Project description:Inherent hemispheric asymmetry is significant for cognition, language and other functions. An understanding of normal brain and asymmetry development in the early period will further the knowledge of how different hemispheres prioritize specific functions, which is still unknown. We analysed the developmental changes in and asymmetry of the proteome in the bilateral frontal lobes of three foetal specimens in the late first trimester of pregnancy (9, 11, 13 gestational weeks). We found that during this period, the difference in expression between gestational weeks increased, and the difference in asymmetric expression decreased. The patterns of protein expression changes in the bilateral frontal lobes were different. Our results show that brain asymmetry can be observed in the early stage. Researchers can use these findings to further investigate the mechanisms of brain asymmetry.

Project description:We used a whole genome approach to identify major functional gene categories (including xenobiotic transporters and metabolizing enzymes) whose expression depends on gestational age. STUDY DESIGN: We compared gene expression profiles of 1st (45-59 days) and 2nd trimester (109-115 days), and C-section term placentae. RESULTS: In 1st trimester placentae, genes related to cell cycle, DNA, aminoacids and carbohydrate metabolism were significantly overrepresented, while genes related to signal transduction were downregulated. In the organism defense category, we identified genes involved in chemical response, metabolism, and transport. Analysis of signal transduction pathways suggested, and subsequently confirmed independently, that the Wnt pathway was regulated by gestational age. CONCLUSIONS: Our study will serve as a reference database to gain insight into the regulation of gene expression in the developing placentae and, thus, allow comparisons with placentae from complicated pregnancies such as those in women experiencing gestational diabetes, pre-eclampsia and teratogenic sequelae. Experiment Overall Design: Comparison of plaental gene expression profiles of three gestational stages (1st trimester (45-59 days), 2nd trimester (109-115 days), and C-section term placentae), with four replicates each,

Project description:Gene expression is highly dynamic during fetal development and determines tissue specification and function. In humans, the transcriptional profile of different organs during development has not been systematically studied. However, understanding how a particular tissue acquires its tissue identity will give insight into the development and maturation of tissues from a developmental biology perspective. Next-generation sequencing (DeepSAGE) dataset of 111 RNA samples representing 21 different human fetal organs and the maternal endometrium at three timepoints (gestational ages) during first and second trimester development (W9, W16-18, W22)

Project description:Human first trimester villous cytotrophoblast: 8-10 gestational week vs. 12-14 gestational week

Project description:miRSeq dataset includes 52 human placentas representing samples from three trimesters. 5 first trimester, 7 second trimester and 40 term samples. Term samples consist of 5 groups (n=8 samples in the group) of normal pregnancy, and cases of late-onset preeclampsia (LO-PE), gestational diabetes (GD), small-and large-for-gestational-age newborns (SGA, LGA) at term.

Project description:To characterize the human plasma microtranscriptome profile at first trimester of pregnancy in presence or not of pregnancy complications, we sequenced microRNAs in plasma samples collected from pregnant women between the 4th and the 16th weeks of pregnancy. We then performed differential expression analyses to assess the miRNA profile diffrences according to the presence of pregnancy complications or not (i.e. Gestational diabetes mellitus, Gestational hypertension or preeclampsia vs. normal pregnancies).

Project description:Placental gene expression changes associated with advancing gestational age in weeks or by trimester were identified by differential expression analysis

Project description:Microglia, the myeloid cells of the central nervous system (CNS), are heterogeneous and exhibit distinct stages during mouse development; however, human microglia development is not elucidated. Here, single cell gene expression profiles of 15,782 human microglia and bulk chromatin profiles were assessed in 23 fetuses during development from gestational week (GW) 9 to 18. Microglia are highly heterogeneous at all developmental stages and exhibit transcriptional profiles similar to a phagocytic microglia phenotype associated with disease. Microglia start to mature during this developmental period and increasingly express homeostatic and sensome markers at later gestational stages. Concomitantly, chromatin accessibility increases in microglia from older fetuses with underlying transcriptional networks reminiscent of adult microglia. In conclusion, this work demonstrates that microglia already progress to a more mature, immune-sensing competent phenotype during early human fetal development, which might render microglia vulnerable towards environmental or inflammatory perturbations during early pregnancy.

Project description:To characterize the human plasma microtranscriptome profile at first trimester of pregnancy in presence or not of pregnancy complications, we sequenced microRNAs in plasma samples collected from pregnant women between the 6th and the 15th weeks of pregnancy as a replication cohort. We then performed differential expression analyses to assess the miRNA profile diffrences according to the presence of pregnancy complications or not (i.e. Gestational diabetes mellitus, Gestational hypertension or preeclampsia vs. normal pregnancies).

Project description:To explore the influence of maternal choline intake on placental gene expression, we employed whole genome microarray expression profiling to identify genes that were differentially expressed in placental tissues obtained from women consuming two different doses (480 vs. 930 mg/d) of choline throughout the third trimester of pregnancy. Healthy third trimester (gestational week 26-29) pregnant women were randomized to a 12-week choline controlled feeding study. The participants consumed either 480 (n=6) or 930 (n=6) mg choline/d. Full thickness placental samples were collected at delivery to extract RNA and perform the arrays. Healthy third trimester (gestational week 26-29) pregnant women were randomized to a 12-week choline controlled feeding study. The participants consumed either 480 (n=6) or 930 (n=6) mg choline/d for 12 weeks. Placental samples were obtained at delivery