418 The development of ‘off-the-shelf’ manufacturing strategies of iPSC-based gamma-delta T cells

Regular and Young Investigator Award Abstracts Pub Date : 2023-11-01 DOI:10.1136/jitc-2023-sitc2023.0418

Yanjie Li, Lei Ding, Jixue Li, Mariska Ter Haak, Kate Rochlin, Lawrence Lamb

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Abstract

Background

Gamma-delta (γδ) T cells are depleted during cancer progression resulting in the progressive loss of anti-cancer activity. Elevated numbers of γδ T cells are associated with greater survival outcomes in both hematopoietic and solid malignancies. Induced pluripotent stem cell (iPSC) derived γδ T cells could address the therapeutic challenges of multiple allogeneic γδ T cell infusions as iPSCs possess nearly unlimited self-renewal and multi-lineage differentiation potential. These can be genetically modified, selected, and propagated to provide a source of potentially ‘off-the-shelf’ immune cells.

Methods

Precursor cells obtained from healthy volunteer donors were reprogrammed into iPSCs using non-integrating Yamanaka factors. A feeder-free multi-step strategy was used to differentiate iPSCs, leading to the generation of Vδ1+ γδ T cells. Characterization of the Vδ1+ T cell product included multiplex genomic PCR assays and Sanger sequencing to examine the rearrangement of the TCRγ and TCRδ gene loci, and G-band karyotype analysis. Pluripotent markers (Tra-1–60, OCT3/4 & SSEA4), HPC markers (CD34, CD43), γδ T cell surface markers (CD3, γδ TCR, CD4, CD8, CD16, CD56), effector memory markers (CD45RA, CD27), natural cytotoxicity receptors (NKG2D) were identified using multiparameter flow cytometry. T cell function was determined by flow cytometric cytotoxicity assays against K562, OLM13, U87MG, OVSAHO, OVCAR-3, KURAMUCHI targets at increasing Effector to Target (E:T) ratios. Th1/2/17 cytokine release was determined following PMA/ionomycin stimulation and LEGENDplex™ bead-based immunoassays.

Results

We generated Vδ1T-iPSC lines (iVδ1T) identified as Vγ5-to-Jγ1/2 and Vδ1-to-Jδ1 recombination. One iPSC line showed normal karyotype with 99% cells expressing OCT3/4 & SSEA4. The differentiation process generated 70+ million iVδ1T cells from 3 million iPSCs expressing γδ T cell markers CD45, CD3, Vδ1-TCR, CD16, CD56, NKG2D, CD45RA, and CD27. Cytokine release following PMA/ionomycin stimulation showed increases of at least 50x for Granzyme A, 300x for IFN-γ, 1400x for TNF-α, ~10 to 20x for Granzyme B, ~5 to 10x for Perforin, ~6x for Granulysin. IL-6 was not detected either before or after stimulation, and IL17A was at low concentration. At a 16:1 E:T ratio, preliminary data shows that Vδ1+ γδ T cells killed K562 (CML) 95.7%; MOLM13 (AML) 60.3%; U87MG (glioblastoma) 70.3%; and ovarian cancer lines OVSAHO 57.1%, OVCAR-3 69.6%, and KURAMUCHI 55.1%.

Conclusions

We generated Vδ1+ iPSC derived γδ T cells with effector cytokine phenotype and low risk for cytokine release syndrome. Robust cytotoxic activity was seen across a variety of cancer cell lines, potentially providing an off-the-shelf platform for allogeneic cell therapy.

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基于ipsc的γ - δ T细胞的“现成”制造策略的发展

γ - δ (γδ) T细胞在癌症进展过程中被耗尽，导致抗癌活性逐渐丧失。在造血和实体恶性肿瘤中，γδ T细胞数量的升高与更高的生存结果相关。诱导多能干细胞(iPSC)衍生的γδ T细胞具有几乎无限的自我更新和多谱系分化潜力，可以解决多种异体γδ T细胞输注的治疗挑战。这些细胞可以经过基因改造、筛选和繁殖，以提供潜在的“现成的”免疫细胞来源。方法利用非整合Yamanaka因子将健康志愿者供体的前体细胞重组为iPSCs。采用无喂食多步策略分化iPSCs，导致Vδ1+ γδ T细胞的产生。Vδ1+ T细胞产物的鉴定包括多重基因组PCR测定和Sanger测序，以检查TCRγ和TCRδ基因位点的重排，以及g带核型分析。多能标记(Tra-1-60, OCT3/4 &采用多参数流式细胞术对SSEA4、HPC标记物(CD34、CD43)、γδ T细胞表面标记物(CD3、γδ TCR、CD4、CD8、CD16、CD56)、效应记忆标记物(CD45RA、CD27)、天然细胞毒性受体(NKG2D)进行鉴定。流式细胞术检测T细胞对K562、OLM13、U87MG、OVSAHO、OVCAR-3、KURAMUCHI靶点的细胞毒性，提高靶效比(E:T)。在PMA/离子霉素刺激和LEGENDplex™微球免疫分析后，检测Th1/2/17细胞因子释放。结果获得了Vδ1T-iPSC系(iVδ1T)，鉴定为v γ5- j γ1/2和v δ1- j δ1重组系。一个iPSC细胞系显示正常核型，99%的细胞表达OCT3/4和amp;SSEA4。分化过程从300万个iPSCs中产生了7000多万个表达γδ T细胞标记物CD45、CD3、Vδ1-TCR、CD16、CD56、NKG2D、CD45RA和CD27的iVδ1T细胞。PMA/离子霉素刺激后的细胞因子释放显示颗粒酶A至少增加50倍，IFN-γ增加300倍，TNF-α增加1400倍，颗粒酶B增加10 ~ 20倍，穿孔素增加5 ~10倍，颗粒酶增加6倍。刺激前后均未检测到IL-6, il - 17a浓度较低。在16:1的E:T比下，初步数据显示，Vδ1+ γδ T细胞杀伤K562 (CML) 95.7%;Molm13 (aml) 60.3%;U87MG(胶质母细胞瘤)70.3%;卵巢癌系OVSAHO 57.1%， OVCAR-3 69.6%， KURAMUCHI 55.1%。结论我们获得了Vδ1+ iPSC衍生的γδ T细胞，具有效应细胞因子表型，细胞因子释放综合征风险低。在多种癌细胞系中发现了强大的细胞毒活性，可能为同种异体细胞治疗提供现成的平台。

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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Regular and Young Investigator Award Abstracts

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