Biogenesis, stability and sub-cellular localization of long non-coding RNAs expressed in intronic regions of the human genome

Recent studies have shown that most of the mammalian transcriptome is comprised of non-coding RNAs (lncRNAs). Our group has identified and characterized long (>200 nt), unspliced lncRNAs expressed in intronic regions of protein coding genes. However, the biogenesis, processing, stability and subcellular localization of members from this RNA class remain unknown. The aims of this work were i) to investigate the contribution of RNA Polymerase II (RNAP II) to the transcription of intronic, ii) to evaluate the half-life of these ncRNAs relative to mRNAs, and iii) determine their subcellular distribution. Our results indicate that intronic ncRNAs are predominantly transcribed by RNAP II from promoter regions functionally similar to those that control the transcription of mRNAs. Stability assays revealed that intronic ncRNAs have an average half-life equal or greater (3.4h to 4.2h) than mRNAs (3.1h). The majority of intronic ncRNAs have 5\' cap modification suggesting that these transcripts are stabilized, possibly to exert roles in the biology of the cell that does not depend on a rapid turnover. Although intronic ncRNAs do not encode proteins, most of these transcripts are transported to the cytoplasm which indicates that they may perform some biological function in this compartment. Altogether, this study reveals with novel information regarding the biogenesis, stability and subcellular localization of intronic ncRNAs expressed in human cells, thus contributing to advance the knowledge on this class of cellular transcripts. (AU)