Project description:Retinoid homeostasis is critical for normal embryonic development, and both the deficiency and excess of these compounds are associated with congenital malformations. Here we found that SIRT1, the most conserved mammalian NAD+-dependent deacetylase, contributes to the maintenance of homeostatic retinoic acid (RA) signaling and modulates mouse embryonic stem cell (mESC) differentiation. Our data show that SIRT1 deficiency enhances RA signaling, thereby accelerating mES cell differentiation in response to RA. Our findings highlight the importance of SIRT1 in transcriptional regulation of ESC pluripotency and embryogenesis.
Project description:Retinoid homeostasis is critical for normal embryonic development, and both the deficiency and excess of these compounds are associated with congenital malformations. Here we found that SIRT1, the most conserved mammalian NAD+-dependent deacetylase, contributes to the maintenance of homeostatic retinoic acid (RA) signaling and modulates mouse embryonic stem cell (mESC) differentiation. Our data show that SIRT1 deficiency enhances RA signaling, thereby accelerating mES cell differentiation in response to RA. Our findings highlight the importance of SIRT1 in transcriptional regulation of ESC pluripotency and embryogenesis. Three pairs of sh-Control and sh-SIRT1 E14 mESC cells (with dulpicate for each sample) were treated with vehicle ethanol or with 20 nM of RA for 2 days. Total RNA was isolated using a Qiagen RNA easy mini kit with on-column DNAseI treatment. RNA quality was validated with the Agilent 2100 Bioanalyzer in the microarray facility. Three-pairs of ethanol treated samples, and 4 RA treated sh-Control, and 6 RA treated sh-SIRT1 samples were analyzed by Agilent Whole Mouse Genome 4x44 formate oligo arrays (014868) (Agilent Technologies) following the Agilent 1-color microarray-based gene expression analysis protocol.
Project description:We report the genome-wide RNA expression levels in pluripotent mESC and as mESC differentiate towards a neuronal lineage in response to high levels of Retinoic Acid treatment in vitro. RNA-seq was performed to identify all RNAs expressed in both ESCs and neuronal cells. In total, In total, 14,443 expressed genes were detected, of which 1,834 were up-regulated and 1,477 down-regulated (fold change (FC) > -/+2.0 and p-value < 0.035) during RA-induced neuronal differentiation. The top down-regulated genes included members of the pluripotency core transcriptional network, including Klf4, Sox2, Oct4, Nanog, Suz12, Esrrb, Stat3 and Tcfcp2l1. The top up-regulated genes are important for neuronal differentiation (e.g. Pax3, Irx3, Rest and Foxd3) and reside in the RA-pathway (e.g. various homeobox genes), the retinoic acid receptors and the RA-degradation enzyme Cyp26a1. Examination, identification and comparision of mRNA expression profliles in two cellular states.