Endosomes play a major role in various cellular processes including cell-cell signaling, development and cellular responses to environment. Endosomes are dynamically organized into a complex set of endomembrane compartments themselves subcompartmentalized in distinct pools or subpopulations. It is increasingly evident that endosome dynamics and maturation is driven by local modification of lipid composition. The diversity of membrane lipids is impressive and their homeostasis often involves crosstalk between distinct lipid classes. Hence, biochemical characterization of endosomal membrane lipidome would clarify the maturation steps of endocytic routes. Immunopurification of intact endomembrane compartments has been employed in recent years to isolate early and late endosomal compartments and can even be used to separate subpopulations of early endosomes. In this section, we will describe the immunoprecipitation protocol to isolate endosomes with the aim to analyze the lipid content. We will detail a procedure to identify the total fatty acid and sterol content of isolated endosomes as a first line of lipid identification. Advantages and limitations of the method will be discussed as well as potential pitfalls and critical steps.
Keywords: Endosomes; Fatty acids; Golgi; Immunopurification; Lipids; Mass spectrometry; Organelles; Plants.