GERM CELL NUCLEAR FACTOR (GCNF) REPRESSES THE OCT4 GENE DURING RETINOIC ACID-INDUCED HUMAN EMBRYONIC STEM CELL DIFFERENTIATION

Abstract

Embryonic stem (ES) cells require a network of transcription factors and signaling molecules to maintain their pluripotency. The transcription factor Oct4, one of pluripotency genes, is required for self-renewal and maintains the undifferentiated state of ES cells. Loss of expression of Oct4 initiates ES cell differentiation. Germ cell nuclear factor (GCNF), an orphan nuclear receptor, binds to a DR0 site within Oct4 gene promoter in human ES cells. Retinoic acid induces expression of GCNF, which binds the promoter of Oct4 gene, and accelerates the decrease of Oct4 gene expression and human ES cells differentiation. Expression of other pluripotency genes, such as Sox2, also decrease during human ES cell differentiation induced with retinoic acid. These findings increase our understanding of the mechanism of regulation of gene expression and in maintaining human ES cell pluripotence and during the differentiation process. Results 1: Tera-2 cells and human ES (H9) cells were induced to differentiate by Retinoic Acid (1μM). Expression of GCNF, Oct4, Sox2, Dax1, LRH1, SF1, Actin was determined by RT-PCR (A), and by western blot (B) in Tera-2 cells and human ES cells. GCNF expression increased by day 2 of differentiation in Tera-2 cells and human ES cells when treated with Retinoic Acid (1μM). GCNF expression is transient and decreased earlier in Tera-2 cells than in human ES cells. Expression of Oct4, Sox2 and SF-1 was gradually repressed during differentiation. Expression of the orphan receptor LRH1 increased when Tera-2 and human ES cells differentiated, and subsequently decreased. DAX1 expression was up-regulated when Tera-2 cells and human ES cells differentiate, and maintained the same level until day 6 in Tera-2 cells but gradually increased in human ES cells. Result 2: GCNF binding the DR0 site within the Oct4 promoter in Tera-2 cells and human ES cells is induced upon differentiation and is transient in nature. Detection of GCNF binding to the Oct4 promoter in vivo using Chromatin immunoprecipitation (ChIP) assays: Tera-2 cells and human ES cells were treated with Retinoic Acid (1 μM) and induced to differentiate. GCNF binding to the DR0 site of Oct4 promoter can be detected in vivo when Tera-2 cell and human ES cells differentiate, and then decreases at later stages of differentiation. Result 3: Analysis of GCNF binding to the DR0 element in the Oct4 promoter by electrophoretic mobility shift assays (EMSAs). No GCNF binding to the DR0 element was detected at day 0 in the Tera-2 cells and human ES cells. GCNF has been at the highest level of binding to the DR0 site at day 3 of RA-induced differentiation (arrow) and is shifted (arrow head) when GCNF-specific antibody is added to the EMSAs. GCNF DNA binding activity disappeared by day 5 of differentiation in Tera-2 cells. In human ES cells, GCNF displayed a higher level of binding to the DR0 site at day 3 of differentiation and decreased at day 5 of RA treatment. This result shows that GCNF directly binds to the conserved DR0 element in the Oct4 promoter in Tera-2 cells and human ES cell. (platform)