Characterization and Analysis of Extracellular Matrix in Malignant Brain Tumors and Their Cellular Derivatives

The neural extracellular matrix (ECM) is a key regulator of cellular phenotype in normal and diseased states. Analytical approaches have helped uncover the myriad of roles the ECM plays in a variety of diseases including malignant gliomas, the most prevalent and deadly primary brain tumors. Major components of the glioma ECM include secreted proteoglycans as well as basal lamina proteins such as laminins. Characterization of secreted proteoglycans by protein blotting is an invaluable tool to understand their molecular complexity. To provide complete characterization of these molecules, tissue specimens must be first processed to separate insoluble (structural) from soluble proteoglycans. Here, we describe the procedure to separate subcellular fractions by differential centrifugation and extract chondroitin sulfate proteoglycans. Further treatment of these fractions using glycosidases to remove specific carbohydrates, followed by protein electrophoresis and western blotting, provides rich information about the composition and variability of the glioma matrix. To determine ECM protein localization in vivo, immunofluorescence analysis techniques are required. Here we describe commonly used approaches for protein analysis using fluorescence antibody detection in primary human tumor tissue and patient-derived xenografts. Additionally, the characterization of a cancer stem cell fraction in these tumors has received much attention, and we provide the methodology for the visualizatio...
Source: Springer protocols feed by Neuroscience - Category: Neuroscience Source Type: news