Increased expression levels of the RNA splicing regulator Transformer2fl (abbreviated Tra2fl) have been reported in several types of cancer. Recent work has revealed an intimate cross-regulation between Tra2fl and t...Increased expression levels of the RNA splicing regulator Transformer2fl (abbreviated Tra2fl) have been reported in several types of cancer. Recent work has revealed an intimate cross-regulation between Tra2fl and the highly similar Tra2a protein in human breast cancer cells, though these two proteins are encoded by separate genes created by a gene duplication that occurred over 500 million years ago. This cross-regulation involves splicing control of a special class of exons, called poison exons. Down-regulation of Tra2fl reduces splicing inclu- sion of a poison exon in the mRNA encoding Tra2a, thereby up-regulating Tra2a protein expression. This buffers any splicing changes that might be caused by individual depletion of Tra2fl alone. Discovery of this cross-regulation pathway, and its by-pass by joint deple- tion of both human Tra2 proteins, revealed Tra2 proteins are essential for breast cancer cell viability, and led to the identification of important targets for splicing control. These exons include a critical exon within the checkpoint kinase 1 (CHK1) gene that plays a crucial function in the protection of cancer cells from replication stress. Breast cancer cells depleted for Tra2 proteins have reduced CHK1 protein levels and accumulate DNA damage. These data suggest Tra2 proteins and/or their splicing targets as possible cancer drug targets.展开更多
文摘Increased expression levels of the RNA splicing regulator Transformer2fl (abbreviated Tra2fl) have been reported in several types of cancer. Recent work has revealed an intimate cross-regulation between Tra2fl and the highly similar Tra2a protein in human breast cancer cells, though these two proteins are encoded by separate genes created by a gene duplication that occurred over 500 million years ago. This cross-regulation involves splicing control of a special class of exons, called poison exons. Down-regulation of Tra2fl reduces splicing inclu- sion of a poison exon in the mRNA encoding Tra2a, thereby up-regulating Tra2a protein expression. This buffers any splicing changes that might be caused by individual depletion of Tra2fl alone. Discovery of this cross-regulation pathway, and its by-pass by joint deple- tion of both human Tra2 proteins, revealed Tra2 proteins are essential for breast cancer cell viability, and led to the identification of important targets for splicing control. These exons include a critical exon within the checkpoint kinase 1 (CHK1) gene that plays a crucial function in the protection of cancer cells from replication stress. Breast cancer cells depleted for Tra2 proteins have reduced CHK1 protein levels and accumulate DNA damage. These data suggest Tra2 proteins and/or their splicing targets as possible cancer drug targets.
