Utility of patient-derived xenografts to evaluate drug sensitivity and select optimal treatments for individual non-small-cell lung cancer patients.

IF 6 2区 医学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Molecular Medicine Pub Date : 2024-11-11 DOI:10.1186/s10020-024-00934-4
Xiaoqing Wang, Ju Zhu, Lingling Li, Qilin Zhao, Yutang Huang, Chunjie Wen, Dan Chen, Lanxiang Wu
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Abstract

Background: Patient-derived xenograft (PDX) is currently considered a preferred preclinical model to evaluate drug sensitivity, explore drug resistance mechanisms, and select individualized treatment regimens.

Methods: Histopathological examination, immunohistochemistry and whole-exome sequencing confirmed similarity between our PDX tumors and primary tumors in terms of morphology and genetic characteristics. The drug reactivity of the PDX tumor was validated in vivo. The mechanisms of acquired resistance to Osimertinib PDX tumors were investigated by WES and WB.

Results: We successfully established 13 NSCLC-PDXs derived from 62 patients, including eight adenocarcinomas, four squamous-cell carcinoma, and one large-cell neuroendocrine carcinoma. Histological subtype and clinical stage were significant factors affecting the successful PDXs establishment. The treatment responses to conventional chemotherapy in PDXs were entirely consistent with that of their corresponding patients. According to the genetic status of tumors, more appropriate targeted agents were selected in PDXs for their corresponding patients as alternative treatment options. In addition, a PDX model with acquired resistance to osimertinib was induced, and the overactivation of RAS mitogen-activated protein kinase (MAPK)-extracellular signal-regulated kinase (ERK) signaling pathway caused by the dual-specificity phosphatase 6 (DUSP6) M62I mutation was found to play a key role in the development of osimertinib resistance. Trametinib, a specific inhibitor of the MAPK-ERK pathway significantly slowed down the tumor growth in osimertinib-resistant PDX models, providing an alternative treatment in patients after osimertinib failure.

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患者衍生异种移植在评估药物敏感性和为非小细胞肺癌患者选择最佳治疗方法方面的作用。
背景:方法:组织病理学检查、免疫组化和全外显子组测序证实,我们的 PDX 肿瘤与原发性肿瘤在形态和遗传特征方面具有相似性。PDX肿瘤的药物反应性在体内得到了验证。通过WES和WB研究了奥希替尼PDX肿瘤的获得性耐药机制:我们成功建立了13个NSCLC-PDXs,它们来自62名患者,包括8个腺癌、4个鳞癌和1个大细胞神经内分泌癌。组织学亚型和临床分期是影响PDXs成功建立的重要因素。PDXs对常规化疗的反应与相应患者的反应完全一致。根据肿瘤的基因状况,在 PDX 中为相应的患者选择了更合适的靶向药物作为替代治疗方案。此外,研究人员还诱导出了奥希替尼获得性耐药的PDX模型,发现双特异性磷酸酶6(DUSP6)M62I突变导致的RAS丝裂原活化蛋白激酶(MAPK)-细胞外信号调节激酶(ERK)信号通路过度激活在奥希替尼耐药的发生中起到了关键作用。MAPK-ERK通路特异性抑制剂曲美替尼可显著减缓奥希替尼耐药PDX模型中肿瘤的生长,为奥希替尼治疗失败后的患者提供了一种替代治疗方法。
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来源期刊
Molecular Medicine
Molecular Medicine 医学-生化与分子生物学
CiteScore
8.60
自引率
0.00%
发文量
137
审稿时长
1 months
期刊介绍: Molecular Medicine is an open access journal that focuses on publishing recent findings related to disease pathogenesis at the molecular or physiological level. These insights can potentially contribute to the development of specific tools for disease diagnosis, treatment, or prevention. The journal considers manuscripts that present material pertinent to the genetic, molecular, or cellular underpinnings of critical physiological or disease processes. Submissions to Molecular Medicine are expected to elucidate the broader implications of the research findings for human disease and medicine in a manner that is accessible to a wide audience.
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