Protein phosphorylation is one of the most important post-translational modifications, which acts as a reversible on or off switch for the activity of a large number of proteins. Analyzing the phosphorylation status of different proteins can reveal the alterations in the state of the cells in response to cellular damage, cancer and pharmaceutical drugs. Techniques such as mass spectrometry, radiolabeling, 2D-gel electrophoresis and western blotting are used to quantify protein phosphorylation. These assays can quantify phosphorylation in the bulk population of cells, however, flow cytometry can couple cell surface marker expression data with phosphorylation data to understand differential signaling in a sub-population within a heterogeneous population of cells. Our protocol describes the use of flow-cytometry for rapid and single cell-based quantification of intracellular phospho-protein with the help of anti-phospho protein specific antibody.

Mesenchymal stem cells (MSCs) have attracted significant attention as potential therapeutic cells to treat various diseases ranging from tissue injuries, graft versus host disease, degenerative diseases and cancer. Since the initial discovery of MSCs in the bone marrow cells, MSCs have been successfully isolated from various adult and neo-natal tissues, albeit the procedures are often coupled with difficulties in harvesting tissue and produce low yield of cells, requiring extensive expansion in vitro. Here, we explored extra-ocular muscle tissues obtained from patients as a novel source of MSCs which express characteristic cell surface markers of MSCs and show multilineage differentiation potential with high proliferation capacity.