Background:
The protein arginine methyltransferase family includes nine members, with PRMT5 being the major type II arginine methyltransferase. PRMT5 is upregulated in a variety of tumors and promotes tumorigenesis and tumor cell proliferation and metastasis, making it a potential tumor therapy target. Recently, PRMT5 inhibitor research and development have become hotspots in the tumor therapy field.
Methods:
We classified and summarized PRMT5 inhibitors according to different binding mechanisms. We mainly analyzed the structure, biological activity, and binding interactions of PRMT5 inhibitors with the PRMT5 enzyme.
Results:
At present, many PRMT5 inhibitors with various mechanisms of action have been reported, including substrate-competitive inhibitors, SAM-competitive inhibitors, dual substrate-/SAM-competitive inhibitors, allosteric inhibitors, PRMT5 degraders, MTA-cooperative PRMT5 inhibitors and PPI inhibitors.
Conclusion:
These inhibitors are beneficial to the treatment of tumors. Some drugs are being used in clinical trials. PRMT5 inhibitors have broad application prospects in tumor therapy.