Abstract
Alternative splicing and polyadenylation represent two major steps in pre‐mRNA‐processing, which ensure proper gene expression and diversification of human transcriptomes. Deregulation of these processes contributes to oncogenic programmes involved in the onset, progression and evolution of human cancers, which often result in the acquisition of resistance to existing therapies. On the other hand, cancer cells frequently increase their transcriptional rate and develop a transcriptional addiction, which imposes a high stress on the pre‐mRNA‐processing machinery and establishes a therapeutically exploitable vulnerability. A prominent role in fine‐tuning pre‐mRNA‐processing mechanisms is played by three main families of protein kinases: serine arginine protein kinase (SRPK), CDC‐like kinase (CLK) and cyclin‐dependent kinase (CDK). These kinases phosphorylate the RNA polymerase, splicing factors and regulatory proteins involved in cleavage and polyadenylation of the nascent transcripts. The activity of SRPKs, CLKs and CDKs can be altered in cancer cells, and their inhibition was shown to exert anticancer effects. In this review, we describe key findings that have been reported on these topics and discuss challenges and opportunities of developing therapeutic approaches targeting splicing factor kinases.
Highlights
Most RNAs transcribed in the nucleus serve as vectors of the genetic information encoded in the DNA
The FEBS Journal published by John Wiley & Sons Ltd on behalf of Federation of European Biochemical Societies
We describe studies that illustrate how serine arginine protein kinase (SRPK), CDC-like kinase (CLK) and cyclin-dependent kinase (CDK) contribute to oncogenic dysregulation of pre-mRNA-processing, highlighting challenges and opportunities of developing therapeutic approaches targeting their activity
Summary
In the presence of stable knockout of CDK12 activity, it is likely that a few surviving cancer cells accumulate large genomic aberrations that may create new oncogenes and generate a highly resistant phenotype, as observed in advanced prostate cancer In support of this hypothesis, tandem genomic duplications in metastatic prostate cancers were found in regions harbouring an intergenic enhancer element upstream of the androgen receptor gene (AR) and near the MYC gene, both loci-encoding transcription factors that play a crucial oncogenic role in prostate cancer and whose overexpression has been associated with dysregulated transcription and RNA-processing [158,159]. CDK7 and CDK12/13 inhibitors likely modulate similar biological processes through different mechanisms, suggesting possible synergistic anti-cancer effects on their combined administration
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