Project description:During the peri-partum period, the lung must respond to many factors with potential to impact protein synthesis via regulation of translation initiation. Microarray analysis of polysomal versus total RNA from fetal day (FD) 19, FD22 and postnatal day 1 (P1) rat lungs was used to identify genes whose association with large polysomes changed either pre- or postnatally. Experiment Overall Design: Using three independent litters at each developmental time point, we prepared lysates from FD19, FD22 and P1 (5 h after birth) rat lungs (total 9 lysates). An aliquot of each lysate was used to prepare total RNA. Remaining lysate was subjected to sucrose density gradient centrifugation to isolate large polysomes ( n>7 ribosomes/mRNA) from which we isolated polysomal RNA. Matched total and polysomal RNAs were hybridized to Affymetrix expression arrays (total 18 chips).

Project description:The present study was designed to test the hypothesis that limited growth of the fetal liver in the model of maternal fasting is independent of well-characterized signaling mechanisms that are known to regulate somatic growth in adult animals. We profiled the fetal hepatic transcriptome and translatome in control (n=3) and IUGR (n=3) fetuses. To induce IUGR, pregnant dams were fasted for 48hr starting on E17, term being 21 days. Fetal rats were delivered by C-section and livers were removed. All livers were flash frozen in liquid nitrogen. RNA was extracted from polysomes that were generated using sucrose density fraction, as well as total liver. RNA was hybridized to Affymetrix GeneChip Rat Gene 1.0 ST Arrays.

Project description:Porcine Reproductive and Respiratory Syndrome Virus (PRRSV) infection of 3rd trimester pregnant pigs can result in transmission of the virus to the fetus and ultimately death in utero or postnatally. Little is known about the immune response to infection at the maternal-fetal interface and in the fetus itself, or the molecular events behind virus transmission and disease progression in the fetus. To investigate these processes, RNA-sequencing of two tissues, uterine endothelium adjacent to the umbilical attachment site and fetal thymus, was performed 21 days post challenge on four groups of fetuses selected from a large PRRSV challenge experiment of pregnant gilts. RNA-seq experiment compared gene expression between four different groups of fetuses (n=12 per group): control (CON-uninfected fetuses from mock inoculated gilts), UNINF (uninfected fetuses from PRRSV-inoculated gilts), INF (infected fetuses from PRRSV-inoculated gilts), and meconium-stained fetuses (MEC-meconium-stained fetuses from PRRSV-inoculated gilts) and investigated two tissues: uterine endometrium (with adherent placental tissue) at the site of umbilical attachment and fetal thymus (96 samples in total). Three contrasts were performed for the differential expression (edgeR) and network (WGCNA) analyses: UNINF v CON, INF v UNINF, and MEC v INF.

Project description:We undertook a transcriptome-wide discovery approach to provide information on the involved gene regulatory responses to change in fetal cardiac mass in response to chronic infusion of angiotensin II or losartan. One of each of 8 twin fetus pairs was infused with either angiotensin II or losartan daily for five days in utero. A portion of the left ventricular free wall of treatment and control fetuses was excised, homogenized in a reagent, and then total RNA was then isolated and assayed on the agilent microarray

Project description:The effects of maternal microbiota on the fetal development was investigated by comparing tissues of fetuses from germ-free (GF) and normal (SPF) murine dams using RNA-seq and non-targeted metabolomics (for metabolomics data, see: https://bmcmicrobiol.biomedcentral.com/articles/10.1186/s12866-022-02457-6). For RNA-seq, two E18.5 fetuses were collected from 6 GF dams and 6 SPF dams, and transcriptomes analyzed by QuantSeq in whole intestine, brain and placenta.

Project description:Poor maternal nutrition during pregnancy causes intrauterine growth retardation, which, in turn, is associated with increased risk of cardiovascular and metabolic diseases in later life Fetal hearts were collected from baboon fetuses born to regularly fed and undernurished mothers. Total RNA was isolated, and fetal cardiac miRNA were profiled

Project description:Analysis of embronic day 30.5 (E30.5) fetal rabbit left lung after creation of diapragmatic hernia (DH) at E25 and tracheal occlusion (TO) at E27. The fetuses of timed pregnant New Zealand rabbits were subjected to creation of a left diaphragmatic hernia at E25 with or without tracheal occlusion at E27. At E30.5, the fetuses were sacrificed with collection of the lateral aspect of the left upper lobe for NextGen mRNA sequencing.

Project description:Background The vitamin A derivative, retinoic acid (RA), is a potent teratogenic agent that induces a variety of congenital abnormalities including neural tube defects. The embryopathology of RA has been extensively investigated and retinol receptors play important roles during organogenesis, development and neural tube closure. Still, the mechanisms by which RA influences these processes are not completely understood. Methods We used a custom-made mouse genome 32K oligonucleotide microarray to determine the gene expression profiles of mouse embryo spinal cord samples that had been exposed to vehicle or RA. Then, we performed a GSEA (gene set enrichment analysis) on the gene expression data by searching MSigDB (v2.5) c2 gene sets (canonical pathways) and c5 gene sets (curated GO terms), with set size restraints on the range to avoid over-narrow or over-broad categories. Results Using microarray technology, the present study identifies 85 genes in the spinal cord that exhibit at least a 1.5-fold change between control samples and samples with spina bifida aperta. A gene set enrichment analysis showed that maternal exposure to RA induced spinal bifida that were associated with altered expression of genes involved in pro- or anti-apoptosis, cell proliferation, migration, cytoskeleton components, and cell or focal adhesion, indicating that defective functions of these cell components and biological processes preceded the abnormal development of neural tube. Conclusions Maternal exposure to RA induced spinal bifida that were associated with altered expression of genes involved in pro- or anti-apoptosis, cell proliferation, migration, cytoskeleton components, and cell or focal adhesion. As shown in previous reports, defective functions of these cell components and biological processes preceded the abnormal development of the neural tube. Our study will help the understanding of the etiology and pathology of spinal bifida. However, it should be noted that the changes in gene expression induced by RA exposure may not be an effect on events other than neural tube closure; further study is required to fully understand the molecular mechanisms and consequence of neural tube defects in embryos exposed to RA. Our study provides a global analysis of gene expression patterns in spina bifida and will help the understanding of the etiology and pathology of neural tube defects. We assessed the changes in gene expression that coincide with spina bifida in RA-treated mouse fetuses. After generating an independent list of regulated genes, we analyzed samples by gene set enrichment analysis to expand our results. A pool of spinal cord tissue from spina bifida fetuses whose mothers were exposed to RA was compared to a pool of spinal cord tissue from fetuses whose mothers were exposed to olive oil vehicle. Three replicates each.

Project description:Independent Lewis rat data used to confirm the finding of the main experiment "Protection against Mammary Tumorigenesis in Multiple Rat Strains (experiment E-TABM-197: https://www.ebi.ac.uk/arrayexpress/experiments/E-TABM-197).

Project description:Nephrotoxic nephritis induction in inbred rat strains (Wistar Kyoto and Lewis) and transcription profiling