Abstract LB003: Fragment based discovery of MRTX9768, a synthetic lethal-based inhibitor designed to bind the PRMT5-MTA complex and selectively target MTAP/CDKN2A-deleted tumors

Christopher R. Smith, Kulyk Svitlana, J. Lawson, Lars D. Engstrom, Ruth Aranda, David M Briere, Robin J. Gunn, K. Moya, L. Rahbaek, Laurie Waters, A. Ivetac, J. Christensen, P. Olson, M. Marx
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引用次数: 3

Abstract

The MTAP gene is proximal to and co-deleted in nearly all CDKN2A-deleted cancers. This genetic alteration is present in an estimated 9% of all cancers and is especially prevalent in cancers with high unmet medical need (e.g. mesothelioma (32%), pancreatic (22%), lung squamous (20%)). Multiple independent research teams have demonstrated that tumor cell lines with homozygous MTAP deletions are hypersensitive to shRNA-mediated knock down of PRMT5. MTAP is required for the methionine salvage pathway and MTAP-del cells accumulate MTA, an inhibitory co-factor which competes for binding to the co-factor binding site of PRMT5 with the activating co-factor SAM. PRMT5 is a methyltransferase that adds symmetric dimethylarginine (SDMA) modification to proteins and is essential for mammalian cell survival. A small molecule that selectively binds and stabilizes the catalytically inactive PRMT5•MTA complex may represent a synthetic lethal-based precision medicine for the treatment of MTAP/CDKN2A—del tumors. Notably, 1st generation PRMT5 small molecule inhibitors do not target MTA-complexed PRMT5 and do not exhibit selective inhibition of MTAP-del cancer cells. Here we report a new series of compounds discovered via a fragment-based approach that selectively bind to the PRMT5•MTA complex. A fragment hit was identified in an SPR binding assay with PRMT5•MTA (KD 18 μM). The binding mode was determined by X-ray crystallography and revealed that the fragment makes productive interactions with K333, F327, E435, E444, E435, and W579 of PRMT5 as well as with the co-liganded MTA. Fragment growing aided by structure-based design identified a key interaction with the L312 backbone N-H that enhances binding to PRMT5•MTA (MRTX4646, SPR KD 57 nM). Further exploration highlighted an interaction with the F580 backbone N-H as important for cellular activity and selectivity. This interaction with F580 was illustrated by MRTX7512 which exhibits an IC50 value of 633 nM for inhibition of SDMA in engineered HCT116 MTAP-del cells and demonstrates 15-fold selectivity compared with HCT116 MTAP-WT cells (IC50 9763 nM). Further optimization of cellular potency and pharmacokinetic properties identified MRTX9768, a potent inhibitor of SDMA and cell proliferation in HCT116 MTAP-del cells (SDMA IC50 3 nM; prolif. IC50 11 nM) with marked selectivity over HCT116 MTAP-WT cells (SDMA IC50 544 nM; prolif. IC50 861 nM). In xenograft studies, oral administration of MRTX9768 demonstrates dose-dependent inhibition of SDMA in MTAP-del tumors, with less SDMA modulation observed in bone marrow. In summary, we have used a fragment-based approach to discover a new class of orally active PRMT5•MTA inhibitors that demonstrate selective antitumor activity in MTAP-del tumor cells while sparing MTAP-WT cells. Citation Format: Christopher R. Smith, Svitlana Kulyk, J. D. Lawson, Lars D. Engstrom, Ruth Aranda, David M. Briere, Robin Gunn, Krystal Moya, Lisa Rahbaek, Laura Waters, Anthony Ivetac, James G. Christensen, Peter Olson, Matthew A. Marx. Fragment based discovery of MRTX9768, a synthetic lethal-based inhibitor designed to bind the PRMT5-MTA complex and selectively target MTAP/CDKN2A-deleted tumors [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr LB003.
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LB003:基于片段的MRTX9768的发现,MRTX9768是一种合成的致命性抑制剂,旨在结合PRMT5-MTA复合物并选择性靶向MTAP/ cdkn2a缺失的肿瘤
MTAP基因在几乎所有cdkn2a缺失的癌症中都是近端和共缺失的。在所有癌症中,估计有9%存在这种基因改变,在医疗需求未得到满足的癌症中尤其普遍(例如间皮瘤(32%)、胰腺癌(22%)、肺鳞癌(20%))。多个独立研究团队已经证明,MTAP纯合子缺失的肿瘤细胞系对shrna介导的PRMT5敲低敏感。MTAP是甲硫氨酸回收途径所必需的,MTAP-del细胞积累MTA, MTA是一种抑制辅因子,与激活辅因子SAM竞争结合PRMT5的辅因子结合位点。PRMT5是一种甲基转移酶,可将对称二甲基精氨酸(SDMA)修饰添加到蛋白质中,对哺乳动物细胞存活至关重要。一种选择性结合并稳定无催化活性PRMT5•MTA复合物的小分子可能代表了一种基于致命的合成精准药物,用于治疗MTAP/ CDKN2A-del肿瘤。值得注意的是,第一代PRMT5小分子抑制剂不靶向mta络合的PRMT5,也不表现出对MTAP-del癌细胞的选择性抑制。在这里,我们报告了通过基于片段的方法发现的一系列新的化合物,这些化合物选择性地结合到PRMT5•MTA复合物上。在PRMT5•MTA (KD为18 μM)的SPR结合实验中发现了一个片段命中。结合模式通过x射线晶体学确定,发现该片段与PRMT5的K333、F327、E435、E444、E435和W579以及共配的MTA产生了有效的相互作用。在基于结构设计的辅助下,片段生长确定了与L312骨架N-H的关键相互作用,增强了与PRMT5•MTA (MRTX4646, SPR KD 57 nM)的结合。进一步的研究表明,与F580骨架N-H的相互作用对细胞活性和选择性很重要。MRTX7512证实了与F580的相互作用,在HCT116 MTAP-del细胞中抑制SDMA的IC50值为633 nM,与HCT116 MTAP-WT细胞(IC50为9763 nM)相比,其选择性为15倍。进一步优化细胞效度和药代动力学特性,鉴定出HCT116 MTAP-del细胞(SDMA IC50 3 nM;prolif。IC50 11 nM)对HCT116 MTAP-WT细胞有明显的选择性(SDMA IC50 544 nM;prolif。IC50 861 nM)。在异种移植研究中,口服MRTX9768显示出对MTAP-del肿瘤中SDMA的剂量依赖性抑制,在骨髓中观察到较少的SDMA调节。总之,我们使用基于片段的方法发现了一类新的口服活性PRMT5•MTA抑制剂,该抑制剂在MTAP-del肿瘤细胞中表现出选择性抗肿瘤活性,同时保留了MTAP-WT细胞。引用格式:Christopher R. Smith, Svitlana Kulyk, J. D. Lawson, Lars D. Engstrom, Ruth Aranda, David M. Briere, Robin Gunn, crystal Moya, Lisa Rahbaek, Laura Waters, Anthony Ivetac, James G. Christensen, Peter Olson, Matthew A. Marx基于片段的MRTX9768的发现,MRTX9768是一种合成的基于致命的抑制剂,旨在结合PRMT5-MTA复合物并选择性靶向MTAP/ cdkn2a缺失的肿瘤[摘要]。见:美国癌症研究协会2021年年会论文集;2021年4月10日至15日和5月17日至21日。费城(PA): AACR;癌症杂志,2021;81(13 -增刊):摘要nr LB003。
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