C57BL/6J 小鼠肥胖反应性三阴性乳腺癌同种异位移植模型的开发与特征描述

Cancers Pub Date : 2024-08-09 DOI:10.3390/cancers16162803
Meredith S. Carson, Patrick D. Rädler, Jody E. Albright, Melissa A. VerHague, Erika T. Rezeli, Daniel Roth, John E. French, C. Perou, S. Hursting, M. Coleman
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摘要

肥胖是三阴性乳腺癌(TNBC)的一个既定风险和进展因素,但由于缺乏与易患肥胖症的小鼠品系共生的肿瘤模型,因此限制了旨在阐明肥胖与 TNBC 关联机制的临床前研究以及打破这种关联的策略。FVB遗传背景的C3(1)/SV40 T抗原(C3-TAg)转基因小鼠所患肿瘤的分子和病理特征与人类TNBC非常相似,但FVB小鼠对饮食诱导肥胖(DIO)有抵抗力。在此,我们试图开发可移植的 C3-TAg 细胞系,使其与对 DIO 敏感的近交系小鼠 C57BL/6 协同增殖。我们将FVB-Tg(C3-1-TAg)cJeg/JegJ与C57BL/6小鼠回交了十代,切除了这些小鼠的自发性肿瘤,并利用它们产生了四个克隆细胞系(B6TAg1.02、B6TAg2.03、B6TAg2.10和B6TAg2.51)。我们对这四种细胞系在瘦小鼠和 DIO C57BL/6J 雌性小鼠体内的生长情况进行了鉴定,并进行了转录组分析。每种细胞系都很容易致瘤,其转录特征都是低克劳丁,但它们的肿瘤进展速度和关键代谢、免疫和致癌信号通路的转录组特征却明显不同。DIO加速了正位移植的B6TAg1.02、B6TAg2.03和B6TAg2.51细胞的肿瘤生长。因此,本文描述的 B6TAg 细胞系为加强 DIO 相关 TNBC 的研究提供了前景广阔的多样化新模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development and Characterization of Syngeneic Orthotopic Transplant Models of Obesity-Responsive Triple-Negative Breast Cancer in C57BL/6J Mice
Obesity is an established risk and progression factor for triple-negative breast cancer (TNBC), but preclinical studies to delineate the mechanisms underlying the obesity-TNBC link as well as strategies to break that link are constrained by the lack of tumor models syngeneic to obesity-prone mouse strains. C3(1)/SV40 T-antigen (C3-TAg) transgenic mice on an FVB genetic background develop tumors with molecular and pathologic features that closely resemble human TNBC, but FVB mice are resistant to diet-induced obesity (DIO). Herein, we sought to develop transplantable C3-TAg cell lines syngeneic to C57BL/6 mice, an inbred mouse strain that is sensitive to DIO. We backcrossed FVB-Tg(C3-1-TAg)cJeg/JegJ to C57BL/6 mice for ten generations, and spontaneous tumors from those mice were excised and used to generate four clonal cell lines (B6TAg1.02, B6TAg2.03, B6TAg2.10, and B6TAg2.51). We characterized the growth of the four cell lines in both lean and DIO C57BL/6J female mice and performed transcriptomic profiling. Each cell line was readily tumorigenic and had transcriptional profiles that clustered as claudin-low, yet markedly differed from each other in their rate of tumor progression and transcriptomic signatures for key metabolic, immune, and oncogenic signaling pathways. DIO accelerated tumor growth of orthotopically transplanted B6TAg1.02, B6TAg2.03, and B6TAg2.51 cells. Thus, the B6TAg cell lines described herein offer promising and diverse new models to augment the study of DIO-associated TNBC.
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