Project description:Maternal diabetes causes congenital malformations in various organs in fetuses. This study was aimed to investigate the differential gene expression profiling in developing brains of embryos from diabetic mice. Keywords: disease state analysis

Project description:Nephron endowment is a key determinant of later life hypertension and kidney disease. Here we studied whether epigenetic changes, specifically the ten–eleven translocation (Tet) DNA demethylase family, Tet1, Tet2, and Tet3-mediated active DNA hydroxymethylation is necessary for gene expression regulation and kidney differentiation. We generated mice with deletion of Tet1, Tet2 or Tet3 in Six2 positive nephron progenitors (NP). We did not observe changes in development or kidney function in mice with nephron progenitor-specific deletion of Tet1, Tet2, Tet3 or Tet1/Tet2 or Tet1/Tet3. On the other hand, mice with combined Tet2 and Tet3 loss in Six2-positive NPCs failed to form nephrons leading to kidney failure and perinatal death. Tet2 and Tet3 loss in Six2-positive NPs resulted in defect in mesenchymal to epithelial transition and renal vesicle differentiation. Whole genome bisulfite sequencing, single cell RNA sequencing, and gene and protein expression assay identified a defect in expression in genes in the WNT-β-catenin signaling pathway in absence of Tet2 and Tet3 due to a failure in demethylation of these loci. Our results indicate the key role of Tet2 and Tet3-mediated active cytosine hydroxymethylation in NPs in kidney development and nephron endowment.

Project description:Maternal diabetes causes congenital malformations in various organs in fetuses. This study was aimed to investigate the differential gene expression profiling in developing brains of embryos from diabetic mice. Experiment Overall Design: Totally six samples were used. Three brains of the embryos from control normal mice was hybridized on three chips separately. And three malformed brains of the embryos from experimental diabetic mice was hybridized on three chips separately.

Project description:We analysed the combined effects of exposure to maternal diabetes and disrupted HIF-1 signaling on the transcriptom in cardiac left ventricles of 12 weeks old male mice. This approach provides the information about the long term changes originating in utero due to maternal diabetes and inefficient response to hypoxia which develops as a result of hyperglycemia. The majority of changes were detected in Hif1a insufficient mice exposed to maternal diabetes.

Project description:A large number of rodent studies have supported the developmental origins of health and disease (DOHaD) hypothesis that interauterine undernutrition (IU) is a risk factor for non-communicable diseases. The effect of IU is considered to be induced thorough epigenetic programming in the fetal tissues. We have recently carried out global transcriptome expression and promoter DNA methylation analyses on the fetal mouse liver following maternal 50% food restriction (FR) during late gestation, and reported a list of fetal liver genes that were transcriptionally or epigenetically regulated by IU (Ogawa et al., 2014, Congenital Anomalies). We have already reported the genes that were regulated oppositely between maternal and fetal livers (Ogawa et al., 2014, Congenital Anomalies). Here, we considered that the fetal liver is a hematopoietic organ, and exposed nine-week-old male mice (C57BL/6J from Japan SLC, Hamamatsu, Japan; n=8 / group) to 50% FR (chow; CE-2, CLEA, Tokyo Japan) for two weeks and carried out global gene expression analysis on the whole blood by a method reported previously (Ogawa et al., 2014, Congenital Anomalies).

Project description:Integrin-α3 plays a central role in the interplay of cells, morphogens and ECM, required for proper nephrogenesis, thus adding ITGA3 to the list of CAKUT (congenital anomalies of the kidney and urinary tract)-causing genes.

Project description:Maternal-Fetal Immune Responses in Preterm Labor and Congenital Anomalies

Project description:Maternal-Fetal Immune Responses in Preterm Labor and Congenital Anomalies

Project description:To investigate the lncRNA profiles in low birth weight rats with reduced nephron endowment induced by restriction of maternal protein intake. Low birth weight by reduced nephron endowment is a risk factor for hypertension and end-stage renal disease in adulthood.

Project description:Genetics of Congenital Anomalies of the Kidney and Urinary Tract