P-089: Identification of novel targets in multiple myeloma for “undruggable” RAS/CDK signaling cascade

Background RAS/CDK-dependent pathways play essential roles in multiple myeloma (MM) pathogenesis; both pathways are undruggable. We evaluated molecular changes associated with pathway-level responses after RAS/CDK inhibition to identify novel molecular targets. Method in our previous studies MM cells were treated with selected Erk1/2 and CDK4/6 inhibitors (Ei, Ci) to target RAS/CDK pathways. Our studies indicate strong synergistic (IC Results We evaluated mRNA splicing changes in MM cells, with and without Erk1/2 knockdown or with Ei+Ci treatment. Unsupervised clustering of deregulated genes showed dose-dependent treatment effects. Upregulation in response to Erk1/2 knockdown and downregulation due to treatment with Ei+Ci were considered spliced gene signatures linked to RAS/CDK modulation. Gene/pathway enrichment analyses of these genes showed their involvement in cell proliferation and regulation of epigenetic networks in MM. Importantly, these analyses suggest that overexpression of RAVER1/SNRPB core splicing regulator genes are associated with RAS/CDK pathway regulation. These genes encode subunits of U1/2/4/5 spliceosome complexes and are involved in intron retention processes, a marker of malignant transformation. We evaluated expressions of RAVER1 and SNRPB in 558 MM patent samples and 10 normal donor BM PCs and observed significant (p Conclusions Our studies show an association between RNA processing and RAS-CDK pathways in MM, identify a core splicing protein, SNRPB, as a novel target for modulating this undruggable cascade, and suggest that targeting spliceosome complexes is a promising therapy.