TY - JOUR
T1 - Identification, Synthesis, and Biological Evaluations of Potent Inhibitors Targeting Type i Protein Arginine Methyltransferases
AU - Li, Xiao
AU - Zhang, Lun
AU - Xu, Jing
AU - Liu, Chenyu
AU - Zhang, Xiaojian
AU - Abdelmoneim, Amr Abbas
AU - Zhang, Qian
AU - Ke, Jiaqi
AU - Zhang, Yingnan
AU - Wang, Lei
AU - Yang, Fan
AU - Luo, Cheng
AU - Jin, Jia
AU - Ye, Fei
N1 - Publisher Copyright:
© 2022 American Chemical Society.
PY - 2022/2/14
Y1 - 2022/2/14
N2 - CARM1 (coactivator-associated arginine methyltransferase 1), which belongs to type I PRMTs (protein arginine methyltransferases), is a potential therapeutic target for treatment of multiple cancers. In this study, we first identified several hit compounds against CARM1 by structure-based virtual screening (IC50 = 35.51 ± 6.68 to 68.70 ± 8.12 μM) and then carried out chemical structural optimizations, leading to six compounds with significantly improved activities targeting CARM1 (IC50 = 18 ± 2 to 107 ± 6 nM). As a compound with an ethylenediamino motif, the most potent inhibitor, ZL-28-6, also exhibited potent inhibition against other type I PRMTs. Compared to the type I PRMT inhibitor from our previous work (DCPR049_12), ZL-28-6 showed increased potency against CARM1 and decreased activity against other type I PRMTs. Moreover, ZL-28-6 showed better antiproliferation activities toward a series of solid tumor cells than DCPR049_12, indicating its broad spectrum of anticancer activity. In addition, cellular thermal shift and Western blot assays validated that ZL-28-6 could target CARM1 in cells. Taken together, the inhibitor we identified could serve as a potent probe for studying CARM1's biological functions and shed light on the future design of novel CARM1 inhibitors with stronger activities and selectivities.
AB - CARM1 (coactivator-associated arginine methyltransferase 1), which belongs to type I PRMTs (protein arginine methyltransferases), is a potential therapeutic target for treatment of multiple cancers. In this study, we first identified several hit compounds against CARM1 by structure-based virtual screening (IC50 = 35.51 ± 6.68 to 68.70 ± 8.12 μM) and then carried out chemical structural optimizations, leading to six compounds with significantly improved activities targeting CARM1 (IC50 = 18 ± 2 to 107 ± 6 nM). As a compound with an ethylenediamino motif, the most potent inhibitor, ZL-28-6, also exhibited potent inhibition against other type I PRMTs. Compared to the type I PRMT inhibitor from our previous work (DCPR049_12), ZL-28-6 showed increased potency against CARM1 and decreased activity against other type I PRMTs. Moreover, ZL-28-6 showed better antiproliferation activities toward a series of solid tumor cells than DCPR049_12, indicating its broad spectrum of anticancer activity. In addition, cellular thermal shift and Western blot assays validated that ZL-28-6 could target CARM1 in cells. Taken together, the inhibitor we identified could serve as a potent probe for studying CARM1's biological functions and shed light on the future design of novel CARM1 inhibitors with stronger activities and selectivities.
UR - https://www.scopus.com/pages/publications/85124092490
U2 - 10.1021/acs.jcim.1c01100
DO - 10.1021/acs.jcim.1c01100
M3 - 文章
C2 - 35098713
AN - SCOPUS:85124092490
SN - 1549-9596
VL - 62
SP - 692
EP - 702
JO - Journal of Chemical Information and Modeling
JF - Journal of Chemical Information and Modeling
IS - 3
ER -
