用于模拟肝细胞癌的精密切割肿瘤切片可实现大规模药物筛选。

Precision-cut tumor slices for modeling hepatocellular carcinoma enable at-scale drug screening.

作者信息

Collins Amy L, Kirkness Keara, Ramon-Gil Erik, Tzortzopoulou Eleni, Geh Daniel, Dishington Jack, Graham Eleanor, Muir Rhys, Cameron Rainie, Luli Saimir, Khurram Eman, Storey Daniel, Paish Hannah L, Nelson Glyn, McDonald David, Filby Andrew, Borthwick Lee A, Oakley Fiona, Mann Derek A, Leslie Jack

机构信息

Newcastle Fibrosis Research Group, Biosciences Institute, Faculty of Medical Sciences, Newcastle University, Newcastle upon Tyne, UK.

The Newcastle University Centre for Cancer, Newcastle University, Newcastle upon Tyne, UK.

出版信息

Hepatol Commun. 2025 May 16;9(6). doi: 10.1097/HC9.0000000000000706. eCollection 2025 Jun 1.

DOI:10.1097/HC9.0000000000000706

PMID:40377490

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12088631/

Abstract

BACKGROUND

Disease modeling is vital for our understanding of disease mechanisms and for developing new therapeutic strategies. Accurately modeling the intact tumor microenvironment (TME) is increasingly recognized as essential for gaining insights into cancer biology and therapeutic response. Preclinical mouse models have provided utility for studying the evolving TME, but these models are costly and can lead to animal suffering and the discontinuation of drug investigations. To address these limitations, particularly in hepatocellular carcinoma (HCC), we have developed an ex vivo model using tumor precision-cut slices (TPCS) derived from orthotopic liver tumors.

METHODS

Murine HCC tumors were generated via intrahepatic injection of Hep-53.4 cells, providing a source of tumor tissue for TPCS generation. Subsequent scaling to a 96-well format and modification to include a secreted luciferase enabled longitudinal ex vivo screening of 26 drugs applied at 2 doses over an 8-day period, using just 5 tumors. One drug identified in the screen, salinomycin, was then validated in vivo via intraperitoneal injection of mice with orthotopic liver tumors.

RESULTS

Histological characterization determined that TPCS maintain the architecture, cellular complexity, and drug responsiveness of the original HCC-TME under simplified culture conditions that preserve viability and metabolic activity. In addition to typical HCC therapies, sorafenib and anti-PD1 immunotherapy, the screen identified 2 drugs as potent anticancer agents capable of impacting the viability of TPCS: salinomycin and rottlerin. Salinomycin was further validated in vivo, significantly reducing tumor burden without evidence of toxicity.

CONCLUSIONS

We present a 3Rs (Reduction, Refinement, Replacement) approach for studying HCC biology and performing 96-well-scale drug screening within an intact, metabolically active TME, offering a more ethical and effective platform for drug discovery.

摘要

背景

疾病建模对于我们理解疾病机制和开发新的治疗策略至关重要。准确模拟完整的肿瘤微环境（TME）对于深入了解癌症生物学和治疗反应越来越被认为是必不可少的。临床前小鼠模型在研究不断演变的TME方面具有实用性，但这些模型成本高昂，可能导致动物受苦并使药物研究中断。为了解决这些局限性，特别是在肝细胞癌（HCC）方面，我们开发了一种使用源自原位肝肿瘤的肿瘤精确切割切片（TPCS）的体外模型。

方法

通过肝内注射Hep-53.4细胞生成小鼠HCC肿瘤，为TPCS生成提供肿瘤组织来源。随后扩展为96孔格式并进行修改以包括分泌型荧光素酶，从而能够在8天内使用仅5个肿瘤对26种药物以2种剂量进行纵向体外筛选。然后通过向患有原位肝肿瘤的小鼠腹腔注射来在体内验证筛选中鉴定出的一种药物沙林霉素。

结果

组织学特征表明，在保持活力和代谢活性的简化培养条件下，TPCS维持了原始HCC-TME的结构、细胞复杂性和药物反应性。除了典型的HCC疗法索拉非尼和抗PD1免疫疗法外，筛选还鉴定出2种药物为能够影响TPCS活力的强效抗癌剂：沙林霉素和rottlerin。沙林霉素在体内进一步得到验证，显著降低了肿瘤负担且无毒性证据。

结论

我们提出了一种3R（减少、优化、替代）方法，用于研究HCC生物学并在完整的、具有代谢活性的TME内进行96孔规模的药物筛选，为药物发现提供了一个更符合伦理且有效的平台。

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用于模拟肝细胞癌的精密切割肿瘤切片可实现大规模药物筛选。

Precision-cut tumor slices for modeling hepatocellular carcinoma enable at-scale drug screening.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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