PTBP1-activated co-transcriptional splicing controls epigenetic status of pluripotent stem cells.

Many spliceosomal introns are excised from nascent transcripts emerging from RNA polymerase II (RNA Pol II). The extent of cell-type-specific regulation and possible functions of such co-transcriptional events remain poorly understood. We examined the role of the RNA-binding protein PTBP1 in this process using an acute depletion approach followed by the analysis of chromatin- and RNA Pol II-associated transcripts.

Promoter-like epigenetic signatures in exons displaying cell type-specific splicing.

Background: Pre-mRNA splicing occurs mainly co-transcriptionally, and both nucleosome density and histone modifications have been proposed to play a role in splice site recognition and regulation. However, the extent and mechanisms behind this interplay remain poorly understood.

Results: We use transcriptomic and epigenomic data generated by the ENCODE project to investigate the association between chromatin structure and alternative splicing.

Role of six single nucleotide polymorphisms, risk factors in coronary disease, in OLR1 alternative splicing.

The OLR1 gene encodes the oxidized low-density lipoprotein receptor (LOX-1), which is responsible for the cellular uptake of oxidized LDL (Ox-LDL), foam cell formation in atheroma plaques and atherosclerotic plaque rupture. Alternative splicing (AS) of OLR1 exon 5 generates two protein isoforms with antagonistic functions in Ox-LDL uptake. Previous work identified six single nucleotide polymorphisms (SNPs) in linkage disequilibrium that influence the inclusion levels of OLR1 exon 5 and correlate with the risk of cardiovascular disease.

Relationship between nucleosome positioning and progesterone-induced alternative splicing in breast cancer cells.

Splicing of mRNA precursors can occur cotranscriptionally and it has been proposed that chromatin structure influences splice site recognition and regulation. Here we have systematically explored potential links between nucleosome positioning and alternative splicing regulation upon progesterone stimulation of breast cancer cells. We confirm preferential nucleosome positioning in exons and report four distinct profiles of nucleosome density around alternatively spliced exons, with RNA polymerase II accumulation closely following nucleosome positioning.

Co-option of the piRNA pathway for germline-specific alternative splicing of C. elegans TOR.

Many eukaryotic genes contain embedded antisense transcripts and repetitive sequences of unknown function. We report that male germline-specific expression of an antisense transcript contained in an intron of C. elegans Target of Rapamycin (TOR, let-363) is associated with (1) accumulation of endo-small interfering RNAs (siRNAs) against an embedded Helitron transposon and (2) activation of an alternative 3' splice site of TOR.

Chromatin's thread to alternative splicing regulation.

Intron removal (pre-mRNA splicing) is a necessary step for expression of most genes in higher eukaryotes. Alternative splice site selection is a prevalent mechanism that diversifies genome outputs and offers ample opportunities for gene regulation in these organisms. Pre-mRNA splicing occurs co-transcriptionally and is influenced by features in chromatin structure, including nucleosome density and epigenetic modifications.

Radiation Genes: a database devoted to microarrays screenings revealing transcriptome alterations induced by ionizing radiation in mammalian cells.

The analysis of the great extent of data generated by using DNA microarrays technologies has shown that the transcriptional response to radiation can be considerably different depending on the quality, the dose range and dose rate of radiation, as well as the timing selected for the analysis. At present, it is very difficult to integrate data obtained under several experimental conditions in different biological systems to reach overall conclusions or build regulatory models which may be tested and validated. In fact, most available data is buried in different websites, public or private, in general or local repositories or in files included in published papers; it is often in various formats, which makes a wide comparison even more difficult.

Low-dose ionizing radiation stimulates transcription and production of endothelin by human vein endothelial cells.

A transient increase of EDN1 mRNA accumulation is observed in human vein endothelial cells (HUVECs) after a low dose of ionizing radiation. The kinetics of this mRNA accumulation parallels that of other AP1-regulated transcripts, showing a sharp peak 2 h after irradiation. This accumulation is followed by a net increase of endothelin 1 and big endothelin 1 in the cytoplasm that reaches a peak 4 h after irradiation.