球体
共焦显微镜
胰腺癌
间质细胞
纳米载体
体内
癌症研究
腺癌
药物输送
胰腺导管腺癌
三维细胞培养
生物医学工程
纳米技术
细胞
癌细胞
医学
显微镜
癌症
化学
细胞培养
计算机科学
病理
计算生物学
共焦
肺癌
作者
Chitra Yadav,Alexander S. Evtushenko,Andrea Bistrović,Beatriz Lozano Torres,Ishtiaq Ahmed,Liuba Dvinskikh,Clemens F. Kaminski,Ljiljana Fruk
标识
DOI:10.1038/s44385-025-00041-x
摘要
3D spheroid culture has emerged as a valuable tool for studying complex intratumoral processes and screening novel therapeutics in vitro. However, spheroids face reproducibility and data interpretation issues, which limit their utility. This work describes a simple and reproducible co-culture spheroid model compatible with high-throughput screening designed to study pancreatic ductal adenocarcinoma (PDAC), a highly therapy-resistant cancer. These spheroids, composed of both cancer and stromal cells, recapitulate key features of PDAC which are difficult to study in traditional 2D cell culture, including hypoxia, fibrosis and chemoresistance. Light sheet microscopy is used to study the tissue penetration of polymeric Pluronic® F127-polydopamine (PluPDA) nanocarriers (NCs) in this model while showing that confocal microscopy is not suitable for such studies and should be avoided. Additionally, the efficacy of PluPDA NCs loaded with the chemotherapeutic SN-38 is demonstrated in 3D, justifying their advancement to in vivo trials. Finally, the methodology is extended to generate lung adenocarcinoma spheroids, showcasing the versatility of this approach. Overall, this research is intended to serve as a robust platform for studying NCs under physiologically relevant conditions, ultimately resulting in a more efficient clinical translation pathway for nanomaterials.
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