用于揭示人类管腔型乳腺癌耐药机制和独特脆弱性的NSG-Pro小鼠模型。

NSG-Pro mouse model for uncovering resistance mechanisms and unique vulnerabilities in human luminal breast cancers.

作者信息

Sun Yunguang, Yang Ning, Utama Fransiscus E, Udhane Sameer S, Zhang Junling, Peck Amy R, Yanac Alicia, Duffey Katherine, Langenheim John F, Udhane Vindhya, Xia Guanjun, Peterson Jess F, Jorns Julie M, Nevalainen Marja T, Rouet Romain, Schofield Peter, Christ Daniel, Ormandy Christopher J, Rosenberg Anne L, Chervoneva Inna, Tsaih Shirng-Wern, Flister Michael J, Fuchs Serge Y, Wagner Kay-Uwe, Rui Hallgeir

机构信息

Department of Pathology, Medical College of Wisconsin, Milwaukee, WI 53226, USA.

Department of Pharmacology and Toxicology, Medical College of Wisconsin, Milwaukee, WI 53226, USA.

出版信息

Sci Adv. 2021 Sep 17;7(38):eabc8145. doi: 10.1126/sciadv.abc8145. Epub 2021 Sep 15.

DOI:10.1126/sciadv.abc8145

PMID:34524841

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8443188/

Abstract

Most breast cancer deaths are caused by estrogen receptor-α–positive (ER) disease. Preclinical progress is hampered by a shortage of therapy-naïve ER tumor models that recapitulate metastatic progression and clinically relevant therapy resistance. Human prolactin (hPRL) is a risk factor for primary and metastatic ER breast cancer. Because mouse prolactin fails to activate hPRL receptors, we developed a prolactin-humanized Nod-SCID-IL2Rγ (NSG) mouse (NSG-Pro) with physiological hPRL levels. Here, we show that NSG-Pro mice facilitate establishment of therapy-naïve, estrogen-dependent PDX tumors that progress to lethal metastatic disease. Preclinical trials provide first-in-mouse efficacy of pharmacological hPRL suppression on residual ER human breast cancer metastases and document divergent biology and drug responsiveness of tumors grown in NSG-Pro versus NSG mice. Oncogenomic analyses of PDX lines in NSG-Pro mice revealed clinically relevant therapy-resistance mechanisms and unexpected, potently actionable vulnerabilities such as DNA-repair aberrations. The NSG-Pro mouse unlocks previously inaccessible precision medicine approaches for ER breast cancers.

摘要

大多数乳腺癌死亡是由雌激素受体α阳性（ER）疾病引起的。由于缺乏能够重现转移进展和临床相关治疗耐药性的未经治疗的ER肿瘤模型，临床前研究进展受到阻碍。人催乳素（hPRL）是原发性和转移性ER乳腺癌的一个风险因素。由于小鼠催乳素无法激活hPRL受体，我们开发了一种具有生理hPRL水平的催乳素人源化Nod-SCID-IL2Rγ（NSG）小鼠（NSG-Pro）。在此，我们表明NSG-Pro小鼠有助于建立未经治疗的、雌激素依赖的人源肿瘤异种移植（PDX）肿瘤，这些肿瘤会发展为致命的转移性疾病。临床前试验提供了药理学抑制hPRL对残留ER人乳腺癌转移灶的首次小鼠体内疗效，并证明了在NSG-Pro小鼠与NSG小鼠中生长的肿瘤具有不同的生物学特性和药物反应性。对NSG-Pro小鼠中PDX系的肿瘤基因组分析揭示了临床相关的治疗耐药机制以及意想不到的、具有潜在可操作性的弱点（如DNA修复异常）。NSG-Pro小鼠为ER乳腺癌开启了此前无法实现的精准医学方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3cc1/8443188/5920e174817a/sciadv.abc8145-f1.jpg

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用于揭示人类管腔型乳腺癌耐药机制和独特脆弱性的NSG-Pro小鼠模型。

NSG-Pro mouse model for uncovering resistance mechanisms and unique vulnerabilities in human luminal breast cancers.

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