A flow cytometry-based approach for the study of primary cilia.

Primary cilia provide a specialized subcellular environment favoring ordered and timely interaction and modification of signaling molecules, necessary for the sensing and transduction of extracellular signals and environmental conditions. Crucial to the understanding of ciliary function is the knowledge of the signaling molecules composing the ciliary compartment. While proteomes of primary cilia have been published recently, the selective isolation of primary cilia from specific cell types and whole tissue still proves difficult, and many laboratories instead resort to the analysis of cultured cells, which may introduce experimental artifacts. Here we present a flow cytometry-based method to isolate and characterize primary cilia from the murine ventricular-subventricular zone. After deciliation, primary cilia are immunolabeled with antibodies against ciliary markers. As an example, we here use a double-staining with acetylated tubulin, which stains the ciliary axoneme, and ciliary membrane protein ADP-ribosylation-like factor 13b (Arl13b); additionally, we triple-labeled primary cilia using the ciliary marker adenylate cyclase 3 (AC3). Besides analysis at the single particle level, fluorescence activated cell sorting (FACS) allows collection of pure preparations of primary cilia suited for subsequent proteomic analyses like mass spectrometry or western blot. As an example of analytical application, we performed triple immunostaining and FACS analysis to reveal cilia heterogeneity. Thus, our cilia isolation method, which can readily be applied to other tissues or cell culture, will facilitate the study of this key cellular organelle and shed light on its role in normal conditions and disease.