Circulating tumor cell plasticity determines breast cancer therapy resistance via neuregulin 1–HER3 signaling

IF 23.5 1区医学 Q1 ONCOLOGY Nature cancer Pub Date : 2025-01-03 DOI:10.1038/s43018-024-00882-2

Roberto Würth, Elisa Donato, Laura L. Michel, Massimo Saini, Lisa Becker, Tasneem Cheytan, Daria Doncevic, Tobias Messmer, Ewgenija Gutjahr, Rebecca Weber, Corinna Klein, Hamed Alborzinia, Umut Yildiz, Vanessa Vogel, Mario Hlevnjak, Polina Kozyulina, Sarah-Jane Neuberth, Paul Schwerd-Kleine, Sevinç Jakab, Nicole Pfarr, Arlou Kristina Angeles, Astrid K. Laut, Darja Karpova, Mattia Falcone, Olaf Hardt, Benjamin Theek, Celina V. Wagner, Mirjam Becker, Sabine Wagner, Martina Haselmayr, Anita Schmitt, Carsten Müller-Tidow, Sabine Riethdorf, Klaus Pantel, Marc Zapatka, Holger Sültmann, Carl Herrmann, Verena Thewes, Peter Lichter, Andreas Schneeweiss, Martin R. Sprick, Andreas Trumpp

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Abstract

Circulating tumor cells (CTCs) drive metastasis, the leading cause of death in individuals with breast cancer. Due to their low abundance in the circulation, robust CTC expansion protocols are urgently needed to effectively study disease progression and therapy responses. Here we present the establishment of long-term CTC-derived organoids from female individuals with metastatic breast cancer. Multiomics analysis of CTC-derived organoids along with preclinical modeling with xenografts identified neuregulin 1 (NRG1)–ERBB2 receptor tyrosine kinase 3 (ERBB3/HER3) signaling as a key pathway required for CTC survival, growth and dissemination. Genome-wide CRISPR activation screens revealed that fibroblast growth factor receptor 1 (FGFR1) signaling serves a compensatory function to the NRG1–HER3 axis and rescues NRG1 deficiency in CTCs. Conversely, NRG1–HER3 activation induced resistance to FGFR1 inhibition, whereas combinatorial blockade impaired CTC growth. The dynamic interplay between NRG1–HER3 and FGFR1 signaling reveals the molecular basis of cancer cell plasticity and clinically relevant strategies to target it. Our CTC organoid platform enables the identification and validation of patient-specific vulnerabilities and represents an innovative tool for precision medicine. Trumpp and colleagues develop a method to obtain long-term circulating tumor cell-derived organoids from individuals with metastatic breast cancer and identify the neuregulin 1–HER3 axis as important for organoid growth and a promising therapeutic target.

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循环肿瘤细胞可塑性通过神经调节蛋白1-HER3信号传导决定乳腺癌治疗耐药性。

循环肿瘤细胞（ctc）驱动转移，是乳腺癌患者死亡的主要原因。由于它们在循环中的丰度较低，迫切需要强有力的CTC扩增方案来有效研究疾病进展和治疗反应。在这里，我们提出建立长期ctc来源的类器官从女性个体转移性乳腺癌。对CTC衍生类器官的多组学分析以及异种移植物临床前建模发现，神经调节蛋白1 (NRG1)-ERBB2受体酪氨酸激酶3 （ERBB3/HER3）信号通路是CTC存活、生长和传播所需的关键途径。全基因组CRISPR激活筛选显示，成纤维细胞生长因子受体1 （FGFR1）信号通路对NRG1- her3轴具有代偿功能，并可挽救CTCs中的NRG1缺陷。相反，NRG1-HER3激活诱导对FGFR1抑制的抗性，而联合阻断则会损害CTC的生长。NRG1-HER3和FGFR1信号传导之间的动态相互作用揭示了癌细胞可塑性的分子基础和临床相关的靶向策略。我们的CTC类器官平台能够识别和验证患者特定的脆弱性，代表了精准医疗的创新工具。

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来源期刊

Nature cancer Medicine-Oncology

CiteScore

31.10

自引率

1.80%

发文量

129

期刊介绍： Cancer is a devastating disease responsible for millions of deaths worldwide. However, many of these deaths could be prevented with improved prevention and treatment strategies. To achieve this, it is crucial to focus on accurate diagnosis, effective treatment methods, and understanding the socioeconomic factors that influence cancer rates. Nature Cancer aims to serve as a unique platform for sharing the latest advancements in cancer research across various scientific fields, encompassing life sciences, physical sciences, applied sciences, and social sciences. The journal is particularly interested in fundamental research that enhances our understanding of tumor development and progression, as well as research that translates this knowledge into clinical applications through innovative diagnostic and therapeutic approaches. Additionally, Nature Cancer welcomes clinical studies that inform cancer diagnosis, treatment, and prevention, along with contributions exploring the societal impact of cancer on a global scale. In addition to publishing original research, Nature Cancer will feature Comments, Reviews, News & Views, Features, and Correspondence that hold significant value for the diverse field of cancer research.