EyaHOST a modular genetic system for investigation of intercellular and tumor-host interactions in Drosophila melanogaster

Jose Teles-Reis, Ashish Jain, Dan Liu, Rojyar Khezri, Sofia Michelli, Alicia Alfonso Gomez, Caroline DIllard, Tor E Rusten
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Abstract

Cell biology and genetic analysis of intracellular, intercellular and inter-organ interaction studies in animal models are key for understanding development, physiology, and disease. The MARCM technique can emulate tumor development by simultaneous clonal tumor suppressor loss-of-function generation coupled with GAL4-UAS-driven oncogene and marker expression, but the utility is limited for studying tumor-host interactions due to genetic constraints. To overcome this, we introduce EyaHOST, a novel system that replaces MARCM with the QF2-QUAS binary gene expression system under the eya promoter control, unleashing the fly community genome-wide GAL4-UAS driven tools to manipulate any host cells or tissue at scale. EyaHOST generates epithelial clones in the eye epithelium similar to MARCM. EyaHOST-driven RasV12 oncogene overexpression coupled with scribble tumor suppressor knockdown recapitulates key cancer features, including systemic catabolic switching and organ wasting. We demonstrate effective tissue-specific manipulation of host compartments such as neighbouring epithelial cells, immune cells, fat body, and muscle using fly avatars with tissue-specific GAL4 drivers. Organ-specific inhibition of autophagy or stimulation of growth-signaling through PTEN knockdown in fat body or muscle prevents cachexia-like wasting. Additionally, we show that RasV12, scribRNAi tumors induce caspase-driven apoptosis in the epithelial microenvironment. Inhibition of apoptosis by p35 expression in the microenvironment promotes tumor growth. EyaHOST offers a versatile modular platform for dissecting tumor-host interactions and other mechanisms involving intercellular and inter-organ communication in Drosophila.
用于研究黑腹果蝇细胞间和肿瘤-宿主相互作用的模块化遗传系统 EyaHOST
对动物模型进行细胞内、细胞间和器官间相互作用研究的细胞生物学和遗传学分析是了解发育、生理学和疾病的关键。MARCM技术可通过同时克隆肿瘤抑制因子功能缺失生成和GAL4-UAS驱动的癌基因和标记物表达来模拟肿瘤的发育,但由于基因限制,该技术在研究肿瘤与宿主相互作用方面的实用性有限。为了克服这一问题,我们引入了 EyaHOST,这是一种新型系统,它在 eya 启动子控制下用 QF2-QUAS 二元基因表达系统取代了 MARCM,释放了蝇类群体全基因组 GAL4-UAS 驱动工具,可大规模操纵任何宿主细胞或组织。EyaHOST 能在眼上皮细胞中产生类似于 MARCM 的上皮细胞克隆。EyaHOST驱动的RasV12癌基因过表达与scribble肿瘤抑制因子敲除相结合,再现了关键的癌症特征,包括全身代谢转换和器官萎缩。我们利用带有组织特异性 GAL4 驱动因子的苍蝇化身,展示了对宿主区系(如邻近上皮细胞、免疫细胞、脂肪体和肌肉)的有效组织特异性操纵。通过敲除脂肪体或肌肉中的 PTEN 来抑制自噬或刺激生长信号的器官特异性抑制可防止恶病质样消瘦。此外,我们还发现 RasV12、scribRNAi 肿瘤会在上皮微环境中诱导 Caspase 驱动的细胞凋亡。微环境中 p35 的表达抑制了细胞凋亡,从而促进了肿瘤的生长。EyaHOST 提供了一个多功能模块化平台,用于研究果蝇的肿瘤-宿主相互作用以及其他涉及细胞间和器官间通讯的机制。
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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