Intravenously administered LV-169 delivers a functional BCMA-CAR transgene to niche-resident T cells and leads to elimination of disseminated myeloma in MHC-deficient NSG mice

嵌合抗原受体 转基因 癌症研究 细胞毒性T细胞 生物 T细胞 多发性骨髓瘤 人性化鼠标 离体 免疫学 免疫疗法 转基因小鼠 细胞疗法 病毒载体 抗原 细胞因子 遗传增强 细胞 B细胞 体内 抗原提呈细胞 受体 医学 等离子体电池 细胞培养 细胞生物学
作者
Stephen J. Russell,Gopal Naik Nenavath,Nandakumar Packiriswamy,Timothy S. Carey,Md Yeashin Gazi,Aaron Hawkes,Collin Gwilt,Chia-Hsuan Chin,Christian Kinney,Hamid Salimi,Thipparat Suwanmanee,D. Phung,Karina Krotova,Rianna Vandergaast,Kartika Venugopal,Edward L. Briercheck,Eric L. Smith,Yi Lin,Kah-Whye Peng
出处
期刊:Blood [Elsevier BV]
卷期号:146 (Supplement 1): 5896-5896 被引量:2
标识
DOI:10.1182/blood-2025-5896
摘要

Abstract Chimeric Antigen Receptor (CAR) T cell therapy is a transformative treatment for hematologic malignancies. However, ex vivo autologous CAR T cell manufacturing presents substantial logistical and clinical challenges. Direct in vivo CAR-T cell engineering offers a new paradigm for CAR T delivery. We recently developed the CD3-targeted lentiviral vector LV-169 which can deliver a CAR transgene to resting niche-resident T cells in lymphoid tissues. LV169 is pseudotyped with a mix of chimeric and nonchimeric VSV-G proteins detargeted (blinded) from the natural LDL receptor and re-targeted to T cells through the display of a CD3-specific scFv. Here we demonstrate that LV169 can specifically deliver a functional aBCMA-CAR transgene to resting human T cells in PBMC cultures from the healthy volunteers and from multiple myeloma patients. For clinical translation, we selected an αBCMA-CAR construct comprising a fully human single heavy chain nanobody linked to 41BB and CD3z cytoplasmic signaling domains. Human T cells expressing this CAR construct have low tonic signaling and efficiently kill BCMA-positive myeloma target cells with similar or lower associated cytokine release compared to a clinically relevant benchmark BCMA-CAR. To further improve LV169 and to minimize CAR protein incorporation in the LV envelope which may lead undesirably to myeloma cell transduction, we placed the CAR transgene under a T-cell specific Lck promoter in reverse orientation relative to the 5' LTR. The transcriptional activity of the Lck promoter was comparable to that of a constitutive EF1a promoter in primary T cells and, in contrast to EF1a had minimal activity in a variety of other tested cell types including the HEK293T producer cell line and the THP-1 monocytic cell line. Western blotting confirmed the absence of CAR protein in LV particles (LVP) generated using the Lck promoter-driven reverse orientation construct. In contrast, high levels of CAR protein were detected in LVP generated using the parental EF1a promoter-driven construct. The LV-incorporated CAR protein mediated off-target gene delivery to BCMA-positive myeloma cells. The therapeutic efficacy of intravenously administered LV169 LV particles carrying BCMA-CAR constructs was tested in the OPM-2 human multiple myeloma xenograft model. NSG mice with knockout of MHC-I and MHC-II, and with advanced disseminated OPM-2-Luc tumors were engrafted with human PBMC one week prior to intravenous LV169-BCMA-CAR administration. Mice were treated with single intravenous injection of LV169 at different doses 3 weeks after tumor engraftment. OPM-2-Luc tumor burden was monitored by regular luciferase imaging. All treated mice cleared their tumors within 28-days following LV administration and the rate of clearance was correlated to the LV particle dose. Even at the 4e8 dose level (by p24) tumors were completely cleared. Eighty four days post-treatment the treated mice remained tumor-free and resisted re-challenge with OPM-2 tumor cells. Circulating CAR-T cells, monitored by flow cytometry, became detectable by 14 dpi and peaked between 21-35 dpi. Following tumor clearance, the number of circulating CAR-T cells declined dramatically. The treatment was well tolerated and analysis of cytokines associated with CAR-T cell cytotoxicity confirmed the absence of a severe cytokine storm. IFNγ was the only cytokine which was elevated during the expansion period of CAR-T cells, while IL-2, IL-6, TNFα and GM-CSF were barely detectable. In summary the characteristics of our new developed LV169-based platform make it suitable for further clinical translation which is underway.
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