Genomic alterations in the YAP/TAZ pathway are associated with stem cell-like castration-resistant prostate cancer.

medRxiv : the preprint server for health sciences Pub Date : 2025-07-02 DOI:10.1101/2025.07.01.25330467

Marjorie L Roskes, Alexander Martinez-Fundichely, Sandra Cohen, Metin Balaban, Chen Khuan Wong, Weiling Li, Tonatiuh A Gonzalez, Anisha B Tehim, Hao Xu, Shahd ElNaggar, Matthew Myers, Rohan Bareja, Princesca Dorsaint, Kathryn Gorski, Muhammad Asad, Majd Al Assaad, Brian D Robinson, Michael Sigouros, Ethan Barnett, Jyothi Manohar, Scott Tagawa, David Nanus, Ana Molina, Jones T Nauseef, Cora N Sternberg, Juan Miguel Mosquera, Howard I Scher, Andrea Sboner, Benjamin J Raphael, Yu Chen, Ekta Khurana

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Abstract

Castration-resistant prostate cancer (CRPC) is an aggressive disease exhibiting multiple epigenomic subtypes: androgen receptor-dependent CRPC-AR, and lineage plastic subtypes CRPC-SCL (stem cell-like), CRPC-WNT (Wnt-dependent), and CRPC-NE (neuroendocrine). By transcriptomic profiling of tissue, and whole-genome sequencing (WGS) of tissue and cell-free DNA (cfDNA) from 500 samples, we relate genomic variants with epigenomic state. We find lineage plasticity is associated with higher epigenomic and genomic heterogeneity. Samples with CRPC-SCL show higher chromosomal instability. We find DNA alterations, particularly chromosomal rearrangements, in the YAP/TAZ pathway associated with CRPC-SCL. For example, complex rearrangements on chromosome 4, which are supported by patient-matched 3D genome architecture data, decrease promoter interactions of MOB1B , a YAP/TAZ pathway inhibitor, with its enhancers. Together, the genomic variants in the pathway can predict CRPC-SCL with 79% accuracy. We show the utility of cfDNA WGS for joint inference of epigenomic state and genomic variants, which can guide patient stratification for clinical decisions.

Significance: This study reveals genomic variants associated with the presence of lineage-plastic CRPC stem cell-like state. We leverage the utility of minimally invasive cfDNA sequencing to obtain genomic and epigenomic insights about CRPC heterogeneity, which have implications for patient stratification for treatment decisions.

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无细胞DNA全基因组揭示与异质性和干细胞样去势抵抗性前列腺癌相关的染色体重排。

去势抵抗性前列腺癌（CRPC）是一种侵袭性疾病，表现出多种表观基因组亚型：雄激素受体依赖的CRPC- ar，以及谱系可塑性亚型CRPC- scl（干细胞样）、CRPC- wnt （wnt依赖）和CRPC- ne（神经内分泌）。通过组织的转录组学分析，以及来自500个样本的组织和无细胞DNA （cfDNA）的全基因组测序（WGS），我们将基因组变异与表观基因组状态联系起来。我们发现谱系可塑性与较高的表观基因组和基因组异质性相关。CRPC-SCL患者表现出较高的染色体不稳定性。我们在与CRPC-SCL相关的YAP/TAZ通路中发现了DNA改变，特别是染色体重排。例如，患者匹配的3D基因组结构数据支持4号染色体上的复杂重排，减少了YAP/TAZ途径抑制剂MOB1B与其增强子的启动子相互作用。总之，该通路中的基因组变异可以预测CRPC-SCL，准确率为79%。我们展示了cfDNA WGS对表观基因组状态和基因组变异的联合推断的效用，这可以指导临床决策的患者分层。意义：本研究揭示了与谱系可塑性CRPC干细胞样状态存在相关的基因组变异。我们利用微创cfDNA测序的效用来获得关于CRPC异质性的基因组和表观基因组见解，这对患者分层治疗决策具有重要意义。

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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medRxiv : the preprint server for health sciences

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