Long intronic noncoding RNA expression in human cell lines and its DNA methylation epigenetic control

Recent studies have revealed that a significant fraction of the eukaryotic transcriptome is composed of long noncoding RNAs (lncRNAs). This work investigated the expression pattern in three human tumor cell lines of a set of lncRNAs originated from intronic regions of protein coding RNAs, using custom DNA oligoarrays. In silico analyses were performed to identify global properties of these transcripts such as relative abundance in different human tissues, regulatory, evolutionary and structural aspects, as well as their possible cellular functions. In addition, we evaluated the contribution of DNA methylation, an important epigenetic mechanism that control the expression of protein coding genes, in the regulation of intronic lncRNAs expression. We found that a fraction of the intronic lncRNAs detected in the cell lines are evolutionarily conserved, show a tissue specific expression pattern, and is enriched in regulatory elements at their 5\' end region. Subsets of intronic lncRNAs possibly acting on genes associated to important regulatory pathways controlling organism development and cell cycle were identified. A smaller proportion of intronic lncRNAs relative to mRNAs displayed CpG islands (CGI) in the vicinity of the transcription start site. Notwithstanding, we observed that a subset of these transcripts responded to treatment with the DNA demethylation agent 5-AZA, demonstrating that intronic lncRNAs may be under transcriptional regulation mediated by DNA methylation. Among intronic lncRNAs regulated by DNA demethylation, stands out AS-APP lncRNA, which was up regulated 25 to 80 times in DU-145 and HEK293 cell lines following 5-AZA treatment, respectively,. This lncRNAs has a methylated CGI and an active promoter at 4-kb upstream from its known transcription start site. Increased AS-APP lncRNA transcription following DNA demethylation correlated with a significant decrease of APP gene messenger RNA levels. This finding suggests a possible cis-regulatory action of the lncRNA AS-APP in the APP locus, an important gene involved in Alzheimer disease and whose expression is associated with prognosis of different cancer types. The results obtained in this study reinforce the idea that intronic lncRNAs constitute independent transcriptional units under regulatory control in the different cell types. It was generated a catalog of intronic lncRNAs regulated by DNA methylation that will allow the selection of candidates with higher potential of functional relevance for detailed characterization (AU)