Andreas Diplas

Publications (4)14.76 Total impact

• Article: Differential methylation of imprinted genes in growth-restricted placentas.

  Luca Lambertini, Tin-Lap Lee, Wai-Yee Chan, Men-Jean Lee, Andreas Diplas, James Wetmur, Jia Chen
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  ABSTRACT: A complex network of epigenetic factors participates in regulating the monoallelic expression of a small subset of genes (~1%) in the human genome. This phenomenon goes under the definition of genomic imprinting, a parent-of-origin effect that, when altered during early embryogenesis, may influence fetal development into adulthood. Pertubations in genomic imprinting have been associated with placental and fetal growth restrictions. We analyzed the differential DNA methylation of all known imprinted genes on 10 appropriate-for-gestational-age, clinically normal, placentas and 7 severe intrauterine growth-restricted placentas. Samples were pooled according to the diagnosis and analyzed by methylated DNA immunoprecipitation (MeDIP) on a tiling microarray platform. The distribution of the differentially methylated regions (DMRs) identified in growth-restricted placentas showed a slight tendency toward hypermethylation. Imprinted genes not expressed in placenta showed a unique DMR profile with the fewest hyper- and hypomethylated DMRs. Promoter and CpG island DMRs were sporadic and randomly distributed. The vast majority of DMR identified (~99%) were mapped in introns, showing no common sequence features. Also, by using the more advanced array data mining softwares, no significant patterns emerged. In contrast, differential methylation showed a highly significant correlation with gene length. Overall these data suggest that differential methylation changes in growth-restricted placentas occur throughout the genomic regions, encompassing genes actively expressed in the placenta. These findings warrant caution in interpreting the significance of genes carrying clustered DMRs because the distribution of DMRs in a gene may be attributed as a function of its length rather than as a specific biological role.
  Reproductive sciences (Thousand Oaks, Calif.) 06/2011; 18(11):1111-7. · 2.31 Impact Factor
• Article: Genomic loss of imprinting in first-trimester human placenta.

  Yevgeniya Pozharny, Luca Lambertini, Yula Ma, Lauren Ferrara, Christian G Litton, Andreas Diplas, Adam R Jacobs, Jia Chen, Joanne L Stone, James Wetmur, Men-Jean Lee
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  ABSTRACT: The purpose of this study was to investigate imprinting patterns in first-trimester human placentas. Using samples of 17 first-trimester and 14 term placentas from uncomplicated pregnancies, we assessed loss of imprinting (LOI) at the RNA level in a panel of 14 genes that are known to be imprinted in the placenta with the use of a quantitative allele-specific reverse transcriptase polymerase chain reaction analysis of those genes that contained readout single nucleotide polymorphisms in their transcripts. There is significant LOI (ie, biallelic expression) in all 14 genes in first-trimester placentas. LOI was more variable and generally at lower levels at term. Although there is little difference in gene expression, the level of LOI is higher in the first-trimester placentas, compared with term placentas. Genomic imprinting appears to be a dynamic maturational process across gestation in human placenta. In contrast with prevailing theories, epigenetic imprints may continue to evolve past 12 weeks of gestation.
  American journal of obstetrics and gynecology 04/2010; 202(4):391.e1-8. · 3.28 Impact Factor
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  Available from: eurekah.com

  Article: Differential expression of imprinted genes in normal and IUGR human placentas.

  Andreas I Diplas, Luca Lambertini, Men-Jean Lee, Rhoda Sperling, Yin Leng Lee, James Wetmur, Jia Chen
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  ABSTRACT: Genomic imprinting refers to silencing of one parental allele in the zygotes of gametes depending upon the parent of origin. Loss of imprinting (LOI) is the gain of function from the silent allele that can have a maximum effect of doubling the gene dosage. LOI may play a significant role in the etiology of intrauterine growth restriction (IUGR). Using placental tissue from ten normal and seven IUGR pregnancies, we conducted a systematic survey of the expression of a panel of 74 "putatively" imprinted genes using quantitative RT-PCR. We found that 52/74 ( approximately 70%) of the genes were expressed in human placentas. Nine of the 52 (17%) expressed genes were significantly differentially expressed between normal and IUGR placentas; five were upregulated (PHLDA2, ILK2, NNAT, CCDC86, PEG10) and four downregulated (PLAGL1, DHCR24, ZNF331, CDKAL1). We also assessed LOI profile of 14 imprinted genes in 14 normal and 24 IUGR placentas using a functional and sensitive assay developed in our laboratory. Little LOI was observed in any placentas for five of the genes (PEG10, PHLDA2, MEG3, EPS15, CD44). With the 149 heterozygosities examined, 40 (26.8%) exhibited LOI >3%. Some genes exhibited frequent LOI in placentas regardless of the disease status (IGF2, TP73, MEST, SLC22A18, PEG3), while others exhibited LOI only in IUGR placentas (PLAGL1, DLK1, H19, SNRPN). Importantly, there was no correlation between gene expression and LOI profile. Our study suggests that genomic imprinting may play a role in IUGR pathogenesis, but mechanisms other than LOI may contribute to dysregulation of imprinted genes.
  Epigenetics: official journal of the DNA Methylation Society 05/2009; 4(4):235-40. · 4.58 Impact Factor
• Article: A sensitive functional assay reveals frequent loss of genomic imprinting in human placenta.

  Luca Lambertini, Andreas I Diplas, Men-Jean Lee, Rhoda Sperling, Jia Chen, James Wetmur
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  ABSTRACT: Loss of imprinting (LOI) is the gain of expression from the silent allele of an imprinted gene normally expressed from only one parental copy. LOI has been associated with neurodevelopmental disorders and reproductive abnormalities. The mechanisms of imprinting are varied, with DNA methylation representing only one. We have developed a functional transcriptional assay for LOI that is not limited to a single mechanism of imprinting. The method employs allele-specific PCR analysis of RT-PCR products containing common readout polymorphisms. With this method, we are able to measure LOI at the sensitivity of 1%. The method has been applied to measurement of LOI in human placentas. We found that RNA was stable in placentas stored for more than one hour at 4 degrees C following delivery. We analyzed a test panel of 26 genes known to be imprinted in the human genome. We found that 18 genes were expressed in placenta. Fourteen of the 18 expressed genes contained common readout polymorphisms in the transcripts with a minor allele frequency >20%. We found that 5 of the 14 genes were not imprinted in placenta. Using the remaining nine genes, we examined 93 heterozygosities in 27 samples. The range of LOI was 0%-96%. Among the 93 heterozygosities, we found 23 examples (25%) had LOI >3% and eight examples (9%) had LOI 1-3%. Our results indicate that LOI is common in human placentas. Because LOI in placenta is common, it may be an important new biomarker for influences on prenatal epigenetics.
  Epigenetics: official journal of the DNA Methylation Society 09/2008; 3(5):261-9. · 4.58 Impact Factor