First in Human Phase I/II clinical trial of ONC-392: Preserving CTLA-4 immune tolerance checkpoint for safer and more effective cancer immunotherapy
ONC-392首个人体I/II期临床试验:保留CTLA-4免疫耐受检查点,实现更安全、更有效的癌症免疫治疗
基本信息
- 批准号:10381557
- 负责人:
- 金额:$ 100万
- 依托单位:
- 依托单位国家:美国
- 项目类别:
- 财政年份:2020
- 资助国家:美国
- 起止时间:2020-04-03 至 2023-03-31
- 项目状态:已结题
- 来源:
- 关键词:Adverse eventAftercareAntibodiesAutoimmune DiseasesBiologicalBiopsyCTLA4 geneCancer PatientCellsClinicalClinical ResearchDataDisease ResistanceDoseDrug KineticsEnrollmentExhibitsFeedbackGenerationsGoalsGrantHistologyHumanImmune TargetingImmune ToleranceImmune checkpoint inhibitorImmunotherapeutic agentImmunotherapyInfrastructureLeukocytesMalignant neoplasm of lungNon-Small-Cell Lung CarcinomaOutcomePatientsPeripheralPhasePhase I/II Clinical TrialPhase I/II TrialPlayPreparationRefractoryRegulatory T-LymphocyteResistanceRoleSafetySamplingSmall Business Innovation Research GrantSolid NeoplasmSuspensionsT-LymphocyteT-Lymphocyte SubsetsTestingTherapeuticTitrationsToxic effectadvanced diseaseanti-CTLA4anti-CTLA4 antibodiesarmcancer immunotherapeuticscancer immunotherapycohortefficacy testingfirst-in-humanhumanized mouseimmune checkpointmeetingsmouse modelnext generationnonhuman primateopen labelpembrolizumabphase I trialphase II trialpre-clinicalpreclinical studypreservationrecruitresearch clinical testingsafety testingsingle-cell RNA sequencingtumortumor microenvironment
项目摘要
Summary
A major paradigm in cancer immunotherapy is to use checkpoint inhibitors to break regulatory mechanisms
that guard the host against autoimmune diseases. CTLA-4-targeting immunotherapy was the first example to
establish this paradigm. However, the clinically tested anti-CTLA-4 antibodies exhibit suboptimal efficacy but
high toxicity. Our preclinical study demonstrate that this outcome is predicated by inactivating the CTLA-4
checkpoint that plays important role in immune tolerance protecting body against autoimmune diseases.
Importantly, our studies have demonstrated that immunotherapy-related adverse events (irAE) and the cancer
immunotherapeutic effect (CITE) represent distinct and therapeutically separable activities of anti-CTLA-4
antibodies. The irAE is attributable to inactivation of CTLA-4 checkpoint, while the CITE is effective through
selective depletion of regulatory T cells (Treg) in tumor microenvironment.
We hypothesize that a safer and more effective CTLA-4-targeting immunotherapy should preserve rather
than inhibit the CTLA-4 checkpoint while enhancing the efficacy and selectivity of Treg-depletion in
tumor microenvironment.
In preparation to test this ground-breaking hypothesis clinically, we have generated a new generation of anti-
CTLA-4 antibodies that preserving CTLA-4 immune checkpoint by avoiding lysosomal degradation of CTLA-4.
The new antibody, ONC-392, has dramatically lower irAEs in humanized mouse model and significantly higher
potent activity in depleting tumor-infiltrating regulatory T cells, resulting in more effective CITE. We have
conducted IND-enabling studies, including GMP-grade manufacturing and GLP toxicity in non-human primate.
We have also sought FDA feedback on our clinical plan through a pre-IND meeting. These progresses
allowed us to propose a Fast Track Phase 1/2 SBIR application to determine safety and efficacy of ONC-392 in
human cancer patients. With the support of the SBIR grant, we will carry out an open label Phase I/II clinical
study to test the safety, pharmacokinetics (PK), and efficacy of ONC-392 as a single agent and in
combination with Pembrolizumab in advanced solid tumors and non-small cell lung cancer patients.
Our proposed study will not only confirm safety of ONC-392, but also provide clinical proof-of-concept data for
our new paradigm of CTLA-4 targeting cancer immunotherapy.
总结
癌症免疫治疗的一个主要范例是使用检查点抑制剂来打破调控机制
保护宿主免受自身免疫性疾病的侵害CTLA-4靶向免疫疗法是第一个
建立这种范式。然而,临床测试的抗CTLA-4抗体表现出次优的功效,
高毒性。我们的临床前研究表明,这种结果是通过灭活CTLA-4来预测的。
在免疫耐受中起重要作用的检查点,保护机体免受自身免疫性疾病的侵害。
重要的是,我们的研究表明,免疫治疗相关的不良事件(irAE)和癌症
免疫抑制作用(CITE)代表抗CTLA-4独特和治疗上可分离的活性
抗体的irAE可归因于CTLA-4检查点的失活,而CITE通过以下途径有效:
选择性耗竭肿瘤微环境中的调节性T细胞(Treg)。
我们假设,一种更安全、更有效的CTLA-4靶向免疫治疗应该保留,而不是保留。
而不是抑制CTLA-4检查点,同时增强Treg耗竭的功效和选择性,
肿瘤微环境
为了准备在临床上测试这一突破性的假设,我们已经产生了新一代的抗-
CTLA-4抗体通过避免CTLA-4的溶酶体降解来保留CTLA-4免疫检查点。
新抗体ONC-392在人源化小鼠模型中具有显著降低的irAE,并且在人源化小鼠模型中具有显著升高的irAE。
在消耗肿瘤浸润性调节性T细胞方面的有效活性,导致更有效的CITE。我们有
进行IND使能研究,包括GMP级生产和非人灵长类动物GLP毒性。
我们还通过IND前会议寻求FDA对我们临床计划的反馈。这些进展
允许我们提出一个快速通道阶段1/2 SBIR应用,以确定ONC-392的安全性和有效性,
人类癌症患者。在SBIR赠款的支持下,我们将开展一项开放标签的I/II期临床试验,
一项旨在测试ONC-392作为单药和在
在晚期实体瘤和非小细胞肺癌患者中与Pembrolizumab组合。
我们提出的研究不仅将证实ONC-392的安全性,而且还将提供临床概念验证数据,
我们的新范例CTLA-4靶向癌症免疫疗法。
项目成果
期刊论文数量(0)
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{{ truncateString('Kai He', 18)}}的其他基金
First in Human Phase I/II clinical trial of ONC-392: Preserving CTLA-4 immune tolerance checkpoint for safer and more effective cancer immunotherapy
ONC-392首个人体I/II期临床试验:保留CTLA-4免疫耐受检查点,实现更安全、更有效的癌症免疫治疗
- 批准号:
10303238 - 财政年份:2020
- 资助金额:
$ 100万 - 项目类别:
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