为患者来源的肺癌类器官选择最合适的培养基。
Selection of the Most Suitable Culture Medium for Patient-Derived Lung Cancer Organoids.
作者信息
Acosta-Plasencia Melissa, He Yangyi, Martínez Daniel, Orozco Juan Pablo, Carrasco Antonio, Altuna-Coy Antonio, Yang Tianmiao, Díaz Tania, Molins Laureano, Ramos Ricard, Marrades Ramón M, Navarro Alfons
机构信息
Molecular Oncology and Embryology Laboratory, Department of Surgery and Medical Specializations, Human Anatomy and Embryology Unit, Faculty of Medicine and Health Sciences, Universitat de Barcelona (UB), Barcelona, Spain.
School of Basic Medical Sciences, Chengdu University, Chengdu, China.
出版信息
Cells Tissues Organs. 2025;214(2):114-127. doi: 10.1159/000541274. Epub 2024 Sep 5.
INTRODUCTION
Patient-derived organoids have emerged as a promising in vitro model for precision medicine, particularly in cancer, but also in noncancer-related diseases. However, the optimal culture medium for culturing patient-derived lung organoids has not yet been agreed upon. This study aimed to shed light on the optimal selection of a culture media for developing studies using patient-derived lung organoids.
METHODS
Tumor and normal paired tissue from 71 resected non-small cell lung cancer patients were processed for organoid culture. Lung cancer organoids (LCOs) were derived from tumor tissue and normal lung organoids (LNOs) from nonneoplastic lung tissue. Three different culture media were compared: permissive culture medium (PCM), limited culture medium (LCM), and minimum basal medium (MBM). We assessed their effectiveness in establishing organoid cultures, promoting organoid growth and viability, and compared their differential phenotypic characteristics.
RESULTS
While PCM was associated with the highest success rate and useful for long-term expansion, MBM was the best option to avoid normal organoid overgrowth in the organoid culture. The density, size, and viability of LNOs were reduced using LCM and severely affected with MBM. LNOs cultured in PCM tend to differentiate to bronchospheres, while alveolosphere differentiation can be observed in those cultured with LCM. The morphological phenotype of LCO was influenced by the culture media of election. Mesenchymal cell overgrowth was observed when LCM was used.
CONCLUSION
This work highlights the importance of considering the research objectives when selecting the most suitable culture medium for growing patient-derived lung organoids.
INTRODUCTION
Patient-derived organoids have emerged as a promising in vitro model for precision medicine, particularly in cancer, but also in noncancer-related diseases. However, the optimal culture medium for culturing patient-derived lung organoids has not yet been agreed upon. This study aimed to shed light on the optimal selection of a culture media for developing studies using patient-derived lung organoids.
METHODS
Tumor and normal paired tissue from 71 resected non-small cell lung cancer patients were processed for organoid culture. Lung cancer organoids (LCOs) were derived from tumor tissue and normal lung organoids (LNOs) from nonneoplastic lung tissue. Three different culture media were compared: permissive culture medium (PCM), limited culture medium (LCM), and minimum basal medium (MBM). We assessed their effectiveness in establishing organoid cultures, promoting organoid growth and viability, and compared their differential phenotypic characteristics.
RESULTS
While PCM was associated with the highest success rate and useful for long-term expansion, MBM was the best option to avoid normal organoid overgrowth in the organoid culture. The density, size, and viability of LNOs were reduced using LCM and severely affected with MBM. LNOs cultured in PCM tend to differentiate to bronchospheres, while alveolosphere differentiation can be observed in those cultured with LCM. The morphological phenotype of LCO was influenced by the culture media of election. Mesenchymal cell overgrowth was observed when LCM was used.
CONCLUSION
This work highlights the importance of considering the research objectives when selecting the most suitable culture medium for growing patient-derived lung organoids.
引言
患者来源的类器官已成为一种很有前景的体外模型,可用于精准医学,尤其是在癌症领域,但在非癌症相关疾病中也有应用。然而,用于培养患者来源的肺类器官的最佳培养基尚未达成共识。本研究旨在阐明在开展使用患者来源的肺类器官的研究时,培养基的最佳选择。
方法
对71例接受手术切除的非小细胞肺癌患者的肿瘤组织和正常配对组织进行类器官培养。肺癌类器官(LCO)来源于肿瘤组织,正常肺类器官(LNO)来源于非肿瘤性肺组织。比较了三种不同的培养基:许可培养基(PCM)、有限培养基(LCM)和最低基础培养基(MBM)。我们评估了它们在建立类器官培养、促进类器官生长和活力方面的有效性,并比较了它们不同的表型特征。
结果
虽然PCM的成功率最高且有助于长期扩增,但MBM是避免类器官培养中正常类器官过度生长的最佳选择。使用LCM时,LNO的密度、大小和活力降低,而MBM对其有严重影响。在PCM中培养的LNO倾向于分化为支气管球,而在LCM中培养的LNO则可观察到肺泡球分化。LCO的形态表型受所选培养基的影响。使用LCM时观察到间充质细胞过度生长。
结论
这项工作强调了在选择最适合培养患者来源的肺类器官的培养基时考虑研究目标的重要性。
引言
患者来源的类器官已成为一种很有前景的体外模型,可用于精准医学,尤其是在癌症领域,但在非癌症相关疾病中也有应用。然而,用于培养患者来源的肺类器官的最佳培养基尚未达成共识。本研究旨在阐明在开展使用患者来源的肺类器官的研究时,培养基的最佳选择。
方法
对71例接受手术切除的非小细胞肺癌患者的肿瘤组织和正常配对组织进行类器官培养。肺癌类器官(LCO)来源于肿瘤组织,正常肺类器官(LNO)来源于非肿瘤性肺组织。比较了三种不同的培养基:许可培养基(PCM)、有限培养基(LCM)和最低基础培养基(MBM)。我们评估了它们在建立类器官培养、促进类器官生长和活力方面的有效性,并比较了它们不同的表型特征。
结果
虽然PCM的成功率最高且有助于长期扩增,但MBM是避免类器官培养中正常类器官过度生长的最佳选择。使用LCM时,LNO的密度、大小和活力降低,而MBM对其有严重影响。在PCM中培养的LNO倾向于分化为支气管球,而在LCM中培养的LNO则可观察到肺泡球分化。LCO的形态表型受所选培养基的影响。使用LCM时观察到间充质细胞过度生长。
结论
这项工作强调了在选择最适合培养患者来源的肺类器官的培养基时考虑研究目标的重要性。
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