Abstract
PRDM (PRDI-BF1 (positive regulatory domain I-binding factor 1) and RIZ1 (retinoblastoma protein-interacting zinc finger gene 1) homologous domain-containing) transcription factors are a group of proteins that have a significant impact on organ development. In our study, we assessed the role of Prdm3 in neurogenesis and the mechanisms regulating its expression. We found that Prdm3 mRNA expression was induced during neurogenesis and that Prdm3 gene knockout caused premature neuronal differentiation of the P19 cells and enhanced the growth of non-neuronal cells. Interestingly, we found that Gata6 expression was also significantly upregulated during neurogenesis. We further studied the regulatory mechanism of Prdm3 expression. To determine the role of GATA6 in the regulation of Prdm3 mRNA expression, we used a luciferase-based reporter assay and found that Gata6 overexpression significantly increased the activity of the Prdm3 promoter. Finally, the combination of retinoic acid receptors α and β, along with Gata6 overexpression, further increased the activity of the luciferase reporter. Taken together, our results suggest that in the P19 cells, PRDM3 contributed to neurogenesis and its expression was stimulated by the synergism between GATA6 and the retinoic acid signaling pathway.
Highlights
IntroductionPRDM3 is a transcription factor belonging to the PRDM (PRDI-BF1 (positive regulatory domain I-binding factor 1) and RIZ1 (retinoblastoma protein-interacting zinc finger gene 1) homologous domain-containing) protein family
PRDM3 is a transcription factor belonging to the PRDM (PRDI-BF1 and RIZ1 homologous domain-containing) protein family
The Neural Differentiation of P19 Cells Was Accompanied by an Increased Expression of Prdm3
Summary
PRDM3 is a transcription factor belonging to the PRDM (PRDI-BF1 (positive regulatory domain I-binding factor 1) and RIZ1 (retinoblastoma protein-interacting zinc finger gene 1) homologous domain-containing) protein family. A characteristic feature of this group of proteins is the PR-SET domain at the N-terminus, the zinc finger C2H2 motif group, and the acidic domain at the C-terminus [1,2,3]. Mice embryos lacking the Prdm gene exhibit disturbed cardiovascular and nervous system development and die at 10.5 days post coitum [4]. The Hamlet protein (Drosophila melanogaster homolog of both PRDM3 and PRDM16) belongs to the molecular machinery involved in the cell fate determination of external sensory organs [7,8] and olfactory receptor neuron diversification [9].
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