Author: Lopez, Patricia ; Liu, Qingyian ; Slemmons, Katherine K. ; Chen, Qing ; Allen, Jennifer R. ; Ponce, Manuel ; Xie, Fang ; Liu, Siyuan ; Ngo, Rachel ; Tamayo, Nuria A. ; Sharma, Pooja ; Pettus, Liping H. ; Madoux, Franck ; Soto, Marcus ; Hughes, Paul ; Ma, Vu ; Li, Weikun ; Cowland, Sanne ; Belmontes, Brian ; Butler, John ; Wahlstrom, Jan ; Lo, Mei-Chu ; Kaller, Matthew R. ; Vestergaard, Mikkel ; Kohn, Todd ; Frohn, Michael J. ; Caenepeel, Sean ; McCloud, Stuart ; Sanders, Christiana ; Manoni, Francesco ; Wang, Paul ; Lanman, Brian A. ; Khetan, Jawahar ; Mardirossian, Narbe ; Policheni, Antonia ; Ghimire-Rijal, Sudipa ; Medina, Jose ; Beylkin, Diane ; Pickrell, Alex ; Yang, Yajing ; Sarvary, Ian ; Andersson, Jan ; Booker, Shon K. ; Glad, Sanne ; Mukund, Susmith ; Minatti, Ana E. ; Weires, Nicholas ; Li, Kexue ; Bruenner, Bernd ; Bourbeau, Matthew ; Tan, Hong ; Amegadzie, Albert

MTAP deletion occurs in 10-15% of all human cancers due to its proximity to the tumor suppressor gene CDKN2A. The loss of MTAP leads to accumulation of methylthioadenosine (MTA), which shares structural similarity to S-adenosyl methionine (SAM), the methyl donor for the cell-essential protein arginine methyltransferase 5 (PRMT5). By competing with SAM, MTA partially inhibits PRMT5, making MTAP-deleted tumors susceptible to further PRMT5 inhibition. Herein, we report the discovery of MTA-cooperative PRMT5 inhibitor AMG 193, a molecule that inhibited the proliferation of HCT116 MTAP-deleted cells with ∼40x selectivity over HCT116 MTAP-WT cells. AMG 193 was orally efficacious in mouse xenografts of endogenous MTAP-null tumors such as BxPC-3 (96% TGI @ 100 mg/kg QD) and U87MG (88% TGI @ 100 mg/kg QD). Preclinical data indicate that AMG 193 is brain-penetrant. AMG 193 is currently in Phase I/II clinical trials for the treatment of advanced MTAP-deleted solid tumors.

27 Mar 2025·JOURNAL OF MEDICINAL CHEMISTRY

From DNA-Encoded Library Screening to AM-9747: An MTA-Cooperative PRMT5 Inhibitor with Potent Oral In Vivo Efficacy

Article

Author: Kapoor, Rajiv ; Soede, Camillia ; Caenepeel, Sean ; Madsen, Mads ; Flagstad, Thomas ; Moretti, Loris ; Xie, Fang ; Lo, Mei-Chu ; Andersson, Jan ; Moriguchi, Jodi ; Mardirossian, Narbe ; Peng, Chi-Chi ; Kuropatnicka, Aleksandra ; Pettus, Liping ; Hughes, Paul ; Li, Kexue ; Sarvary, Ian ; Jacso, Tomas ; Franch, Thomas ; Nadali, Anna ; Ghimire-Rijal, Sudipa ; Peiró Cadahía, Jorge ; Husemoen, Gitte ; Pii, David ; Slemmons, Katherine K. ; Vestergaard, Mikkel ; Cowland, Sanne ; Mukund, Susmith ; Ryborg, So̷ren ; Liu, Qingyian ; Gouliaev, Alex ; Kronborg, Titi ; Allen, Jennifer R. ; Tamayo, Nuria ; Glad, Sanne ; Liu, Siyuan ; Yang, Yajing ; Belmontes, Brian ; Wang, Paul ; Madoux, Franck ; Nielsen, So̷ren ; Ngo, Rachel ; Bourbeau, Matthew

Inhibition of the methyltransferase enzyme PRMT5 by MTA accumulation is a vulnerability of MTAP-deleted cancers. Herein, we report the discovery and optimization of a quinolin-2-amine DEL hit that cooperatively binds PRMT5:MEP50 and MTA to generate a catalytically inhibited ternary complex. X-ray crystallography confirms quinolin-2-amine binding of PRMT5 glutamate-444, while simultaneously exhibiting a hydrophobic interaction with MTA. Lead optimization produced AM-9747, which selectively inhibits PRMT5-directed symmetric dimethylation of arginine residues of proteins, leading to a potent reduction of cell viability in MTAP-del cells compared to MTAP-WT cells. Once-daily oral dosing of AM-9747 in mouse xenografts is well tolerated, displaying a robust and dose-dependent inhibition of symmetric dimethylation of arginine in MTAP-del tumor-xenografts and significant concomitant tumor growth inhibition without any significant effect on MTAP-WT tumor xenografts.

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Indication	Highest Phase	Country/Location	Organization	Date
Pancreatic Cancer	Preclinical	United States	Amgen, Inc.	05 Aug 2024
Methylthioadenosine phosphorylase deletion cancer	Preclinical	United States	Amgen, Inc.	15 Jun 2022

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