摘要：PRMT5抑制剂BMS-986504在MTAP纯合子缺失（MTAP-del）晚期实体瘤患者中的药效学（PD）和探索性生物标志物（BM）分析

IF 12.5 1区医学 Q1 ONCOLOGY

Cancer research Pub Date : 2025-04-25 DOI:10.1158/1538-7445.am2025-ct079

Jordi Rodón, Tyler Simpson, Ben George, Pasi A. Jänne, Kathryn C. Arbour, Konstantinos Leventakos, Kyriakos P. Papadopoulos, Melissa L. Johnson, Alexander I. Spira, Cesar A. Perez, Hani M. Babiker, Richard Zuniga, Candace L. Haddox, Tapsi Kumar, Yidi Qin, Wen-Chi Chou, Peter Olson, Kenna Anderes, Alice Wozniak, Curtis Chin, Ming Lei, Jason T. Henry

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In the first-in-human phase 1/2 CA240-0007 study, BMS-986504 was well tolerated and showed clinical activity in heavily pretreated pts across multiple advanced solid tumors with homozygous MTAP-del. Here, we report results of exploratory PD analyses of PRMT5 inhibition with BMS-986504 in CA240-0007. Methods: Pts with advanced, unresectable or metastatic solid tumors with homozygous MTAP-del received BMS-986504 (50 to 800 mg) in 3-wk cycles. Symmetric dimethylarginine (SDMA) and intron retention are known PD BMs of PRMT5 inhibition. Therefore, PD effects of BMS-986504 were assessed via changes in plasma and tumor SDMA levels (mass spec and IHC), intron retention, and gene expression (RNASeq) based on samples collected at baseline (BL) and cycle 2 day 1 (C2D1). Additional analyses correlating efficacy outcomes with PD results and select mutations at BL were performed in clinically evaluable pts as of 19-SEP-24. 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Responses were observed with BMS-986504 across EGFR, KRAS, and TP53 mutation subgroups. Additional correlative analyses among BMs and efficacy outcomes will be presented. Conclusions: BMS-986504 demonstrated robust PD effects across multiple doses and solid tumors which is consistent with the proposed mechanism of action. There was a trend of increasing plasma SDMA reduction across doses, with the greatest reductions observed at 400 mg QD and above. Together these results support further investigation of BMS-986504 at 400 mg QD and higher doses as a potential first-in-class synthetic lethal Tx option in pts with advanced solid tumors with MTAP-del. Citation Format: Jordi Rodón, Tyler Simpson, Ben George, Pasi A. Jänne, Kathryn C. Arbour, Konstantinos Leventakos, Kyriakos P. Papadopoulos, Melissa L. Johnson, Alexander I. Spira, Cesar A. Perez, Hani M. Babiker, Richard Zuniga, Candace L. 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引用次数: 0

摘要

背景：MTAP-del癌症（占所有癌症的10-15%）需要有效的治疗（Tx）。BMS-986504（原MRTX1719）是一种潜在的同类mta协同蛋白精氨酸甲基转移酶5 （PRMT5）抑制剂，可选择性结合PRMT5- mta复合物，这是MTAP-del而非mtap -野生型细胞的合成致死靶点。在首次人体1/2期CA240-0007研究中，BMS-986504具有良好的耐受性，并且在具有纯合子MTAP-del的多种晚期实体瘤的重度预处理患者中显示出临床活性。在这里，我们报告了探索性PD分析结果，BMS-986504抑制CA240-0007的PRMT5。方法：晚期、不可切除或转移性实体瘤伴纯合子MTAP-del的患者接受BMS-986504 （50 - 800 mg）治疗，周期为3周。对称二甲基精氨酸（SDMA）和内含子保留是已知的PRMT5抑制的PD脑转移瘤。因此，BMS-986504的PD效果是通过血浆和肿瘤SDMA水平（质谱和免疫结构）、内含子保留和基因表达（RNASeq）的变化来评估的，这些变化基于基线（BL）和周期2第1天（C2D1）收集的样本。在19-SEP-24的临床可评估患者中，对疗效结果与PD结果和BL选择突变进行了进一步的分析。结果：BMS-986504对PRMT5通路进行了稳健的PD调节。在样本匹配的患者中（n = 63），中位血浆SDMA水平从BL （122.6 ng/mL）降低到C2D1 (53.8 ng/mL)，降低了56%。中位血浆SDMA有剂量依赖性降低，400mg QD （59.7% [n = 20]）、400mg BID （61.9% [n = 9]）和600mg QD （59.1% [n = 14]）降低幅度最大。这些PD效应在肿瘤中得到证实。肿瘤中位SDMA水平从BL时的285降至C2D1时的0。与SDMA降低一致，在9/11患者中观察到与匹配样本相匹配的内含子保留增加。通过RNASeq评估，BMS-986504导致了包括DNA修复和有丝分裂纺锤体形成在内的几个基因通路以及MYC和E2F靶点的下调。MAT2A、PRMT5或其他PRMT基因的表达没有显著变化，表明缺乏通过这些基因对PRMT5抑制的补偿。在EGFR、KRAS和TP53突变亚组中观察到BMS-986504的反应。将介绍脑转移瘤与疗效结果之间的其他相关分析。结论：BMS-986504在多剂量和实体肿瘤中表现出强大的PD效应，这与所提出的作用机制一致。血浆SDMA在不同剂量下均有降低的趋势，400mg QD及以上时降低幅度最大。总之，这些结果支持进一步研究BMS-986504在每日400mg或更高剂量下作为MTAP-del晚期实体瘤患者潜在的一流合成致死性Tx选择。引用格式：Jordi Rodón， Tyler Simpson, Ben George, Pasi A. Jänne, Kathryn C. Arbour, Konstantinos Leventakos, Kyriakos P. Papadopoulos, Melissa L. Johnson, Alexander I. Spira, Cesar A. Perez, Hani M. Babiker, Richard Zuniga, Candace L. Haddox, Tapsi Kumar, Yidi Qin, Wen-Chi Chou, Peter Olson, Kenna Anderes, Alice Wozniak, Curtis Chin, Ming Lei, Jason T. Henry。PRMT5抑制剂BMS-986504在MTAP纯合子缺失（MTAP-del）晚期实体瘤患者（pts）中的药效学（PD）和探索性生物标志物（BM）分析[摘要]。摘自：《2025年美国癌症研究协会年会论文集》；第二部分（最新进展，临床试验，并邀请s）；2025年4月25日至30日；费城（PA）： AACR；中国癌症杂志，2015;35(5):391 - 391。

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Abstract CT079: Pharmacodynamic (PD) and exploratory biomarker (BM) analysis of the PRMT5 inhibitor BMS-986504 in patients (pts) with advanced solid tumors with homozygous MTAP deletion (MTAP-del)

Background: Effective treatments (Tx) are needed for MTAP-del cancers (10-15% of all cancers). BMS-986504 (formerly MRTX1719) is a potential first-in-class MTA-cooperative protein arginine methyltransferase 5 (PRMT5) inhibitor that selectively binds to the PRMT5-MTA complex, a synthetic lethal target in MTAP-del but not MTAP-wild-type cells. In the first-in-human phase 1/2 CA240-0007 study, BMS-986504 was well tolerated and showed clinical activity in heavily pretreated pts across multiple advanced solid tumors with homozygous MTAP-del. Here, we report results of exploratory PD analyses of PRMT5 inhibition with BMS-986504 in CA240-0007. Methods: Pts with advanced, unresectable or metastatic solid tumors with homozygous MTAP-del received BMS-986504 (50 to 800 mg) in 3-wk cycles. Symmetric dimethylarginine (SDMA) and intron retention are known PD BMs of PRMT5 inhibition. Therefore, PD effects of BMS-986504 were assessed via changes in plasma and tumor SDMA levels (mass spec and IHC), intron retention, and gene expression (RNASeq) based on samples collected at baseline (BL) and cycle 2 day 1 (C2D1). Additional analyses correlating efficacy outcomes with PD results and select mutations at BL were performed in clinically evaluable pts as of 19-SEP-24. Results: Robust PD modulation of the PRMT5 pathway was observed with BMS-986504. Among pts with matched samples (n = 63), median plasma SDMA levels were reduced by 56% from BL (122.6 ng/mL) to C2D1 (53.8 ng/mL). There were dose-dependent reductions in median plasma SDMA with the greatest reductions at 400 mg QD (59.7% [n = 20]), 400 mg BID (61.9% [n = 9]) and 600 mg QD (59.1% [n = 14]). These PD effects were corroborated in the tumor. Median tumor SDMA levels decreased from an HScore of 285 at BL to 0 at C2D1. Consistent with the SDMA decreases, increased intron retention was observed in 9/11 pts with matched samples. BMS-986504 led to downregulation of several gene pathways including DNA repair and mitotic spindle formation, and MYC and E2F targets, as assessed by RNASeq. There was no significant change in expression of MAT2A, PRMT5, or other PRMT genes, suggesting a lack of compensation for PRMT5 inhibition through these genes. Responses were observed with BMS-986504 across EGFR, KRAS, and TP53 mutation subgroups. Additional correlative analyses among BMs and efficacy outcomes will be presented. Conclusions: BMS-986504 demonstrated robust PD effects across multiple doses and solid tumors which is consistent with the proposed mechanism of action. There was a trend of increasing plasma SDMA reduction across doses, with the greatest reductions observed at 400 mg QD and above. Together these results support further investigation of BMS-986504 at 400 mg QD and higher doses as a potential first-in-class synthetic lethal Tx option in pts with advanced solid tumors with MTAP-del. Citation Format: Jordi Rodón, Tyler Simpson, Ben George, Pasi A. Jänne, Kathryn C. Arbour, Konstantinos Leventakos, Kyriakos P. Papadopoulos, Melissa L. Johnson, Alexander I. Spira, Cesar A. Perez, Hani M. Babiker, Richard Zuniga, Candace L. Haddox, Tapsi Kumar, Yidi Qin, Wen-Chi Chou, Peter Olson, Kenna Anderes, Alice Wozniak, Curtis Chin, Ming Lei, Jason T. Henry. Pharmacodynamic (PD) and exploratory biomarker (BM) analysis of the PRMT5 inhibitor BMS-986504 in patients (pts) with advanced solid tumors with homozygous MTAP deletion (MTAP-del) [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2025; Part 2 (Late-Breaking, Clinical Trial, and Invited s); 2025 Apr 25-30; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2025;85(8_Suppl_2): nr CT079.

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来源期刊

Cancer research 医学-肿瘤学

CiteScore

16.10

自引率

0.90%

发文量

7677

审稿时长

2.5 months

期刊介绍： Cancer Research, published by the American Association for Cancer Research (AACR), is a journal that focuses on impactful original studies, reviews, and opinion pieces relevant to the broad cancer research community. Manuscripts that present conceptual or technological advances leading to insights into cancer biology are particularly sought after. The journal also places emphasis on convergence science, which involves bridging multiple distinct areas of cancer research. With primary subsections including Cancer Biology, Cancer Immunology, Cancer Metabolism and Molecular Mechanisms, Translational Cancer Biology, Cancer Landscapes, and Convergence Science, Cancer Research has a comprehensive scope. It is published twice a month and has one volume per year, with a print ISSN of 0008-5472 and an online ISSN of 1538-7445. Cancer Research is abstracted and/or indexed in various databases and platforms, including BIOSIS Previews (R) Database, MEDLINE, Current Contents/Life Sciences, Current Contents/Clinical Medicine, Science Citation Index, Scopus, and Web of Science.