Patient-derived response estimates from zero-passage organoids of luminal breast cancer.

IF 7.4 1区医学 Q1 Medicine

Breast Cancer Research Pub Date : 2024-12-31 DOI:10.1186/s13058-024-01931-5

Róża K Przanowska, Najwa Labban, Piotr Przanowski, Russell B Hawes, Kristen A Atkins, Shayna L Showalter, Kevin A Janes

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引用次数: 0

Abstract

Background: Primary luminal breast cancer cells lose their identity rapidly in standard tissue culture, which is problematic for testing hormone interventions and molecular pathways specific to the luminal subtype. Breast cancer organoids are thought to retain tumor characteristics better, but long-term viability of luminal-subtype cases is a persistent challenge. Our goal was to adapt short-term organoids of luminal breast cancer for parallel testing of genetic and pharmacologic perturbations.

Methods: We freshly isolated patient-derived cells from luminal tumor scrapes, miniaturized the organoid format into 5 µl replicates for increased throughput, and set an endpoint of 14 days to minimize drift. Therapeutic hormone targeting was mimicked in these "zero-passage" organoids by withdrawing β-estradiol and adding 4-hydroxytamoxifen. We also examined sulforaphane as an electrophilic stress and commercial nutraceutical with reported anti-cancer properties. Downstream mechanisms were tested genetically by lentiviral transduction of two complementary sgRNAs and Cas9 stabilization for the first week of organoid culture. Transcriptional changes were measured by RT-qPCR or RNA sequencing (RNA-seq), and organoid phenotypes were quantified by serial brightfield imaging, digital image segmentation, and regression modeling of volumetric growth rates.

Results: We achieved > 50% success in initiating luminal breast cancer organoids from tumor scrapes and maintaining them to the 14-day zero-passage endpoint. Success was mostly independent of clinical parameters, supporting general applicability of the approach. Abundance of ESR1 and PGR in zero-passage organoids consistently remained within the range of patient variability at the endpoint. However, responsiveness to hormone withdrawal and blockade was highly variable among luminal breast cancer cases tested. Combining sulforaphane with knockout of NQO1 (a phase II antioxidant response gene and downstream effector of sulforaphane) also yielded a breadth of organoid growth phenotypes, including growth inhibition with sulforaphane, growth promotion with NQO1 knockout, and growth antagonism when combined.

Conclusions: Zero-passage organoids are a rapid and scalable way to interrogate properties of luminal breast cancer cells from patient-derived material. This includes testing drug mechanisms of action in different clinical cohorts. A future goal is to relate inter-patient variability of zero-passage organoids to long-term outcomes.

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腔内乳腺癌的零传代类器官的患者源性反应估计。

背景：原发性管腔乳腺癌细胞在标准组织培养中迅速失去其特性，这对于检测管腔亚型特异性的激素干预和分子途径是有问题的。乳腺癌类器官被认为能更好地保留肿瘤特征，但光亚型病例的长期生存能力是一个持续的挑战。我们的目标是适应腔内乳腺癌的短期类器官，用于基因和药理学扰动的平行测试。方法：我们从腔内肿瘤刮擦中新鲜分离患者来源的细胞，将类器官格式缩小为5µl重复以提高通量，并设置14天的终点以减少漂移。在这些“零通道”类器官中，通过撤回β-雌二醇和加入4-羟他莫昔芬来模拟治疗激素靶向。我们还研究了萝卜硫素作为一种亲电应激和具有抗癌特性的商业营养保健品。在类器官培养的第一周，通过慢病毒转导两种互补的sgrna和Cas9的稳定，对下游机制进行了遗传测试。转录变化通过RT-qPCR或RNA测序（RNA-seq）来测量，类器官表型通过连续明场成像、数字图像分割和体积生长率回归建模来量化。结果：我们从肿瘤刮伤中启动腔内乳腺癌类器官，并将其维持到14天的零通过终点，成功率为50%。成功率主要独立于临床参数，支持该方法的普遍适用性。在终点，零传代类器官中ESR1和PGR的丰度始终保持在患者可变性的范围内。然而，对激素戒断和阻断的反应性在腔内乳腺癌病例中是高度可变的。将萝卜硫素与敲除NQO1（一种II期抗氧化反应基因，也是萝卜硫素的下游效应因子）结合也产生了广泛的类器官生长表型，包括萝卜硫素抑制生长，敲除NQO1促进生长，以及联合时的生长拮抗。结论：零传代类器官是一种快速、可扩展的方法，可以从患者来源的材料中询问腔内乳腺癌细胞的特性。这包括在不同临床队列中测试药物的作用机制。未来的目标是将零传代类器官的患者间变异性与长期结果联系起来。

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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来源期刊

Breast Cancer Research ONCOLOGY-

CiteScore

12.00

自引率

0.00%

发文量

审稿时长

12 weeks

期刊介绍： Breast Cancer Research, an international, peer-reviewed online journal, publishes original research, reviews, editorials, and reports. It features open-access research articles of exceptional interest across all areas of biology and medicine relevant to breast cancer. This includes normal mammary gland biology, with a special emphasis on the genetic, biochemical, and cellular basis of breast cancer. In addition to basic research, the journal covers preclinical, translational, and clinical studies with a biological basis, including Phase I and Phase II trials.