Abstract
Three-dimensional cultured patient-derived cancer organoids (PDOs) represent a powerful tool for anti-cancer drug development due to their similarity to the in vivo tumor tissues. However, the culture and manipulation of PDOs is more difficult than 2D cultured cell lines due to the presence of the culture matrix and the 3D feature of the organoids. In our other study, we established a method for lung cancer organoid (LCO)-based drug sensitivity tests on the superhydrophobic microwell array chip (SMAR-chip). Here, we describe a novel in situ cryopreservation technology on the SMAR-chip to preserve the viability of the organoids for future drug sensitivity tests. We compared two cryopreservation approaches (slow freezing and vitrification) and demonstrated that vitrification performed better at preserving the viability of LCOs. Next, we developed a simple procedure for in situ cryopreservation and thawing of the LCOs on the SMAR-chip. We proved that the on-chip cryopreserved organoids can be recovered successfully and, more importantly, showing similar responses to anti-cancer drugs as the unfrozen controls. This in situ vitrification technology eliminated the harvesting and centrifugation steps in conventional cryopreservation, making the whole freeze–thaw process easier to perform and the preserved LCOs ready to be used for the subsequent drug sensitivity test.
Highlights
Tumor cell lines have been used worldwide as primary tools for anti-cancer drug development due to their relevance to cancers, unlimited proliferation capacities, and well-developed high-throughput culture and analysis systems from multi-well plates to liquid handling robots
In order to facilitate the high-throughput patient-derived organoids (PDOs)-based drug testing on the SMAR-chip, here we developed an in situ vitrification method to freeze the lung cancer organoid (LCO) on the SMAR-chip using simple procedures
We developed developed an an in in situ situ cryopreservation cryopreservation method method where where LCOs
Summary
Tumor cell lines have been used worldwide as primary tools for anti-cancer drug development due to their relevance to cancers (i.e., mutations in oncogenes), unlimited proliferation capacities, and well-developed high-throughput culture and analysis systems from multi-well plates to liquid handling robots. The proliferation of LCOs can be improved by optimizing the culturing conditions, a robust cryopreservation technology compatible with organoid culture and analysis will facilitate the usage of PDOs in anticancer drug development. In order to facilitate the high-throughput PDO-based drug testing on the SMAR-chip, here we developed an in situ vitrification method to freeze the LCOs on the SMAR-chip using simple procedures. The in situ cryopreservation together with the subsequent high-throughput drug sensitivity analysis provide a promising platform for the future application of PDOs in anti-cancer drug development
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
