Project description:In this study, we profiled gene expression of maternal brain, fetal brain and placenta at day 15 of pregnancy to investigate global crosstalk of genes between placenta and brain in mice .

Project description:DNA methylation plays crucial roles during fetal development as well as aging. Whether the aging of the brain is programmed at the fetal stage remains untested. To test this hypothesis, mouse epigenetic clock (epiclock) was profiled in fetal (gestation day 15), postnatal (day 5), and aging (week 70) brain of male and female C57BL/6J inbred mice. Data analysis showed that on week 70, the female brain was epigenetically younger than the male brain. Predictive modeling by neural network identified specific methylations in the brain at the developing stages that were predictive of epigenetic state of the brain during aging. Transcriptomic analysis showed coordinated changes in the expression of epiclock genes in the fetal brain relative to the placenta. Whole-genome bisulfite sequencing identified sites that were methylated both in the placenta and fetal brain in a sex-specific manner. Epiclock genes and genes associated with specific signaling pathways, primarily the gonadotropin-releasing hormone receptor (GnRHR) pathway, were associated with the sex-bias methylations in the placenta as well as the fetal brain. Transcriptional crosstalk among the epiclock and GnRHR pathway genes was evident in the placenta that was maintained in the brain during development as well as aging. Collectively, these findings suggest that sex differences in the aging of the brain are of fetal origin and epigenetically linked to the placenta.

Project description:Caveolae are plasma membrane invaginations found in most cells of mammals. Caveolin-1 (Cav1) encodes a major protein of the lipid rafts of these membrane structures. Cav1-null mice, though viable, show various phenotypic defects. At an early adult age, these mice show brain aging that resemble brain of one and half year old wildtype mice, and exhibit symptoms that are hallmarks of Alzheimer’s disease. It is not known if the ablation of Cav1 in these mice impacts the brain at the fetal stage that then influences brain function later in life. RNA-seq was performed to profile gene expression of fetal brain (gestation day 15) and aging brain (week 70) of Cav1 knockout mice. The data was comapred with genes expression data of fetal brain (gestation day 15) and aging brain (week 70) of wildtype mice from our earlier study.

Project description:Caveolae are plasma membrane invaginations found in most cells of mammals. Caveolin-1 (Cav1) encodes a major protein of the lipid rafts of these membrane structures. Cav1-null mice, though viable, show various phenotypic defects. At an early adult age, these mice show brain aging that resemble brain of one and half year old wildtype mice, and exhibit symptoms that are hallmarks of Alzheimer’s disease. It is not known if the ablation of Cav1 in these mice impacts the brain at the fetal stage that then influences brain function later in life. Single nuclei RNA sequencing was performed with fetal brain of wildtype and Cav1 knockout mice. Results showed that specific metabolism genes were differentially expressed bewteen different glial cells.

Project description:Gene expression was studied using PancChip5.0 in 15 tissues. Most tissues were from the adult mouse, except for fetal pancreas (e18.5) and placenta. Adult tissues studied were: adrenal gland, pancreas, brain, heart, kidney, liver, lung, ovary, parotid gland, pituitary gland, small intestine, stomach and testis. All were studied in duplicate except for the pituitary, the liver, and the stomach. All samples were pooled samples. Tissues were taken from 3 males and 3 females, with the exception of the gonadal tissues, and the fetal tissues were sex was not determined.

Project description:This study investigated gene expression of placental cells in a mouse model lacking Caveolin 1 (Cav1). Single-nuclei RNA-seq was performed with day-15 placenta of WT and Cav1-null mice.

Project description:Selective serotonin reuptake inhibitors (SSRIs) are commonly prescribed drugs to pregnant women experiencing depression. While such drugs might be beneficial in combating depression by competitively binding to serotonin transporter (SERT), they can adversely affect the placenta and fetal brain development. Parietal trophoblast giant cells (pTGCs) in the mouse placenta are postulated to internalize maternal serotonin (5-HT) via transport through SERT, encoded by Slc6a4. The placenta provides the initial source of 5-HT to the emerging brain via the placental-brain axis. Disruption of 5-HT acquisition by pTGCs due to genetic deletion of Slc6a4 is hypothesized to impact placental and fetal brain development. A transgenic mouse line with the SERT transporter selectively deleted was created by pairing mice with Cre-recombinase linked to proliferin (Prl2c2) with LoxP sites flanking the Slc6a4 gene. Proliferin is solely expressed by pTGCs and other giant cells of the placenta. To compare placental and fetal brain development in selective Sl6a4 KO and WT mice, 5-HT content in the placenta and fetal brains of the mice was measured. No significant differences in 5-HT content were evident between knockout (KO) and wild-type (WT) placenta and fetal brain. However, there was significantly lower average number of pTGCs in KO placentas compared to WT (p ≤ 0.05). Sexually dimorphic differences in gene expression were evident in the placenta and fetal brain between KO and WT counterparts with female conceptuses showing the most dramatic responses. Findings suggest that ablation of SERT in pTGC disrupts the placenta-brain axis in a sex-dependent manner. These results might have important clinical ramifications for pregnant women being treated with SSRIs.

Project description:We characterized the transcriptome of the wallaby placenta and lactating mammary gland over the course of reproduction

Project description:Transcriptional crosstalk between mammary gland, liver and adipose tissue Keywords: Gene Expression experiment

Project description:Transcriptional crosstalk between mammary gland, liver and adipose tissue Experiment Overall Design: Pregnant and Lactating rats exposed to 3 gravity conditions