222 The chick embryo chorioallantoic membrane (CAM) as a platform for assessing the in vivo efficacy of chimeric antigen receptor (CAR) T cell therapy in solid tumors

Allison Nipper, Emilie AK Warren, Gabrielle Wells, Caroline Porter, Mariana Villanueva, Hsuan-Chen Liu, Hugo Villanueva, Masataka Suzuki, Andrew Sikora
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Abstract

Background

While chimeric antigen receptor T cell (CAR T) treatment has been efficacious in blood cancers, mirroring this success in solid tumors, like head and neck squamous cell carcinoma (HNSCC) has proven difficult due to the challenge of identifying and validating suitable target antigens. To rapidly model CAR-T treatment against HNSCC antigens, we have developed a robust, scalable model using fertilized chicken eggs to facilitate CAR-T screening against vascularized solid tumors. The fertilized chicken egg inner shell membrane, the chorioallantoic membrane (CAM), is a highly vascularized membrane which facilitates nutrient delivery and oxygen exchange for growth of the developing chick. The nutrient transfer capabilities of the CAM can be exploited to drive the formation of vascularized solid tumors which can be targeted by CAR T within one week of engraftment. In contrast to murine systems which can be costly, labor intensive, or use murine cells, this system quickly models the development of human cancers expressing human epitopes treated with human cell therapies.

Methods

HER2+ (FaDu and SCC-47) and HER2- (MDA-MB-468) cell lines with luciferase reporters were engrafted onto the CAM. Tumor growth was monitored by IVIS imaging of luciferase activity of viable tumor cells. Engrafted cells grew for three days during which tumors establish and incorporate into the CAM. Established tumors were treated with second generation HER2-directed CAR T with a CD28 costimulatory endodomain or an expanded T cell control which was not transduced with CARs. Viability of tumor cells was monitored through quantification of luciferase activity from engrafted cells before and following four days of CAR-T treatment. Histology was used to visualize tumor structure on the CAM and CAR-T infiltration of tumor tissue. Staining was scored by percent positive area and intensity using QuPath software.

Results

Luciferase activity of viable tumor cells was significantly reduced in CAR-T treated FaDu tumors (p<0.0001). Following tumor harvest, we observed a significant reduction in Ki67 staining for CAR-T treated tumors relative to T cell treatment alone for both SCC-47 and FaDu tumors (p=0.0121 and p=0.0176 respectively). We also observed CAR-T persistence in tissue and infiltration of tumors.

Conclusions

The CAM system supports the growth of solid tumors which can be targeted by immune cell infiltrates. These data support continued development of the chick CAM model as a candidate in vivo system for rapid, scalable screening of CAR T efficacy against human solid tumors.
鸡胚绒毛尿囊膜(CAM)作为评价嵌合抗原受体(CAR) T细胞治疗实体瘤体内疗效的平台
虽然嵌合抗原受体T细胞(CAR - T)治疗在血癌中是有效的,但在实体肿瘤(如头颈部鳞状细胞癌(HNSCC))中复制这种成功被证明是困难的,因为识别和验证合适的靶抗原是一项挑战。为了快速模拟针对HNSCC抗原的CAR-T治疗,我们开发了一个强大的、可扩展的模型,使用受精卵来促进针对血管化实体瘤的CAR-T筛查。受精卵的内壳膜,即绒毛膜-尿囊膜(CAM),是一种高度血管化的膜,有利于发育中的小鸡生长所需的营养物质输送和氧气交换。CAM的营养转移能力可以被利用来驱动血管化实体肿瘤的形成,CAR - T可以在植入一周内靶向。与昂贵、劳动密集或使用小鼠细胞的小鼠系统相比,该系统可以快速模拟人类癌症的发展,表达人类细胞疗法治疗的人类表位。方法将带有荧光素酶报告细胞的HER2+ (FaDu和SCC-47)和HER2- (MDA-MB-468)细胞株移植到CAM上。通过活体肿瘤细胞荧光素酶活性的IVIS成像监测肿瘤生长。移植细胞生长三天,在此期间肿瘤形成并融入CAM。已确定的肿瘤用第二代her2定向CAR - T治疗,该CAR - T带有CD28共刺激内域或扩增的T细胞对照,不经CAR转导。在CAR-T治疗前后4天,通过对移植细胞荧光素酶活性的量化来监测肿瘤细胞的活力。用组织学方法观察肿瘤组织的CAM和CAR-T浸润情况。采用QuPath软件对染色进行阳性面积百分比和染色强度评分。结果CAR-T治疗FaDu肿瘤后,活细胞荧光素酶活性显著降低(p < 0.01;0.0001)。肿瘤收获后,我们观察到CAR-T治疗肿瘤的Ki67染色明显降低,相对于单独T细胞治疗SCC-47和FaDu肿瘤(p=0.0121和p=0.0176分别)。我们还观察到CAR-T在组织中的持久性和肿瘤的浸润。结论CAM系统支持实体瘤的生长,可被免疫细胞浸润靶向。这些数据支持继续发展小鸡CAM模型作为候选体内系统,用于快速、可扩展地筛选CAR - T对人类实体肿瘤的疗效。
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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