Renal tumouroids: challenges of manufacturing 3D cultures from patient derived primary cells

被引:0
作者
Agata Nyga
Katerina Stamati
Patricia A. Redondo
Tayebeh Azimi
Andrew Feber
Joana B. Neves
Rifat Hamoudi
Nadège Presneau
Soha El Sheikh
Maxine G. B. Tran
Mark Emberton
Marilena Loizidou
Umber Cheema
机构
[1] University College London,Research Department of Surgical Biotechnology, Division of Surgery & Interventional Science
[2] MRC Laboratory for Molecular Biology,Cell Biology Division
[3] Royal Marsden NHS Trust,Centre for Molecular Pathology
[4] Royal Free London NHS Foundation Trust,Specialist Centre for Kidney Cancer
[5] University of Sharjah,Sharjah Institute for Medical Research, College of Medicine
[6] University of Westminster,School of Life Sciences
[7] Royal Free London Foundation Trust,Cellular Pathology Department
[8] University College London,Centre for 3D Models of Health and Disease, Research Department of Targeted Intervention, Division of Surgery & Interventional Science
[9] University College London Hospitals NHS Foundation Trust,Department of Urology
来源
Journal of Cell Communication and Signaling | 2022年 / 16卷
关键词
3D cancer cultures; Patient derived 3D cultures; Renal cancer; Renal cancer mutations; Tumouroids;
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中图分类号
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摘要
Recent advancements in 3D in vitro culture have allowed for the development of cancer tissue models which accurately recapitulate the tumour microenvironment. Consequently, there has been increased innovation in therapeutic drug screening. While organoid cultures show great potential, they are limited by the time scale of their growth in vitro and the dependence upon commercial matrices, such as Matrigel, which do not allow for manipulations of their composition or mechanical properties. Here, we show a straightforward approach for the isolation and culture of primary human renal carcinoma cells and matched non-affected kidney. This approach does not require any specific selection for cancer cells, and allows for their direct culture in amenable 3D collagen-based matrices, with the preservation of cancer cells as confirmed by NGS sequencing. This method allows for culture of patient-derived cancer cells in 3D microenvironment, which can be used for downstream experimentation such as investigation of cell–matrix interaction or drug screening.
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页码:637 / 648
页数:11
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