Targeting the intracellular immune checkpoint CISH with CRISPR-Cas9-edited T cells in patients with metastatic colorectal cancer: a first-in-human, single-centre, phase 1 trial

The Lancet Oncology Pub Date : 2025-04-29 DOI:10.1016/s1470-2045(25)00083-x

Emil Lou, Modassir S Choudhry, Timothy K Starr, Timothy D Folsom, Jason Bell, Blaine Rathmann, Anthony P DeFeo, Jihyun Kim, Nicholas Slipek, Zhaohui Jin, Darin Sumstad, Christopher A Klebanoff, Katherine Ladner, Akshat Sarkari, R Scott McIvor, Thomas A Murray, Jeffrey S Miller, Madhuri Rao, Eric Jensen, Jacob Ankeny, Branden S Moriarity

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Abstract

Background

Over the past decade, immunotherapeutic strategies—mainly targeting the PD-1–PD-L1 immune checkpoint axis—have altered cancer treatment for many solid tumours, but few patients with gastrointestinal forms of cancer have benefited to date. There remains an urgent need to extend immunotherapy efficacy to more patients while addressing resistance to current immune checkpoint inhibitors. The aim of this study was to determine the safety and anti-tumour activity of knockout of CISH, which encodes cytokine-inducible SH2-containing protein, a novel intracellular immune checkpoint target and a founding member of the SOCS family of E3-ligases, using tumour infiltrating lymphocyte (TILs) genetically edited with CRISPR-Cas9 in patients with metastatic gastrointestinal epithelial cancers.

Methods

For this first-in-human, single-centre, phase 1 trial, patients aged 18–70 years with a diagnosis of metastatic gastrointestinal epithelial cancer with progressive disease following at least one first line standard therapy, measurable disease with at least one lesion identified as resectable for TIL generation and at least one other lesion meeting RECIST criteria as measurable to serve as an indicator of disease response, and an ECOG performance status of 0 or 1 were screened and enrolled if meeting these and all other eligibility criteria. TILs procured from tumour biopsies were expanded on the basis of neoantigen reactivity, subjected to CRISPR-Cas9-mediated CISH knockout, and infused intravenously into 12 patients after non-myeloablative lymphocyte depleting chemotherapy (cyclophosphamide 60 mg/kg per dose on study days –6 and –5, and fludarabine 25 mg/m² per dose on days –7 to –3) followed by high-dose IL-2 (aldesleukin; 720 000 IU/kg per dose). The primary endpoint was safety of administration of neoantigen-reactive TILs with knockout of the CISH gene, and a key secondary endpoint was anti-tumour activity measured as objective radiographic response and progression-free and overall survival. This study is registered with ClinicalTrials.gov, NCT04426669, and is complete.

Findings

Between May 12, 2020, and Sept 16, 2022, 22 participants were enrolled in the trial (one patient was enrolled twice owing to lack of TIL outgrowth on the first attempt); ten patients were female, and 11 were male (self-defined). One patient was Asian, the remainder were White (self-defined). We successfully manufactured CISH knockout TIL products for 19 (86%) of the patients, of whom 12 (63%) received autologous CISH knockout TIL infusion. The median follow-up time for the study was 129 days (IQR 15–283). All 12 (100%) patients had treatment-related severe adverse events. The most common grade 3–4 adverse events included haematological events (12 patients [100%]) attributable to the preparative lymphodepleting chemotherapy regimen or expected effects of IL-2, fatigue (four patients [33%]), and anorexia (three patients [25%]). Deaths of any cause for patients on study were attributed to the underlying disease under study (metastatic gastrointestinal cancer) and related complications (10 patients) or infection (grade 5 septicaemia in one patient). There were no severe (≥grade 3) cytokine release or neurotoxicity events. Six (50%) of 12 patients had stable disease by day 28, and four (33%) had stable disease ongoing at 56 days. One young adult patient with microsatellite-instability-high colorectal cancer refractory to anti-PD1/CTLA-4 therapies had a complete and ongoing response (>21 months).

Interpretation

These results support the safety and potential antitumour activity of inhibiting the immune checkpoint CISH through the administration of neoantigen-reactive CISH-knockout TILs, with implications for patients with advanced metastatic cancers refractory to checkpoint inhibitor immunotherapies, and provide the first evidence that a novel intracellular checkpoint can be targeted with therapeutic effect.

Funding

Intima Bioscience.

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用crispr - cas9编辑的T细胞靶向转移性结直肠癌患者的细胞内免疫检查点CISH：一项首次人体单中心1期试验

在过去的十年中，免疫治疗策略-主要针对PD-1-PD-L1免疫检查点轴-已经改变了许多实体肿瘤的癌症治疗，但迄今为止很少有胃肠道形式的癌症患者受益。在解决对当前免疫检查点抑制剂的耐药性的同时，迫切需要将免疫治疗的疗效扩展到更多的患者。本研究的目的是在转移性胃肠道上皮癌患者中，利用CRISPR-Cas9基因编辑的肿瘤浸润淋巴细胞（til），确定敲除CISH的安全性和抗肿瘤活性。CISH编码细胞因子诱导的含sh2蛋白，这是一种新的细胞内免疫检查点靶点，也是SOCS家族e3连接酶的创始成员。在这项首次人体单中心一期试验中，年龄在18-70岁，诊断为转移性胃肠道上皮癌并伴有进展性疾病的患者接受至少一种一线标准治疗，可测量的疾病，至少有一个病变被确定为可切除的TIL产生，至少有一个其他病变符合RECIST标准，可测量作为疾病反应指标。并且ECOG表现状态为0或1，如果符合这些和所有其他资格标准，则进行筛选并入组。在新抗原反应性的基础上，从肿瘤活检中获得TILs，进行crispr - cas9介导的CISH敲除，并静脉注射给12名非清髓性淋巴细胞消耗化疗后的患者（研究第6天和第5天环磷酰胺每剂量60 mg/kg，氟达拉平每剂量25 mg/m2，第7天至第3天），然后是高剂量IL-2(白介素；72万IU/kg每剂)。主要终点是敲除CISH基因的新抗原反应性TILs的安全性，关键的次要终点是抗肿瘤活性，即客观放射反应和无进展生存期和总生存期。本研究已在ClinicalTrials.gov注册，编号NCT04426669，并且已经完成。在2020年5月12日至2022年9月16日期间，22名参与者入组了该试验（一名患者因第一次尝试时没有TIL生长而入组两次）；女性10例，男性11例（自定义）。一名患者为亚洲人，其余为白人（自定义）。我们成功地为19例（86%）患者制造了CISH敲除TIL产品，其中12例（63%）患者接受了自体CISH敲除TIL输注。该研究的中位随访时间为129天（IQR 15-283）。所有12例（100%）患者均发生与治疗相关的严重不良事件。最常见的3-4级不良事件包括血液学事件（12例[100%]），可归因于预备性淋巴消耗化疗方案或IL-2的预期作用，疲劳（4例[33%]）和厌食症（3例[25%]）。研究中患者的任何死因均归因于研究中的基础疾病（转移性胃肠道癌）和相关并发症（10例）或感染（1例5级败血症）。没有严重的（≥3级）细胞因子释放或神经毒性事件。12例患者中有6例（50%）在第28天病情稳定，4例（33%）在第56天病情稳定。一名患有微卫星不稳定性高的结直肠癌的年轻成人患者对抗pd1 /CTLA-4治疗有完全和持续的反应（21个月）。这些结果支持了通过给药新抗原反应性CISH敲除TILs抑制免疫检查点CISH的安全性和潜在的抗肿瘤活性，对检查点抑制剂免疫治疗难治的晚期转移性癌症患者有意义，并提供了一个新的细胞内检查点可以靶向治疗效果的第一个证据。FundingIntima生物科学。

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The Lancet Oncology

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