3D Culture Protocol for Testing Gene Knockdown Efficiency and Cell Line Derivation.

Traditional 2D cell cultures with cells grown as monolayers on solid surface still represent the standard method in cancer research for drug testing. Cells grown in 2D cultures, however, lack relevant cell-matrix and cell-cell interactions and ignore the true three-dimensional anatomy of solid tumors. Cells cultured in 2D can also undergo cytoskeletal rearrangements and acquire artificial polarity associated with aberrant gene expression ( Edmondson et al., 2014 ). 3D culture systems that better mimic the in vivo situation have been developed recently. 3D in vitro cancer models (tumorspheres) for studying cancer stem cells have gained increased popularity in the field ( Weiswald et al., 2015 ). Systems that use matrix-embedded or encapsulated spheroids, spheroids cultured in hanging drops, magnetic levitation systems or 3D printing methods are already being widely used in research and for novel drug screening. In this article, we describe a detailed protocol for testing the effect of shRNA-mediated gene silencing on tumorsphere formation and growth. This approach allows researchers to test the impact of gene knockdown on the growth of tumor initiating cells. As verified by our lab, the protocol can be also used for isolation of 3D cancer cell lines directly from tumor tissues.