How imprinting centres work

Lewis, Annabelle; Reik, Wolf

doi:10.1159/000090818

Cited by 183 publications

(142 citation statements)

References 163 publications

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“…37 The differential gene expression is regulated by a short DNA sequence, the imprinting center region, which shows differential methylation. 38 Deletion of the imprinting center causes disruption of the parent-specific gene expression pattern. These critical sequences acquire de novo CG methylation in the parental germ line, according to the sex of the parent.…”

Section: Resultsmentioning

confidence: 99%

“…Using bisulfite sequencing, we examined CG methylation at 7 known Imprinting Control Regions (ICRs) that show complete CG methylation in sperm or are excluded from CG methylation in sperm. 38 The ICR upstream of the H19 gene (which encodes a long non-coding RNA) controls the expression of H19 and insulin like growth factor 2 (Igf2) genes. The H19 ICR is highly methylated in sperm DNA and hypomethylated in oocytes, whereas embryonic stem (ES) cells, carrying a maternal (hypomethylated) and a paternal (methylated) copy, display intermediate methylation (Fig.…”

Section: Resultsmentioning

confidence: 99%

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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: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

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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“…Almost all known imprinted genes occur in clusters with one or more reciprocally imprinted genes (reviewed in [22]). The mouse Igf2 gene lies on the distal region of chromosome 7 with the oppositely imprinted, non-coding gene H19.…”

Section: Epigenetic Regulation Of Igf2mentioning

confidence: 99%

IGF2: Epigenetic regulation and role in development and disease

Chao

D'Amore

2008

Cytokine & Growth Factor Reviews

265

220

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Insulin-like growth factor II (IGF2) is perhaps the most intricately regulated of all growth factors characterized to date. Its gene is imprinted-only one allele is active, depending on parental origin -and this pattern of expression is maintained epigenetically in almost all tissues. IGF2 activity is further controlled through differential expression of receptors and IGF-binding proteins (IGFBPs) that determine protein availability. This complex and multifaceted regulation emphasizes the importance of accurate IGF2 expression and activity. This review will examine the regulation of the IGF2 gene and what it has revealed about the phenomenon of imprinting, which is frequently disrupted in cancer. IGF2 protein function will be discussed, along with diseases that involve IGF2 overexpression. Roles for IGF2 in sonic hedgehog (Shh) signaling and angiogenesis will also be explored.

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“…Imprinted genes are those that exhibit expression bias of one parental allele over the other (Tilghman 1999). Imprinted genes are typically found in discrete genomic clusters (Lewis and Reik 2006). The two parental alleles in these regions are distinguished by differential distribution of epigenetic marks such as DNA methylation and histone modifications (Monk et al 1987;Reik et al 1987;Sanford et al 1987;Sapienza et al 1987;Swain et al 1987).…”

Section: Introductionmentioning

confidence: 99%

Changes in cell cycle and extracellular matrix gene expression during placental development in deer mouse (Peromyscus) hybrids

Duselis

Obergfell

Mack

et al. 2007

Reprod. Fertil. Dev.

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Abstract.Crosses between two species of the rodent genus Peromyscus produce defects in both growth and development. The defects are pronounced in the hybrid placentas. Peromyscuys maniculatus (strain BW) females mated to P. polionotus (strain PO) males produce placentas half the size of the parental species, as well as growth-retarded embryos. In contrast, PO females mated to BW males result in defective conceptuses that display embryonic and placental overgrowth. These 'parent-of-origin'-dependent phenotypes are consistent with previous studies that demonstrated altered expression of imprinted genes and genetic linkage of the overgrowth phenotypes to imprinted domains. In the present study, we take a broader approach in assessing perturbations in hybrid placental gene expression through the use of Mus musculus cDNA microarrays. In verifying classes of genes identified in microarray screens differentially regulated during hybrid placental development, we focused on those influencing the cell cycle and extracellular matrix (ECM). Our work suggests that cell cycle regulators at the G 1 /S phase check-point are downregulated in the large hybrid placenta, whereas the small hybrid placenta is more variable. The ECM genes are typically downstream targets of cell cycle regulation and their misregulation is consistent with many of the dysmorphic phenotypes. Thus, these data suggest imbalances in proliferation and differentiation in hybrid placentation.

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How imprinting centres work

Cited by 183 publications

References 163 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

IGF2: Epigenetic regulation and role in development and disease

Changes in cell cycle and extracellular matrix gene expression during placental development in deer mouse (Peromyscus) hybrids

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