348 TIL engineered with membrane-bound IL15 (cytoTIL15™) are enriched for tumor-associated antigen reactivity and demonstrate pharmacologically tunable expansion and persistence in the presence of TAA

Rachel A Burga, Alonso Villasmil Ocando, Arman Aksoy, Kyle Pedro, Gauri Kulkarni, Meghan Langley, Benjamin Primack, Theresa Ross, Violet Young, Jeremy Tchaicha, Jan ter Meulen, Michelle Ols
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Abstract

Background

We have previously demonstrated the successful generation of membrane-bound IL15 (mbIL15) engineered TIL (cytoTIL15™ therapy) from solid tumors, and acetazolamide (ACZ)-driven regulated expression of mbIL15 resulted in TIL persistence in an antigen-independent preclinical model (SITC 2021, 2022). Here, we evaluated the function of pharmacologically tunable mbIL15 in the setting of chronic antigen stimulation by melanoma tumor-associated antigens (TAAs), such as MART1.

Methods

CytoTIL15 cells were manufactured from metastatic melanoma TIL donors by introducing mbIL15 under the pharmacological control of a carbonic-anhydrase-2 (CA2) drug responsive domain (DRD) via ACZ, the stabilizing ligand, and expanded through a proprietary rapid expansion process (REP). ACZ-dependent IL15 expression and downstream signaling were assessed. In vitro, we employed peptide-loaded HLA-A*0201 T2 cells to present MART-1 to TIL for evaluation of TCR-based functionality. CytoTIL15 cells treated with 0–25 µM ACZ were stimulated with antigen twice weekly over 28 days, with routine assessments of cell health, phenotype, cytokine production, and gene expression. In vivo, antigen-independent cytoTIL15 cell persistence in response to ACZ doses was evaluated after adoptive transfer of the TIL into immunodeficient NSG mice.

Results

Compared to unengineered TIL, generation of cytoTIL15 therapy from melanoma-derived TIL led to an overall 2.3-fold enrichment of MART1-reactive TIL. CytoTIL15 cells exhibited ACZ-dependent expansion in response to repeat MART1 stimulation, with TIL reaching maximums of 2, 9, and 18-fold expansion for 0, 1, and 25µM of ACZ, respectively. Chronic antigen exposure revealed an ACZ-driven IL15-dependent enrichment of >80% MART1-reactive TIL, and an increase in effector cytokine production and polyfunctionality (IFNγ, IL2Rα, TNFα, IL2, Perforin, CD107a, Granzyme B). CytoTIL15 cells driven by ACZ demonstrated maintenance of a functional cytotoxic signature, which was enriched in the antigen-reactive cell population. Despite repeated antigen-stimulation, withdrawal of ACZ reduced cytokine production and persistence of the MART1-enriched cytoTIL15 cell population in vitro. In vivo studies further underscored ACZ-dependent tunability of cytoTIL15 cells, as increased ACZ doses enhanced TIL persistence (AUC: 41, 111, and 306%TIL*day for 0, 30, and 200mg/kg ACZ QD), and ACZ withdrawal after 8 days reduced TIL persistence by 1.7-fold.

Conclusions

The expansion and persistence of tumor specific cytoTIL15 cells in the setting of chronic antigen exposure was regulatable by ACZ-dependent mbIL15 expression. This concept supports clinical evaluation of OBX-115 in the relapsed metastatic melanoma setting without concurrent IL-2 administration (NCT05470283).
348 TIL经膜结合il - 15 (cytoTIL15™)修饰后,具有肿瘤相关抗原的活性,并在TAA存在下表现出药理学上可调节的扩增和持久性
我们之前已经证明了从实体肿瘤中成功产生膜结合il - 15 (mbIL15)工程TIL (cytoTIL15™疗法),并且乙酰唑胺(ACZ)驱动的mbIL15的调节表达导致TIL在抗原独立的临床前模型中持续存在(SITC 2021, 2022)。在这里,我们评估了药理学上可调节的mbIL15在黑色素瘤肿瘤相关抗原(TAAs)(如MART1)慢性抗原刺激下的功能。方法通过稳定配体ACZ引入mbIL15,在碳酸酐酶-2 (CA2)药物反应域(DRD)的药理学控制下,从转移性黑色素瘤TIL供体中制备细胞til15细胞,并通过专有的快速扩增过程(REP)进行扩增。评估acz依赖性IL15表达和下游信号传导。在体外,我们使用装载肽的HLA-A*0201 T2细胞将MART-1呈递至TIL,以评估基于tcr的功能。用0-25µM ACZ处理的CytoTIL15细胞每周用抗原刺激两次,持续28天,常规评估细胞健康、表型、细胞因子产生和基因表达。在体内,将TIL过继转移到免疫缺陷NSG小鼠后,评估了抗原非依赖性细胞til15细胞对ACZ剂量反应的持久性。结果与未工程化TIL相比,从黑色素瘤来源的TIL中产生细胞til15治疗可使mart1反应性TIL总体富集2.3倍。在重复的MART1刺激下,CytoTIL15细胞表现出ACZ依赖性的扩增,当ACZ浓度为0、1和25µM时,TIL分别达到最大值的2倍、9倍和18倍。慢性抗原暴露显示ACZ驱动的il15依赖性富集80%的mart1反应性TIL,并且效应细胞因子的产生和多功能性(IFNγ, IL2Rα, TNFα, IL2, Perforin, CD107a, Granzyme B)的增加。ACZ驱动的CytoTIL15细胞显示维持功能性细胞毒性特征,这在抗原反应性细胞群中富集。尽管反复的抗原刺激,ACZ的停药减少了细胞因子的产生和体外富含mart1的细胞til15细胞群的持久性。体内研究进一步强调了ACZ依赖性细胞til15细胞的可调性,增加ACZ剂量可增强TIL持续性(在0、30和200mg/kg ACZ QD下,AUC分别为41,111和306%TIL*day), 8天后停用ACZ可使TIL持续性降低1.7倍。结论慢性抗原暴露环境下肿瘤特异性细胞til15细胞的扩增和持续可通过acz依赖性mbIL15表达调控。这一概念支持OBX-115在不同时给药IL-2的情况下用于复发性转移性黑色素瘤的临床评估(NCT05470283)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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