Project description:This study mapped the genome wide DNA methylation changes in whole blood and buccal swab samples of 2 year old male rhesus monkeys subjected to parental deprivation in their first months of life (surrogate peer-reared condition). Equal numbers of control mother-reared (MR) and surrogate peer-reared (SPR) male monkeys whole blood (5 vs 5) and buccal swab samples (3 vs 3) were analyzed by methylated DNA immunoprecipitation (MeDIP) coupled with promoter tiling arrays.

Project description:This study mapped the genome wide DNA methylation changes in whole blood and buccal swab samples of 2 year old male rhesus monkeys subjected to parental deprivation in their first months of life (surrogate peer-reared condition).

Project description:Fetal spina bifida can associate with reduced fetal growth. However, little is known about placental development and function in pregnancies with fetal spina bifida, despite that the placenta is a critical regulator of fetal growth. We used data from a case-control study to determine how the placental transcriptome differs in fetuses with isolated spina bifida (cases), compared to fetuses without any congenital anomalies (controls).

Project description:Background DNA methylation has been recognized as a key mechanism in cell differentiation. Various studies have compared tissues to characterize epigenetically regulated genomic regions, but due to differences in study design and focus there still is no consensus as to the annotation of genomic regions predominantly involved in tissue-specific methylation. We used a new algorithm to identify and annotate tissue-specific Differentially Methylated Regions (tDMRs) in Illumina 450k chip data on four peripheral (blood, saliva, buccal swab and hair follicles) and six internal tissues (liver, muscle, pancreas, subcutaneous fat, omentum, spleen with matched blood samples). Results The majority of tDMRs, in both relative and absolute terms, occurred in CpG-poor regions. Further analysis revealed that these regions were associated with alternative transcription events (alternative first exons, mutually exclusive exons and cassette exons). Only a minority of tDMRs mapped to gene-body CpG islands (13%) or CpG islands shores (25%) suggesting a less prominent role for these regions than indicated previously. Implementation of ENCODE annotations showed enrichment of tDMRs in DNase hypersensitive sites and transcription factor binding sites. Despite the predominance of tissue differences, inter-individual differences in DNA methylation in internal tissues were correlated with that in blood for a subset of CpG sites in a locus and tissue-specific manner. Conclusions We conclude that tDMRs preferentially occur in CpG-poor regions and are associated with alternative transcription. Furthermore, our data suggest the utility of creating an atlas cataloguing variably methylated regions in internal tissues that are marked by DNA methylation measured in easy accessible peripheral tissues. Comparison of four peripheral (blood, saliva, buccal swab and hair follicles in n=5) and six internal tissues (liver, muscle, pancreas, subcutaneous fat, omentum, spleen with matched blood samples in n=6).

Project description:Intraventricular hemorrhage (IVH) is a significant complication of premature infants. With improved preterm infant survival, there is increased incidence of severe IVH, and the potential for lifelong neurodevelopmental deficits. Neurological complications are high in babies that develop hydrocephalus as a result of IVH and require a permanent ventriculoperitoneal (VP) shunt. Spina bifida is a congenital disorder caused by the incomplete closure of the neural tube. Hydrocephalus is also a common complication of spina bifida, presenting in 15 to 25% of cases. Often, when spina bifida is identified and surgically repaired, CSF shunting mechanisms are placed in a high percentage of cases. A better understanding of the events leading to the development of hydrocephalus will help clinicians make more informed decisions about the need for CSF shunting and other interventions. Extracellular RNAs (exRNAs) may be indicators of the multiple pathological events surrounding the development of hydrocephalus in subjects with intraventricular hemorrhage or spina bifida. exRNAs may also be indicators for the presence and magnitude of neurodevelopmental outcomes. Under that premise, we sequenced the total exRNA in CSF from children that had IVH or spina bifida, some of which developed hydrocephalus and/or had reported developmental delays.

Project description:Neural tube closure in vertebrates is achieved through a highly dynamic and coordinated series of morphogenic events involving neural plate, surface ectoderm, and neural plate border. Failure of this process in the caudal region causes spina bifida. Grainyhead-like 3 (GRHL3) is an indispensable transcription factor for neural tube closure as constitutive inactivation of which leads to fully penetrant spina bifida. Here, through single-cell transcriptomics we show that at E8.5, the time-point preceding mouse neural tube closure, the co-expression of Grhl3, Tfap2a, and Tfap2c defines a previously unrecognised progenitor population of surface ectoderm. Specific deletion of Grhl3 expression using Tfap2a-Cre recapitulate the spina bifida observed in Grhl3-null animals. Moreover, conditional inactivation of Tfap2c expression in Grhl3-expressing neural plate border cells also causes mild spina bifida. These findings clearly indicate that Grhl3-expressing neural plate border cells cohort is required for the early-stage neurulation.

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:The incidence of neural tube defects (NTDs) declined by about 40% in Canada with the introduction of national folic acid (FA) fortification programs. However, NTDs persist despite the fact that few Canadians currently exhibit folate deficiency. FA fortification may have aided in reducing NTDs by overcoming abnormal one carbon metabolism cycling, the process which provides one carbon units for methylation of DNA. We considered that NTDs persisting in a folate replete population may also occur in the context of compromised one carbon metabolism, and that this might manifest as abnormal DNA methylation (DNAm). Second trimester human placental chorionic villi, kidney, spinal cord, brain and muscle were collected from 19 control, 22 spina bifida and 15 anencephaly fetuses in British Columbia, Canada. DNA was extracted, assessed for methylenetetrahydrofolate reductase (MTHFR) genotype and for genome-wide DNAm using repetitive elements, in addition to the Illumina Infinium HumanMethylation450 (450k) array. No difference in repetitive element DNAm was noted. Using a false discovery rate <0.05 and average group difference in DNAm >0.05, differentially methylated array sites were only identified in (i) the comparison of anencephaly to controls in chorionic villi (n=4 sites) and (ii) the comparison of spina bifida to controls in kidney (n=3,342 sites). We suggest that the distinctive DNAm of spina bifida kidneys may be consequent to the neural tube defect. Although other studies have provided data to support altered DNAm in NTDs, this was not a major feature of British Columbian cases on a genome-wide or site specific level.

Project description:DNA methylation profiles for whole blood, CD4 T cells, CD8 T cells, B cells, Monocytes, Granulocytes, nasal epithelial cells and buccal cells purified from 30 individuals

Project description:Mouse Fkbp8 mutants specifically present with spinal cord abnormalities and spina bifida. The aim is to identify gene expression changes in the posterior embryonic tissue lacking the Fkbp8 gene, so as to understand genes or gene pathways important for normal spinal cord development. Keywords: Genetic modification