Implication of Trip15/CSN2 in early stage of neuronal differentiation of P19 embryonal carcinoma cells.

Trip15/CSN2 is a transcriptional corepressor/a component of COP9 signalosome (CSN) and participates in various signaling pathways. However, participation of Trip15/CSN2 in neural differentiation is still obscure. Here, we show that Trip15/CSN2 plays a critical role in neuronal differentiation. The expression of Trip15/CSN2 mRNA was induced at an early stage of neuronal differentiation in the retinoic acid (RA)-treated P19 cells, but not in the triiodothyronine (T3)-primed cardiac muscular cell differentiation. The expression of Trip15/CSN2 mRNA in the rat brain was detected at E14 and the protein was localized in the nuclei of neonatal rat CNS neurons. Enforced expression of sense rat Trip15/CSN2 mRNA caused the downregulation of Oct-3/4 mRNA expression and was sufficient to convert P19 cells into neurons, but not glial cells, only after the aggregation without RA. In the presence of RA, exogenous expression of the sense mRNA caused the intense and rapid induction of neurogenic Brn-2 and Mash-1 mRNA expressions accompanying the strong downregulation of Oct-3/4 mRNA expression, and stimulated both neuronal and glial cell differentiations of P19 cells. In contrast, enforced expression of the antisense mRNA suppressed the commitment of RA-treated aggregation form of P19 cells to neuronal lineage. These data strongly suggest that Trip15/CSN2 could implicate in the commitment of multipotent embryonal carcinoma (EC) cells to neuronal fate through the downregulation of Oct-3/4 which suppresses neurogenic genes. Moreover, in addition to Trip15/CSN2, RA-regulated other factor(s) may be required for glial cell differentiation.

The role of transcriptional corepressor Nif3l1 in early stage of neural differentiation via cooperation with Trip15/CSN2.

Mouse Nif3l1 gene is highly conserved from bacteria to human. Even though this gene is expressed throughout embryonic development, its biological function is still obscure. Here, we show that Nif3l1 participates in retinoic acid-primed neural differentiation of P19 embryonic carcinoma cells through cooperation with Trip15/CSN2, a transcriptional corepressor/component of COP9 signalosome. We isolated Nif3l1 cDNA from P19 cell cDNA library by a yeast two-hybrid screening using Trip15/CSN2 as a bait. This interaction was confirmed by a pull-down assay and an epitope-tagged coimmunoprecipitation. Although Nif3l1 was mainly detected in the cytoplasm, the translocation of Nif3l1 into the nuclei was observed in retinoic acid-primed neural differentiation of P19 cells and enhanced by the enforced expression of Trip15/CSN2. Furthermore, enforced expression of sense Nif3l1 RNA, but not antisense RNA, enhanced the neural differentiation of P19 cells accompanying the intense down-regulation of Oct-3/4 mRNA expression and the rapid induction of Mash-1 mRNA expression. Luciferase reporter assay showed that Nif3l1 could act as a transcriptional repressor and synergized the transcriptional repression by Trip15/CSN2. These results indicate that Nif3l1 implicates in neural differentiation through the cooperation with Trip15/CSN2.