Low paternal dietary folate alters the mouse sperm epigenome and is associated with negative pregnancy outcomes

Lambrot, Romain; Xu, Cheng‐Jian; Saint-Phar, Shawna; Chountalos, George; Cohen, Tamara; Paquet, Marilène; Suderman, Matthew; Hallett, Michael; Kimmins, Sarah

doi:10.1038/ncomms3889

Cited by 369 publications

(338 citation statements)

References 69 publications

(78 reference statements)

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“…17 A diet poor in folate induced DNA methylation changes in the sperm and alterations of gene expression in the placenta. 47 Using odor-induced fear conditioning in male mice, it was found that offspring also had enhanced sensitivity to the same odor, which was associated with hypomethylation at a specific olfactory receptor gene 48 . Induction of a pre-diabetic state in fathers (feeding a high fat diet in combination with streptozotocin injection) altered pancreatic gene expression pattern in male offspring.…”

Section: Discussionmentioning

confidence: 99%

Effect of high fat diet on paternal sperm histone distribution and male offspring liver gene expression

et al. 2015

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Several studies have described phenotypic changes in the offspring of mice exposed to a variety of environmental factors, including diet, toxins, and stress; however, the molecular pathways involved in these changes remain unclear. Using a high fat diet (HFD)-induced obesity mouse model, we examined liver gene expression in male offspring and analyzed chromatin of paternal spermatozoa. We found that the hepatic mRNA level of 7 genes (out of 20 evaluated) was significantly altered in HFD male offspring compared to control mice, suggesting that phenotypic changes in the offspring depend on parental diet. We examined 7 imprinted loci in spermatozoa DNA from HFD-treated and control fathers by bisulfite sequencing, but did not detect changes in DNA methylation associated with HFD. Using chromatin immunoprecipitation followed by high-throughput sequencing, we found differential histone H3-occupancy at genes involved in the regulation of embryogenesis and differential H3K4me1-enrichment at transcription regulatory genes in HFD fathers vs. control mice. These results suggest that dietary exposure can modulate histone composition at regulatory genes implicated in developmental processes.

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Section: Discussionmentioning

confidence: 99%

Effect of high fat diet on paternal sperm histone distribution and male offspring liver gene expression

et al. 2015

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“…Posttranslational histone modifications, DNA methylation patterns, and populations of small noncoding RNAs in sperm have been implicated in the transgenerational transmission of paternal experience, with changes in these epigenetic marks observed following male exposure to such diverse stimuli as stress, malnutrition, and drugs of abuse (11)(12)(13)(14)(15)(16)(17)(18)(19)(20)(21). In particular, the role of sperm RNA as a mechanistic link between paternal experience and its consequences on offspring behavior and physiology has been emphasized by recent studies that characterize offspring phenotypes following in vitro fertilization and/or the experimental manipulation of total sperm RNA content (12,20).…”

Section: Discussionmentioning

confidence: 99%

“…Rodent models examining paternal transmission have identified epigenetic signatures in mature sperm as possible substrates of transgenerational programming, namely patterns of retained histone modifications, DNA methylation, and/or populations of small noncoding RNAs (11)(12)(13)(14)(15)(16)(17)(18)(19)(20)(21). RNA populations are of primary interest, as they may be altered through intercellular communication via epididymosomes even in transcriptionally inert mature sperm, where DNA condensation impedes other epigenetic change (22)(23)(24).…”

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confidence: 99%

Transgenerational epigenetic programming via sperm microRNA recapitulates effects of paternal stress

Rodgers

Morgan

Leu

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

601

512

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Epigenetic signatures in germ cells, capable of both responding to the parental environment and shaping offspring neurodevelopment, are uniquely positioned to mediate transgenerational outcomes. However, molecular mechanisms by which these marks may communicate experience-dependent information across generations are currently unknown. In our model of chronic paternal stress, we previously identified nine microRNAs (miRs) that were increased in the sperm of stressed sires and associated with reduced hypothalamic-pituitaryadrenal (HPA) stress axis reactivity in offspring. In the current study, we rigorously examine the hypothesis that these sperm miRs function postfertilization to alter offspring stress responsivity and, using zygote microinjection of the nine specific miRs, demonstrated a remarkable recapitulation of the offspring stress dysregulation phenotype. Further, we associated long-term reprogramming of the hypothalamic transcriptome with HPA axis dysfunction, noting a marked decreased in the expression of extracellular matrix and collagen gene sets that may reflect an underlying change in blood-brain barrier permeability. We conclude by investigating the developmental impact of sperm miRs in early zygotes with single-cell amplification technology, identifying the targeted degradation of stored maternal mRNA transcripts including sirtuin 1 and ubiquitin protein ligase E3a, two genes with established function in chromatin remodeling, and this potent regulatory function of miRs postfertilization likely initiates a cascade of molecular events that eventually alters stress reactivity. Overall, these findings demonstrate a clear mechanistic role for sperm miRs in the transgenerational transmission of paternal lifetime experiences.transgenerational | epigenetic | stress | microRNA | paternal

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“…4,[6][7][8][9][10][11][12][13] It is also increasingly becoming apparent that the environmental state of both the mother and father can underpin later diseases in offspring, even those who appear healthy at birth. [14][15][16][17][18][19][20][21][22][23][24][25][26] Such intrinsic and extrinsic factors in animal models and humans include exposure to endocrine disrupting chemicals, such as bisphenol A, phthalates, heavy metals, stress, obesity, high fat/ high caloric diets, metabolic status and starvation conditions to provide a few examples. It is also clear that in general, males may be at greater risk for later disorders, including those of the cardiovascular and neurological systems, than females.…”

Section: Introductionmentioning

confidence: 99%

Homage to the ‘H’ in developmental origins of health and disease

Rosenfeld

2016

J Dev Orig Health Dis

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Abundant evidence exists linking maternal and paternal environments from pericopconception through the postnatal period to later risk to offspring diseases. This concept was first articulated by the late Sir David Barker and as such coined the Barker Hypothesis. The term was then mutated to Fetal Origins of Adult Disease and finally broadened to developmental origins of adult health and disease (DOHaD) in recognition that the perinatal environment can shape both health and disease in resulting offspring. Developmental exposure to various factors, including stress, obesity, caloric-rich diets and environmental chemicals can lead to detrimental offspring health outcomes. However, less attention has been paid to date on measures that parents can take to promote the long-term health of their offspring. In essence, have we neglected to consider the ‘H’ in DOHaD? It is the ‘H’ component that should be of primary concern to expecting mothers and fathers and those seeking to have children. While it may not be possible to eliminate exposure to all pernicious factors, prevention/remediation strategies may tip the scale to health rather than disease. By understanding disruptive DOHaD mechanisms, it may also illuminate behavioral modifications that parents can adapt before fertilization and throughout the neonatal period to promote the lifelong health of their male and female offspring. Three possibilities will be explored in the current review: parental exercise, probiotic supplementation and breastfeeding in the case of mothers. The ‘H’ paradigm should be the focus going forward as a healthy start can indeed last a lifetime.

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Low paternal dietary folate alters the mouse sperm epigenome and is associated with negative pregnancy outcomes

Cited by 369 publications

References 69 publications

Effect of high fat diet on paternal sperm histone distribution and male offspring liver gene expression

Effect of high fat diet on paternal sperm histone distribution and male offspring liver gene expression

Transgenerational epigenetic programming via sperm microRNA recapitulates effects of paternal stress

Homage to the ‘H’ in developmental origins of health and disease

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