In situ detection of protein-protein interaction by proximity ligation assay in patient derived brain tumor stem cells.

Improper or aberrant protein-protein interactions can lead to severe human diseases including cancer. Here, we describe an adapted proximity ligation assay (PLA) protocol for the assessment of galectin-1-HOXA5 interaction in brain tumor stem cells (BTSCs). We detail the steps for culturing and preparation of BTSCs followed by PLA and detection of protein interactions in situ using fluorescent microscopy. This PLA protocol is optimized specifically for BTSCs and includes key controls for effective result analysis. For complete details on the use and execution of this protocol, please refer to Sharanek et al. (2021).

Subcellular fractionation of brain tumor stem cells.

Brain tumor stem cells (BTSCs) are a rare population of self-renewing stem cells that are cultured as spheres and are often slow growing compared to other mammalian cell lines. Analysis of BTSC proteome requires careful handling as well as techniques that can be applied to small quantities of cell material. Subcellular fractionation is a widely used technique to assess protein localization. Although proteins are often destined to a defined cell compartment via a signal peptide such as mitochondrial or nuclear localization signals, the recruitment of a protein from one compartment to another can occur as a result of post-translational modification and/or structural variations in response to intracellular and extracellular stimuli. These events assign different functions to a protein making the study of protein localization a useful approach for better understanding of its role in disease progression. Sequential centrifugation remains a simple and versatile fractionation method for proteomic analysis. It can also be applied for diverse downstream applications such as multi-omics using pure nuclear fractions or metabolomic studies on isolated mitochondria. In this chapter, we describe our optimized protocol for subcellular fractionation of BTSC spheres in which we use a commercially available kit with additional centrifugation steps. We provide details on BTSC maintenance and handling, fractionation protocol and evaluation of fraction purity.