BALB/c male mice. The expression of 42,575 genes was measured with two-fold technical redundancy.

Project description:BALB/c male mice were maintained for 8 weeks on a synthetic diet lacking in choline and folic acid and sacrificed 0, 2 and 6 weeks after the end of dietary restrictions. The design of this study is further described in Voutounou, M., C .D. Glen, and Y. E. 2012. The effects of methyl-donor deficiency on mutation induction and transgenerational instability in mice. Mutat. Res. 734(1):1-4 (PMID: 22569175) The pattern of gene expression in liver and kidney of mice sacrificed immediatelly after the end of dietary restrictions is significatly altered.

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:IntroductionPaternal low-protein diet can alter sperm methylation status, fetal growth and program offspring ill-health, however its impact on the placenta remains poorly defined. Here we examine the influence paternal low-protein diet has on fetal and placental development and the additional impact of supplementary methyl-donors on fetoplacental physiology.MethodsMale C57BL/6J mice were fed a control normal protein diet (NPD; 18% protein), a low-protein diet (LPD; 9% protein) or LPD with methyl-donor supplementation (MD-LPD; choline chloride, betaine, methionine, folic acid, vitamin B12) for a minimum of 8 weeks. Males were mated with 8-11 week old female C57BL/6J mice and fetal and placental tissue collected on embryonic day 17.5.ResultsPaternal LPD was associated with increased fetal weights compared to NPD and MD-LPD with 22% fetuses being above the 90th centile for fetal weight. However, LPD and MD-LPD placental weights were reduced when compared to NPD. Placentas from LPD fathers demonstrated a reduced junctional zone area and reduced free-fatty acid content. MD-LPD placentas did not mirror these finding, demonstrating an increased chorion area, a reduction in junctional-specific glycogen staining and reduced placental Dnmt3bexpression, none of which were apparent in either NPD or LPD placentas.DiscussionA sub-optimal paternal diet can influence fetal growth and placental development, and dietary methyl-donor supplementation alters placental morphology and gene expression differentially to that observed with LPD alone. Understanding how paternal diet and micro-nutrient supplementation influence placental development is crucial for determining connections between paternal well-being and future offspring health.

Project description:BALB/c male mice were maintained for 8 weeks on a synthetic diet lacking in choline and folic acid and mated with control females. Tissue samples were taken from eigth-week old male offspring of control and treated males. The design of this study is further described in Voutounou, M., C .D. Glen, and Y. E. 2012. The effects of methyl-donor deficiency on mutation induction and transgenerational instability in mice. Mutat. Res. 734(1):1-4 (PMID: 22569175) The pattern of gene expression in liver and kidney of mice sacrificed immediatelly after the end of dietary restrictions is significatly altered. A ten 12x135K chip study using total RNA extracted from kidney and liver of control and treated BALB/c male mice. The expression of 42,575 genes was measured with two-fold technical redundancy.

Project description:BALB/c and CBA/Ca male mice were maintained for 8 weeks on a synthetic diet lacking in choline and folic acid and sacrificed after the end of dietary restrictions. The design of this study is further described in Voutounou, M., C .D. Glen, and Y. E. 2012. The effects of methyl-donor deficiency on mutation induction and transgenerational instability in mice. Mutat. Res. 734(1):1-4 (PMID: 22569175) The pattern of gene expression in spleen of mice sacrificed immediatelly after the end of dietary restrictions is not significatly altered. A six 12x135K chip study using total RNA extracted from kidney and liver of control and treated BALB/c male mice. The expression of 42,575 genes was measured with two-fold technical redundancy.

Project description:CBA/Ca male mice were maintained for 8 weeks on a synthetic diet lacking in choline and folic acid and sacrificed 0 and 2 weeks after the end of dietary restrictions. The design of this study is further described in Voutounou, M., C .D. Glen, and Y. E. 2012. The effects of methyl-donor deficiency on mutation induction and transgenerational instability in mice. Mutat. Res. 734(1):1-4 (PMID: 22569175) The pattern of gene expression in liver of mice sacrificed immediatelly after the end of dietary restrictions is significatly altered. A ten 12x135K chip study using total RNA extracted from kidney and liver of control and treated BALB/c male mice. The expression of 42,575 genes was measured with two-fold technical redundancy.

Project description:CBA/Ca male mice were maintained for 8 weeks on a synthetic diet lacking in choline and folic acid and sacrificed 0 and 2 weeks after the end of dietary restrictions. The design of this study is further described in Voutounou, M., C .D. Glen, and Y. E. 2012. The effects of methyl-donor deficiency on mutation induction and transgenerational instability in mice. Mutat. Res. 734(1):1-4 (PMID: 22569175) The pattern of gene expression in liver of mice sacrificed immediatelly after the end of dietary restrictions is significatly altered.