基质重编程克服了 RAS-MAPK 抑制的抗药性,改善了胰腺癌对细胞毒性和免疫疗法的反应

IF 15.8 1区 医学 Q1 CELL BIOLOGY Science Translational Medicine Pub Date : 2024-10-23 DOI:10.1126/scitranslmed.ado2402
Xiuting Liu, John M. Baer, Meredith L. Stone, Brett L. Knolhoff, Graham D. Hogg, Madeleine C. Turner, Yu-Lan Kao, Alyssa G. Weinstein, Faiz Ahmad, Jie Chen, Andrew D. Schmidt, Jeffrey A. Klomp, Heather Coho, Kayjana S. Coho, Silvia Coma, Jonathan A. Pachter, Kirsten L. Bryant, Liang-I Kang, Kian-Huat Lim, Gregory L. Beatty, David G. DeNardo
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引用次数: 0

摘要

胰腺导管腺癌(PDAC)是一种致命的恶性肿瘤,通常具有耐药性。免疫抑制性肿瘤微环境(TME)和 KRAS 的致癌突变都被认为是导致耐药的因素。抑制丝裂原活化蛋白激酶(MAPK)尚未显示出临床疗效,这可能是由于肿瘤内在耐药性的快速获得。然而,PDAC TME 的独特性也可能是耐药性的驱动因素。我们发现,在小鼠模型和 PDAC 患者组织中,长期局灶粘附激酶(FAK)抑制剂治疗会导致 PDAC 细胞中的 RAS/MAPK 通路过度激活。同时抑制FAK(使用VS-4718)和快速加速纤维肉瘤和MAPK激酶(RAF-MEK)(使用阿武托米尼)可在多个PDAC小鼠模型中抑制肿瘤生长并提高存活率。在TME中,癌症相关成纤维细胞(CAFs)通过抑制PDAC细胞中的RAF-MEK损害了MYC的下调,从而导致耐药性。与此相反,FAK 抑制可使 CAFs 重新编程,抑制 FGF1 的产生,而 FGF1 的产生可推动对 RAF-MEK 抑制的抵抗。在联合抑制FAK和RAF-MEK的基础上加入化疗,可使肿瘤消退、肝转移减少,并提高KRAS驱动的PDAC小鼠模型的生存率。单用FAK和RAF-MEK联合抑制可提高抗肿瘤免疫力,增强T细胞对化疗的反应。这些发现为正在进行的一项临床试验提供了理论依据,该试验评估了阿伏替尼和德伐替尼联合吉西他滨和纳布紫杉醇对PDAC患者的疗效,并为基质和肿瘤靶向联合疗法提出了更多建议。
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Stromal reprogramming overcomes resistance to RAS-MAPK inhibition to improve pancreas cancer responses to cytotoxic and immune therapy
Pancreatic ductal adenocarcinoma (PDAC) is a lethal malignancy that is often resistant to therapy. An immune suppressive tumor microenvironment (TME) and oncogenic mutations in KRAS have both been implicated as drivers of resistance to therapy. Mitogen-activated protein kinase (MAPK) inhibition has not yet shown clinical efficacy, likely because of rapid acquisition of tumor-intrinsic resistance. However, the unique PDAC TME may also be a driver of resistance. We found that long-term focal adhesion kinase (FAK) inhibitor treatment led to hyperactivation of the RAS/MAPK pathway in PDAC cells in mouse models and tissues from patients with PDAC. Concomitant inhibition of both FAK (with VS-4718) and rapidly accelerated fibrosarcoma and MAPK kinase (RAF-MEK) (with avutometinib) induced tumor growth inhibition and increased survival across multiple PDAC mouse models. In the TME, cancer-associated fibroblasts (CAFs) impaired the down-regulation of MYC by RAF-MEK inhibition in PDAC cells, resulting in resistance. By contrast, FAK inhibition reprogramed CAFs to suppress the production of FGF1, which can drive resistance to RAF-MEK inhibition. The addition of chemotherapy to combined FAK and RAF-MEK inhibition led to tumor regression, a decrease in liver metastasis, and improved survival in KRAS-driven PDAC mouse models. Combination of FAK and RAF-MEK inhibition alone improved antitumor immunity and priming of T cell responses in response to chemotherapy. These findings provided the rationale for an ongoing clinical trial evaluating the efficacy of avutometinib and defactinib in combination with gemcitabine and nab-paclitaxel in patients with PDAC and may suggest further paths for combined stromal and tumor-targeting therapies.
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来源期刊
Science Translational Medicine
Science Translational Medicine CELL BIOLOGY-MEDICINE, RESEARCH & EXPERIMENTAL
CiteScore
26.70
自引率
1.20%
发文量
309
审稿时长
1.7 months
期刊介绍: Science Translational Medicine is an online journal that focuses on publishing research at the intersection of science, engineering, and medicine. The goal of the journal is to promote human health by providing a platform for researchers from various disciplines to communicate their latest advancements in biomedical, translational, and clinical research. The journal aims to address the slow translation of scientific knowledge into effective treatments and health measures. It publishes articles that fill the knowledge gaps between preclinical research and medical applications, with a focus on accelerating the translation of knowledge into new ways of preventing, diagnosing, and treating human diseases. The scope of Science Translational Medicine includes various areas such as cardiovascular disease, immunology/vaccines, metabolism/diabetes/obesity, neuroscience/neurology/psychiatry, cancer, infectious diseases, policy, behavior, bioengineering, chemical genomics/drug discovery, imaging, applied physical sciences, medical nanotechnology, drug delivery, biomarkers, gene therapy/regenerative medicine, toxicology and pharmacokinetics, data mining, cell culture, animal and human studies, medical informatics, and other interdisciplinary approaches to medicine. The target audience of the journal includes researchers and management in academia, government, and the biotechnology and pharmaceutical industries. It is also relevant to physician scientists, regulators, policy makers, investors, business developers, and funding agencies.
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