Abstract
A heterotrimeric transcription factor NF-Y is crucial for cell-cycle progression in various types of cells. In contrast, studies using NF-YA knockout mice have unveiled its essential role in endoplasmic reticulum (ER) homeostasis in neuronal cells. However, whether NF-Y modulates a different transcriptome to mediate distinct cellular functions remains obscure. Here, we knocked down NF-Y in two types of neuronal cells, neuro2a neuroblastoma cells and mouse brain striatal cells, and performed gene expression profiling. We found that down-regulated genes preferentially contained NF-Y-binding motifs in their proximal promoters, and notably enriched genes related to ER functions rather than those for cell cycle. This contrasts with the profiling data of HeLa and embryonic stem cells in which distinct down-regulation of cell cycle-related genes was observed. Clustering analysis further identified several functional clusters where populations of the down-regulated genes were highly distinct. Further analyses using chromatin immunoprecipitation and RNA-seq data revealed that the transcriptomic difference was not correlated with DNA binding of NF-Y but with splicing of NF-YA. These data suggest that neuronal cells have a different type of transcriptome in which ER-related genes are dominantly modulated by NF-Y, and imply that NF-YA splicing alteration could be involved in this cell type-specific gene modulation.
Highlights
A heterotrimeric transcription factor NF-Y is crucial for cell-cycle progression in various types of cells
To identify the transcriptome modulated by NF-Y in neuronal cells, we first knocked down NF-YA and -YC in a neuro2a (N2a) cell line, a mouse neuroblastoma cell line extensively used for various neurological and neuroscience s tudies[17,23,24,25]
The proximal CCAAT motif-enrichment was not observed for genes picked up randomly or those dysregulated by knockdown of other transcription factors, USF1/227, whereas USF1/2-binding E-box motifs were enriched in the latter case (Supplementary Fig. S2E,F)
Summary
A heterotrimeric transcription factor NF-Y is crucial for cell-cycle progression in various types of cells. We found that down-regulated genes preferentially contained NF-Y-binding motifs in their proximal promoters, and notably enriched genes related to ER functions rather than those for cell cycle. This contrasts with the profiling data of HeLa and embryonic stem cells in which distinct down-regulation of cell cycle-related genes was observed. Whether NF-Y modulates a different transcriptome in these cells as well as the underlying mechanism regulating distinct cellular functions remains uncertain
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