Targeting CLK2 and serine/arginine-rich splicing factors inhibits multiple myeloma through downregulating RAE1 by nonsense-mediated mRNA decay mechanism.

Multiple myeloma (MM) is closely related to abnormal RNA splicing in its pathogenesis. CDC2-like kinase-2 (CLK2) regulates RNA splicing by phosphorylating serine/arginine-rich splicing factors (SRSFs), but the role of CLK2 in MM remains undefined. This study was to explore the role and mechanism of CLK2 in MM. Analyzing GEO datasets of MM patients found that high CLK2 expression predicted poor prognosis. Overexpression of CLK2 promoted the cell proliferation and cell cycle progression of MM cell ARP1 and H929. Knockdown or inhibition of CLK2 suppressed cell proliferation and induced cell apoptosis and cell cycle arrest in ARP1 and H929 cells in vitro. An MM xenograft tumor experiment showed that CLK2 overexpression promoted tumor growth, while CLK2 inhibition suppressed tumor growth in vivo. Mechanistic studies revealed that interfering CLK2 inhibited SRSF phosphorylation, and induced exon 9 skipping of RAE1, resulting in nonsense-mediated mRNA decay (NMD) of RAE1. In addition, RAE1 knockdown inhibited cell proliferation in ARP1 and H929 cells. Moreover, RAE1 overexpression promoted cell proliferation and cell cycle progression of ARP1 and H929 cells, and partially reversed the antitumor effect of CLK2 knockdown. Targeting CLK2 shows antitumor effects on MM partially through inhibiting SRSF phosphorylation and inducing NMD of RAE1. Therefore, targeting the CLK2/SRSFs/RAE1 axis could be a potential therapeutic strategy for MM.