Jonathan G. Tardos scite author profile

SRp55 participate in tissue factor biosynthesis in human monocytic cells. J Thromb Haemost 2008; 6: 877-84.Summary. Background: Human monocytes express two naturally occurring forms of circulating tissue factor (TF) -full-length TF, a membrane-spanning protein, and alternatively spliced TF, a soluble molecule. Presence of the variable exon 5 in TF mRNA determines whether the encoded TF protein is transmembrane, or soluble. Recently, an essential SR protein ASF/SF2 was implicated in TF premRNA processing in human platelets. Objective: To examine molecular mechanisms governing regulated processing of TF pre-mRNA in human monocytic cells. Methods and results: In silico analysis of the human TF exon 5, present only in full-length TF mRNA, revealed putative binding motifs termed exonic splicing enhancers (ESE) for the SR proteins ASF/SF2 and SRp55, which were found to be abundantly expressed in monocytic cell lines THP-1 and SC, as well as monocyte-enriched peripheral blood mononuclear cells (PBMC). Using a splice competent mini-gene reporter system transiently expressed in monocytic cells, it was determined that weakening of either five closely positioned ASF/SF2 ESE (bases 87-117) or a single conserved SRp55 ESE (base 39) results in severe skipping of exon 5. ASF/SF2 and SRp55 were found to physically associate with the identified ESE. Conclusions: SR proteins ASF/SF2 and SRp55 appear to interact with the variable TF exon 5 through ESE at bases 39 and 87-117. Weakening of the above ESE modulates splicing of TF exon 5. This study is the first to identify and experimentally characterize cis-acting splicing elements involved in regulated biosynthesis of human TF.

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Assessment of plasma tissue factor activity in patients presenting with coronary artery disease: limitations of a commercial assay

Bogdanov¹,

Cimmino

Tardos

et al. 2009

Journal of Thrombosis and Haemostasis

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Antagonistic roles of four SR proteins in the biosynthesis of alternatively spliced tissue factor transcripts in monocytic cells

Chandradas

Deikus

Tardos

et al. 2009

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Following recruitment to solid tissues, peripheral blood monocytes express a number of proinflammatory molecules including TF, a trigger of coagulation that also promotes cell-cell interactions and tissue remodeling. Monocytes express two forms of TF: flTF, a highly coagulant transmembrane form, and asTF, a highly proangiogenic, soluble TF form. Biosynthesis of the two TF forms occurs via alternative processing of exon 5 during pre-mRNA splicing. Its inclusion results in flTF mRNA and its exclusion, asTF mRNA. We developed a splicing reporter system recently and determined that two spliceosomal constituents, SR proteins ASF/SF2 and SRp55, play a pivotal role in exon 5 inclusion. In this report, we show for the first time that two other SR proteins expressed in human monocytes, SRp40 and SC35, antagonize ASF/SF2 and SRp55 by competing for binding to certain sites in exon 5, thereby promoting TF exon 5 exclusion, an event unique to asTF biosynthesis. We also show that the intron preceding TF exon 5 possesses characteristics rarely found in U2 introns. Our findings indicate that modulation of TF pre-mRNA splicing can be accomplished via modification of SR proteins' activity, facilitating development of novel therapeutic strategies to modulate the "TF profile" of monocytes/macrophages.

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