在小鼠模型中的体组织工程揭示 WNT 通路改变在前列腺癌转移中的可操作性作用。

Somatic Tissue Engineering in Mouse Models Reveals an Actionable Role for WNT Pathway Alterations in Prostate Cancer Metastasis.

机构信息

Department of Cancer Biology and Genetics, Memorial Sloan Kettering Cancer Center, New York, New York.

Human Oncology and Pathogenesis Program, Memorial Sloan Kettering Cancer Center, New York, New York.

出版信息

Cancer Discov. 2020 Jul;10(7):1038-1057. doi: 10.1158/2159-8290.CD-19-1242. Epub 2020 May 6.

DOI:10.1158/2159-8290.CD-19-1242

PMID:32376773

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7334089/

Abstract

To study genetic factors influencing the progression and therapeutic responses of advanced prostate cancer, we developed a fast and flexible system that introduces genetic alterations relevant to human disease directly into the prostate glands of mice using tissue electroporation. These electroporation-based genetically engineered mouse models (EPO-GEMM) recapitulate features of traditional germline models and, by modeling genetic factors linked to late-stage human disease, can produce tumors that are metastatic and castration-resistant. A subset of tumors with alterations acquired spontaneous WNT pathway alterations, which are also associated with metastatic prostate cancer in humans. Using the EPO-GEMM approach and an orthogonal organoid-based model, we show that WNT pathway activation drives metastatic disease that is sensitive to pharmacologic WNT pathway inhibition. Thus, by leveraging EPO-GEMMs, we reveal a functional role for WNT signaling in driving prostate cancer metastasis and validate the WNT pathway as therapeutic target in metastatic prostate cancer. SIGNIFICANCE: Our understanding of the factors driving metastatic prostate cancer is limited by the paucity of models of late-stage disease. Here, we develop EPO-GEMMs of prostate cancer and use them to identify and validate the WNT pathway as an actionable driver of aggressive metastatic disease..

摘要

为了研究影响晚期前列腺癌进展和治疗反应的遗传因素，我们开发了一种快速灵活的系统，该系统使用组织电穿孔将与人类疾病相关的遗传改变直接引入小鼠的前列腺中。这些基于电穿孔的基因工程小鼠模型（EPO-GEMM）重现了传统种系模型的特征，并且通过模拟与晚期人类疾病相关的遗传因素，可以产生转移性和去势抵抗性肿瘤。一部分具有获得性 WNT 途径改变的肿瘤自发发生 WNT 途径改变，这也与人类转移性前列腺癌相关。使用 EPO-GEMM 方法和正交类器官模型，我们表明 WNT 途径激活驱动转移性疾病，对药物 WNT 途径抑制敏感。因此，通过利用 EPO-GEMM，我们揭示了 WNT 信号在驱动前列腺癌转移中的功能作用，并验证了 WNT 途径作为转移性前列腺癌的治疗靶点。意义：我们对驱动转移性前列腺癌的因素的理解受到晚期疾病模型稀缺的限制。在这里，我们开发了前列腺癌的 EPO-GEMM，并使用它们来鉴定和验证 WNT 途径作为侵袭性转移性疾病的可操作驱动因素。

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