Project description:Placental Immune alterations in early-onset preeclampsia and late-onset preeclampsia

Project description:Preeclampsia is a severe placenta-related pregnancy disorder that is generally divided into two subtypes named early-onset preeclampsia (onset <34 weeks of gestation), and lateonset preeclampsia (onset ≥34 weeks of gestation), with distinct pathophysiological origins. Both forms of preeclampsia have been associated with maternal systemic inflammation. However, alterations in the placental immune system have been less well characterized. Here, we studied immunological alterations in early- and late-onset preeclampsia placentas using a targeted expression profile approach. RNA was extracted from snap-frozen placenta samples (healthy n=13, early-onset preeclampsia n=13, and late-onset preeclampsia n=6). The expression of 730 immune-related genes from the Pan Cancer Immune Profiling Panel was measured, and the data were analyzed Q10 in the advanced analysis module of nSolver software (NanoString Technology). The results showed that early-onset preeclampsia placentas displayed reduced expression of complement, and toll-like receptor (TLR) associated genes, specifically TLR1 and TLR4. Mast cells and M2 macrophages were also decreased in early-onset preeclampsia compared to healthy pl acentas. The findings were confirmed by an immunohistochemistry approach using 20 healthy, 19 early-onset preeclampsia, and 10 late-onset preeclampsia placentas. We conclude that the placental innate immune system is altered in early-onset preeclampsia compared to uncomplicated pregnancies. The absence of these alterations in late-onset preeclampsia placentas indicates dissimilar immunological profiles. The study revealed distinct pathophysiological processes in earlyonset and late-onset preeclampsia placentas and imply that a tailored treatment to each subtype is desirable.

Project description:Dysregulated Placental Micrornas In Early And Late Onset Preeclampsia

Project description:Background: Early-onset preeclampsia (EOPE) and late-onset preeclampsia (LOPE) has been regarded as two different phenotypes with heterogeneous manifestation. The underlying mechanisms remain elusive. Aim to gain insight into the pathogenesis of the two traits, we analyzed the placental gene expression profiles in preeclampsia placentas. Methods: Whole genome-wide microarray was used to describe the gene expression profiles in the placenta tissues from patients with early-(n=7; <34 weeks), late-onset(n=8; >36 weeks) PE and their controls who delivered preterm (n=5;<34 weeks) or at term(n=5; >36 weeks) Genes were selected as differentially expressed upon a fold-changeâ?¥2 and q-value<0.05. qRT-PCR was undertaken to verify the results. Western blot was further performed to verify secreted genes at the protein level. Results: A total of 627 genes were differentially expressed in early-compared with late-onset PE. Of these, 177 genes were up-regulated and 450 genes down-regulated in early-onset PE. Go analysis showed significant alteration in several biological processes, in addition to the processes which have been found before, such as immune and inflammatory response, cell adhension, female pregnancy and blood vessel development. We also found alteration in G-protein coupled receptor protein signaling pathway, G protein-coupled receptor 124 (GPR124) (P=0.0064) and MAS-related GPR, member F (MRGPRF)(P=0.0155 ) were both down-regulated obviously in early-onset PE. Conclusion: The different gene expression profiles suggested early- and late-onset PE are separate disease entities. Moreover, G-protein coupled receptor protein signaling pathway may contribute to the mechanism underlying early- and late-onset preeclampsia. Whole genome-wide microarray was used to describe the gene expression profiles in the placenta tissues from patients with early-(n=7; <34 weeks), late-onset (n=8; >36 weeks) PE and their controls who delivered preterm(n=5;<34 weeks) or at term(n=5; >36 weeks). Pooled controls who delivered at term were labled with cy5.

Project description:Background: Early-onset preeclampsia (EOPE) and late-onset preeclampsia (LOPE) has been regarded as two different phenotypes with heterogeneous manifestation. The underlying mechanisms remain elusive. Aim to gain insight into the pathogenesis of the two traits, we analyzed the placental gene expression profiles in preeclampsia placentas. Methods: Whole genome-wide microarray was used to describe the gene expression profiles in the placenta tissues from patients with early-(n=7; <34 weeks), late-onset(n=8; >36 weeks) PE and their controls who delivered preterm (n=5;<34 weeks) or at term(n=5; >36 weeks) Genes were selected as differentially expressed upon a fold-change≥2 and q-value<0.05. qRT-PCR was undertaken to verify the results. Western blot was further performed to verify secreted genes at the protein level. Results: A total of 627 genes were differentially expressed in early-compared with late-onset PE. Of these, 177 genes were up-regulated and 450 genes down-regulated in early-onset PE. Go analysis showed significant alteration in several biological processes, in addition to the processes which have been found before, such as immune and inflammatory response, cell adhension, female pregnancy and blood vessel development. We also found alteration in G-protein coupled receptor protein signaling pathway, G protein-coupled receptor 124 (GPR124) (P=0.0064) and MAS-related GPR, member F (MRGPRF)(P=0.0155 ) were both down-regulated obviously in early-onset PE. Conclusion: The different gene expression profiles suggested early- and late-onset PE are separate disease entities. Moreover, G-protein coupled receptor protein signaling pathway may contribute to the mechanism underlying early- and late-onset preeclampsia.

Project description:The placental renin-angiotensin system (RAS) is important for placentation. RAS expression is greatest in early gestation. This may be due (in part) to suppression of miRNAs that target the placental RAS, but this has never been explored. In this study, human placental miRNAs were measured at 10–11 (early), 14–18 (mid), and 38–40 (term) weeks gestation, as well as in placentae from women with early- or late-onset preeclampsia (n=4/group), using an Agilent miRNA microarray (V19). All miRNAs showed a gestational increase and could influence the transgestational profile of the human placental RAS. Additionally, on the array, three miRNAs predicted to target the RAS (miR-892c-3p, miR-378c and miR-514-3p ) were overexpressed in placentae of late-onset preeclamptic women.

Project description:For understanding the relationship of preeclampsia and placental methylation,we performed an epigenome-wide association study in a Chinese cohort containing 22 early-onset preeclampsia patients and 20 normal controls. We used Illumina Infinium HumanMethylation450k BeadChip for detecting the methylation level, and used placental genomic DNA as sample. most of the significant CpG sites were hypomethylated in EOPE in the Chinese cohort.

Project description:Background: A small number of recent reports have suggested that altered placental DNA methylation may be associated with early onset preeclampsia. It is important that further studies be undertaken to confirm and develop these findings. We therefore undertook a systematic analysis of DNA methylation patterns in placental tissue from 24 women with preeclampsia and 24 with uncomplicated pregnancy outcome. Methods: We analyzed the DNA methylation status of approximately 27,000 CpG sites in placental tissues in a massively parallel fashion using an oligonucleotide microarray. Follow up analysis of DNA methylation at specific CpG loci was performed using the Epityper MassArray approach and high-throughput bisulfite sequencing. Results: Preeclampsia-specific DNA methylation changes were identified in placental tissue samples irrespective of gestational age of delivery. In addition, we identified a group of CpG sites within specific gene sequences that were only altered in early onset-preeclampsia (EOPET) although these DNA methylation changes did not correlate with altered mRNA transcription. We found evidence that fetal gender influences DNA methylation at autosomal loci but could find no clear association between DNA methylation and gestational age. Conclusion: Preeclampsia is associated with altered placental DNA methylation. Fetal gender should be carefully considered during the design of future studies in which placental DNA is analyzed at the level of DNA methylation. Further large-scale analyses of preeclampsia-associated DNA methylation are necessary. Bisulphite converted DNA from the 48 samples were hybridized to the Illumina Infinium 27k Human Methylation Beadchip v1.2

Project description:Preeclampsia (PE) is a serious pregnancy associated disorder. Recently, it has been proposed that the role of the placenta differ between the two sub-groups early- and late-onset PE. To further elucidate differences between the two sub-groups, we conducted transcriptional profiling of human placenta comparing early- with late-onset PE. The analysis showed differences in angiogenesis associated genes. Two-condition experiment, early-onset PE (n=8) vs. late-onset PE (n=7).

Project description:Background: A small number of recent reports have suggested that altered placental DNA methylation may be associated with early onset preeclampsia. It is important that further studies be undertaken to confirm and develop these findings. We therefore undertook a systematic analysis of DNA methylation patterns in placental tissue from 24 women with preeclampsia and 24 with uncomplicated pregnancy outcome. Methods: We analyzed the DNA methylation status of approximately 27,000 CpG sites in placental tissues in a massively parallel fashion using an oligonucleotide microarray. Follow up analysis of DNA methylation at specific CpG loci was performed using the Epityper MassArray approach and high-throughput bisulfite sequencing. Results: Preeclampsia-specific DNA methylation changes were identified in placental tissue samples irrespective of gestational age of delivery. In addition, we identified a group of CpG sites within specific gene sequences that were only altered in early onset-preeclampsia (EOPET) although these DNA methylation changes did not correlate with altered mRNA transcription. We found evidence that fetal gender influences DNA methylation at autosomal loci but could find no clear association between DNA methylation and gestational age. Conclusion: Preeclampsia is associated with altered placental DNA methylation. Fetal gender should be carefully considered during the design of future studies in which placental DNA is analyzed at the level of DNA methylation. Further large-scale analyses of preeclampsia-associated DNA methylation are necessary.