RNA Interference Knockdown of hU2AF35Impairs Cell Cycle Progression and Modulates Alternative Splicing of Cdc25 Transcripts

Abstract

U2AF is a heterodimeric splicing factor composed of a large (U2AF⁶⁵) and a small (U2AF³⁵) subunit. In humans, alternative splicing generates two U2AF³⁵variants, U2AF³⁵a and U2AF³⁵b. Here, we used RNA interference to specifically ablate the expression of each isoform in HeLa cells. Our results show that knockdown of the major U2AF³⁵a isoform reduced cell viability and impaired mitotic progression, leading to accumulation of cells in prometaphase. Microarray analysis revealed that knockdown of U2AF³⁵a affected the expression level of ∼500 mRNAs, from which >90% were underrepresented relative to the control. Among mRNAs underrepresented in U2AF³⁵a-depleted cells we identified an essential cell cycle gene, Cdc27, for which there was an increase in the ratio between unspliced and spliced RNA and a significant reduction in protein level. Furthermore, we show that depletion of either U2AF³⁵a or U2AF³⁵b altered the ratios of alternatively spliced isoforms of Cdc25B and Cdc25C transcripts. Taken together our results demonstrate that U2AF³⁵a is essential for HeLa cell division and suggest a novel role for both U2AF³⁵protein isoforms as regulators of alternative splicing of a specific subset of genes.