Abstract CT263: Efficacy and multiomic analysis of Niraparib in relapsed mesothelioma: NERO a randomized phase II trial

IF 12.5 1区医学 Q1 ONCOLOGY

Cancer research Pub Date : 2025-04-25 DOI:10.1158/1538-7445.am2025-ct263

Dean Fennell, Kayleigh Hill, Zina Eminton, Daniel Griffiths, Abigail Morgan-Fox, Charlotte Poile, Aleksandra Bzura, Jake Spicer, Min Zhang, Joanna Dzialo, Daniel Faulkner, Jinli Luo, Apostolos Nakas, Kudzayi Kutywayo, Geoff Saunders, Theodora Nearchou, Andrea Corkhill, Katie Mansell, Zoë Konn, Oli Dewane, Mavis Nye, Kathryn Murphy, Julia Tabreham, Liz Darlison, Judith Cave, Sarah Danson, Liz Toy, Pooja Bhatnagar, Nicola Steele, Paul Shaw, Paul Taylor, Peter Szlosarek, Dionysis Papadatos-Pastos, Michael Lind, Harman Saman, Shagufta Mirza, Lynn Campbell, Peter-Wells Jordan, Amrita Bajaj, Sean Duloo, Maurice Dungey, Gareth Griffiths

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Effective therapy in the relapsed setting, following standard of care treatments is lacking [1]. Inhibition of Poly-ADP ribose polymerase (PARPi) mediates synthetic lethality in cancers harboring DNA damage response gene (DDR) inactivation, notably BRCA1/2 resulting in homologous recombination deficiency (HRD), and transcription replication conflicts (TRCs). In relapsed mesothelioma PARPi was clinically active in the MIST1 phase II trial [2], warranting interrogation of underlying mechanisms and further randomized evaluation. Methods: NERO, NCT05455424 a multi-center, two-arm, open-label UK 2:1 randomized phase II trial compared active symptom control (ASC) with or without Niraparib (Nir). Eligibility: Relapsed mesothelioma with prior platinum doublet therapy (any line). The ASC+Nir arm received 200 or 300 mg daily in a 3-weekly cycle up to 24 weeks, with the option to continue if there was ongoing disease control. Primary endpoint: progression-free survival (PFS), one-sided α=0.1 with 80% power. In parallel, whole exome and transcriptomic analyses of the NERO, MIST1 cohort [2], primary patient derived explants (PDEs) and cell lines were conducted to understand correlates of PARPi sensitivity. Results: Between 11th July 2022 and 21st December 2023, 88 patients were enrolled. Characteristics: male: n = 62 (70.5%), median age: 72 (range 33-84) years, disease site: 77 (87.5%) had pleural mesothelioma. 83 (94.3%) PFS events were observed. Median (95% CI) PFS was 4.14 months (m) (2.76, 4.73) in the ASC + Nir arm versus 2.76m (1.41, 3.02) corresponding to an unadjusted PFS HR of 0.73 (one sided 90% CI 0.99, p-value 0.091). 6m PFS rate (95% CI) was 24.6% (14.4%, 36.2%) for ASC+Nir versus 13.8% (4.4%, 28.6%) for ASC. Most common Adverse Events (&gt;20%) in the ASC+Nir arm: Fatigue (52.6%), Constipation (45.6%) & Nausea (43.9%). Interferon (IFN) α transcription (9p21.3) but not HRD or DDR gene burden was correlated with sensitivity to PARPi in MIST1, two PDE cohorts (Niraparib and Rucaparib), and in mesothelioma cell lines treated with multiple PARPi’s. Pattern recognition receptor signaling (Toll and RIG-I) positively correlated with IFNα, which in turn was associated with R-loops, a surrogate of TRCs across all models. MTAP/IFNA deletion at 9p21.3 inhibited PARPi activity in patients. Conclusions: NERO met its primary endpoint of longer PFS in patients with relapsed mesothelioma. PARPi response is predicted by IFNα transcription and 9p21.3 deletion status. Multiomic analysis of NERO is ongoing and will be presented. NERO is funded by Asthma and Lung UK (MCTA20F\\2) with drug supplied by GSK. 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引用次数: 0

Abstract

Background: Mesothelioma is a lethal cancer caused by asbestos. Effective therapy in the relapsed setting, following standard of care treatments is lacking [1]. Inhibition of Poly-ADP ribose polymerase (PARPi) mediates synthetic lethality in cancers harboring DNA damage response gene (DDR) inactivation, notably BRCA1/2 resulting in homologous recombination deficiency (HRD), and transcription replication conflicts (TRCs). In relapsed mesothelioma PARPi was clinically active in the MIST1 phase II trial [2], warranting interrogation of underlying mechanisms and further randomized evaluation. Methods: NERO, NCT05455424 a multi-center, two-arm, open-label UK 2:1 randomized phase II trial compared active symptom control (ASC) with or without Niraparib (Nir). Eligibility: Relapsed mesothelioma with prior platinum doublet therapy (any line). The ASC+Nir arm received 200 or 300 mg daily in a 3-weekly cycle up to 24 weeks, with the option to continue if there was ongoing disease control. Primary endpoint: progression-free survival (PFS), one-sided α=0.1 with 80% power. In parallel, whole exome and transcriptomic analyses of the NERO, MIST1 cohort [2], primary patient derived explants (PDEs) and cell lines were conducted to understand correlates of PARPi sensitivity. Results: Between 11th July 2022 and 21st December 2023, 88 patients were enrolled. Characteristics: male: n = 62 (70.5%), median age: 72 (range 33-84) years, disease site: 77 (87.5%) had pleural mesothelioma. 83 (94.3%) PFS events were observed. Median (95% CI) PFS was 4.14 months (m) (2.76, 4.73) in the ASC + Nir arm versus 2.76m (1.41, 3.02) corresponding to an unadjusted PFS HR of 0.73 (one sided 90% CI 0.99, p-value 0.091). 6m PFS rate (95% CI) was 24.6% (14.4%, 36.2%) for ASC+Nir versus 13.8% (4.4%, 28.6%) for ASC. Most common Adverse Events (>20%) in the ASC+Nir arm: Fatigue (52.6%), Constipation (45.6%) & Nausea (43.9%). Interferon (IFN) α transcription (9p21.3) but not HRD or DDR gene burden was correlated with sensitivity to PARPi in MIST1, two PDE cohorts (Niraparib and Rucaparib), and in mesothelioma cell lines treated with multiple PARPi’s. Pattern recognition receptor signaling (Toll and RIG-I) positively correlated with IFNα, which in turn was associated with R-loops, a surrogate of TRCs across all models. MTAP/IFNA deletion at 9p21.3 inhibited PARPi activity in patients. Conclusions: NERO met its primary endpoint of longer PFS in patients with relapsed mesothelioma. PARPi response is predicted by IFNα transcription and 9p21.3 deletion status. Multiomic analysis of NERO is ongoing and will be presented. NERO is funded by Asthma and Lung UK (MCTA20F\2) with drug supplied by GSK. [1] Janes, Alrifai, Fennell N Engl J Med 2021 (385) p1207-1218 [2] Fennell et al, Lancet Respir Med 2021 (9) p593-600 Citation Format: Dean Fennell, Kayleigh Hill, Zina Eminton, Daniel Griffiths, Abigail Morgan-Fox, Charlotte Poile, Aleksandra Bzura, Jake Spicer, Min Zhang, Joanna Dzialo, Daniel Faulkner, Jinli Luo, Apostolos Nakas, Kudzayi Kutywayo, Geoff Saunders, Theodora Nearchou, Andrea Corkhill, Katie Mansell, Zoë Konn, Oli Dewane, Mavis Nye, Kathryn Murphy, Julia Tabreham, Liz Darlison, Judith Cave, Sarah Danson, Liz Toy, Pooja Bhatnagar, Nicola Steele, Paul Shaw, Paul Taylor, Peter Szlosarek, Dionysis Papadatos-Pastos, Michael Lind, Harman Saman, Shagufta Mirza, Lynn Campbell, Peter-Wells Jordan, Amrita Bajaj, Sean Duloo, Maurice Dungey, Gareth Griffiths. Efficacy and multiomic analysis of Niraparib in relapsed mesothelioma: NERO a randomized phase II trial [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 CT263.

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CT263：尼拉帕尼治疗复发间皮瘤的疗效和多组学分析：NERO一项随机II期试验

背景：间皮瘤是由石棉引起的致死性癌症。在复发的情况下，缺乏有效的治疗，遵循标准的护理治疗。抑制多聚adp核糖聚合酶（PARPi）介导DNA损伤反应基因（DDR）失活的癌症的合成致死性，特别是BRCA1/2导致同源重组缺陷（HRD）和转录复制冲突（TRCs）。在复发间皮瘤中，PARPi在MIST1 II期试验中具有临床活性，值得对其潜在机制进行调查和进一步的随机评估。方法：NERO， NCT05455424，一项多中心，两组，开放标签UK 2:1随机II期试验，比较活性症状对照（ASC）使用或不使用尼拉帕尼（Nir）。资格：复发间皮瘤既往铂双药治疗（任何线）。ASC+Nir组每天接受200或300 mg， 3周周期，直至24周，如果疾病得到持续控制，可选择继续。主要终点：无进展生存期（PFS），单侧α=0.1，功率为80%。同时，对NERO、MIST1队列[2]、原发患者衍生外植体（PDEs）和细胞系进行了全外显子组和转录组分析，以了解PARPi敏感性的相关因素。结果：在2022年7月11日至2023年12月21日期间，88名患者入组。特征：男性：n = 62(70.5%)，中位年龄：72（33-84）岁，疾病部位：77（87.5%）有胸膜间皮瘤。观察到83例（94.3%）PFS事件。ASC + Nir组的中位PFS （95% CI）为4.14个月(m)(2.76, 4.73)，而ASC + Nir组的中位PFS为2.76m(1.41, 3.02)，对应于未调整的PFS HR为0.73（单侧90% CI 0.99， p值0.091）。ASC+Nir的600万PFS率（95% CI）为24.6%(14.4%,36.2%)，而ASC为13.8%（4.4%,28.6%）。ASC+Nir组最常见的不良事件（20%）：疲劳（52.6%），便秘（45.6%）；恶心(43.9%)。在MIST1、两个PDE队列（Niraparib和Rucaparib）以及使用多种PARPi治疗的间皮瘤细胞系中，干扰素(IFN) α转录（9p21.3）而非HRD或DDR基因负荷与PARPi敏感性相关。模式识别受体信号（Toll和RIG-I）与IFNα呈正相关，而IFNα又与r环（所有模型中TRCs的替代品）相关。9p21.3位点MTAP/IFNA缺失抑制了患者的PARPi活性。结论：NERO达到了复发间皮瘤患者更长的PFS的主要终点。通过IFNα转录和9p21.3缺失状态预测PARPi应答。NERO的多组学分析正在进行中，并将提出。NERO由Asthma and Lung UK （MCTA20F\2）资助，药物由GSK提供。[1] james, Alrifai, Fennell N Engl J Med 2021 (385) p1207-1218 [2] Fennell et al . Lancet respiratory Med 2021 (9) p593-600迪恩·芬内尔、凯莉·希尔、吉娜·埃明顿、丹尼尔·格里菲思、阿比盖尔·摩根-福克斯、夏洛特·普尔、亚历山德拉·布祖拉、杰克·斯派塞、张敏、乔安娜·迪亚洛、丹尼尔·福克纳、杰克·罗金丽、阿波斯托洛斯·纳卡斯、库德扎伊·库特维约、杰夫·桑德斯、西奥多拉·尼阿库、安德烈·考克希尔、凯蒂·曼塞尔、Zoë康恩、奥利·德瓦内、梅维斯·奈、凯瑟琳·墨菲、朱莉娅·塔布勒汉姆、莉兹·达利森、朱迪思·凯夫、莎拉·丹森、莉兹·托伊、普贾·巴塔纳加尔、尼古拉·斯蒂尔、保罗·肖、保罗·泰勒、彼得·斯洛萨莱克、迪奥尼西斯·帕帕达托斯-帕斯托斯、迈克尔·林德、哈曼·萨曼、沙古塔·米尔扎、林恩·坎贝尔、彼得-威尔斯·乔丹、阿姆里塔·巴贾吉、肖恩·杜鲁、莫里斯·邓吉、加雷斯·格里菲斯。尼拉帕尼治疗复发间皮瘤的疗效及多组学分析：NERO一项随机II期试验[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；中国生物医学工程学报（英文版）；2009;31(5):391 - 391。

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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.