DNA methylation profiling of human placentas reveals promoter hypomethylation of multiple genes in early-onset preeclampsia

Yuen, Ryan K. C.; Peñaherrera, Maria S.; Dadelszen, Peter von; McFadden, Deborah E.; Robinson, Wendy P.

doi:10.1038/ejhg.2010.63

Cited by 188 publications

(170 citation statements)

References 45 publications

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“…Fetal DNA is hypomethylated, and because TLR9 senses hypomethylated DNA normally found in abundance in microbial DNA, we hypothesized that it might sense fetal DNA and provoke an inflammatory reaction possibly leading to PTB (21). In this study, we report that human fetal DNA can indeed activate TLR9 in vitro.…”

mentioning

confidence: 67%

TLR9 Provokes Inflammation in Response to Fetal DNA: Mechanism for Fetal Loss in Preterm Birth and Preeclampsia

Scharfe-Nugent

Corr

Carpenter

et al. 2012

The Journal of Immunology

151

173

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Preterm birth, the major cause of neonatal mortality in developed countries, is associated with intrauterine infections and inflammation, although the exact mechanisms underlying this event are unclear. In this study, we show that circulating fetal DNA, which is elevated in pregnancies complicated by preterm labor or preeclampsia, triggers an inflammatory reaction that results in spontaneous preterm birth. Fetal DNA activates NF-κB, shown by IκBα degradation in human PBMCs resulting in production of proinflammatory IL-6. We show that fetal resorption and preterm birth are rapidly induced in mice after i.p. injection of CpG or fetal DNA (300 μg/dam) on gestational day 10–14. In contrast, TLR9−/− mice were protected from these effects. Furthermore, this effect was blocked by oral administration of the TLR9 inhibitor chloroquine. Our data therefore provide a novel mechanism for preterm birth and preeclampsia, highlighting TLR9 as a potential therapeutic target for these common disorders of pregnancy.

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mentioning

confidence: 67%

TLR9 Provokes Inflammation in Response to Fetal DNA: Mechanism for Fetal Loss in Preterm Birth and Preeclampsia

Scharfe-Nugent

Corr

Carpenter

et al. 2012

The Journal of Immunology

151

173

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“…29 The parent-of-origin imprinting of many genes in placenta is likely to play key roles in various aspects of placental function, including trophoblast cell proliferation, differentiation, angiogenesis and transportation of nutrients. [30][31][32] Deletion of H19 gene and the H19/Igf2-imprinting control region (also known as H19 DMD) leads to increased levels of Igf2 and fetal overgrowth as well as hyperplasia of all layers in the placenta. 33 It has long been suggested that the increase in placenta weight in these knockout mice results from the doubling of all Igf2 transcripts.…”

Section: Discussionmentioning

confidence: 99%

The imprinted H19 gene regulates human placental trophoblast cell proliferation via encoding miR-675 that targets Nodal Modulator 1 (NOMO1)

et al. 2012

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“…It has also been shown previously that the methylation pattern of many genes differ between placentas from women with PE compared to controls. 36 In addition to ACOX2, we identified nine other genes whose transcription levels were correlated to both PE status and lipid levels ( Table 2). Even though these show lower statistical significance compared with ACOX2, we cannot exclude any of these genes from being as important in relation to developing both PE and CVD.…”

Section: Discussionmentioning

confidence: 99%

Identification of ACOX2 as a shared genetic risk factor for preeclampsia and cardiovascular disease

et al. 2011

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Preeclampsia (PE) is a serious complication of pregnancy, which is highly correlated with later life cardiovascular disease (CVD). Many risk factors are common for both diseases, but the contribution of shared genes remains to be determined. In this study, we used an integrative strategy to assess lipid traits as risk factors for PE and CVD by whole genome transcriptional profiling performed on Norwegian decidua basalis tissues (N¼95) from preeclamptic and normal pregnancies and on blood lymphocytes (N¼1240) from the San Antonio Family Heart Study (SAFHS). Among 222 genes that were differentially expressed (false discovery rate (FDR) P-value o0.05) between the PE, cases and controls, we found one gene, ACOX2 (acyl-coenzyme A oxidase 2, branched chain), that was downregulated in PE whose transcription was also inversely correlated with triglyceride levels (P¼5.6Â10 À7 ; FDR P-value¼0.0002) in SAFHS. We further report associations between SNPs in the ACOX2 gene and the transcription level (P-value¼0.0045) of the gene, as well as with triglyceride levels (P-value¼0.0051). ACOX2 is involved in bile acid production, a process that has been associated with both oxidative stress and regulation of triglyceride levels. Oxidative stress and increased triglyceride levels are known risk factors for CVD and both have also been associated with PE. Our results suggest that downregulation of ACOX2 is a shared risk factor for PE and CVD.

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DNA methylation profiling of human placentas reveals promoter hypomethylation of multiple genes in early-onset preeclampsia

Cited by 188 publications

References 45 publications

TLR9 Provokes Inflammation in Response to Fetal DNA: Mechanism for Fetal Loss in Preterm Birth and Preeclampsia

TLR9 Provokes Inflammation in Response to Fetal DNA: Mechanism for Fetal Loss in Preterm Birth and Preeclampsia

The imprinted H19 gene regulates human placental trophoblast cell proliferation via encoding miR-675 that targets Nodal Modulator 1 (NOMO1)

Identification of ACOX2 as a shared genetic risk factor for preeclampsia and cardiovascular disease

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