RESUMO
BACKGROUND: Studies regarding Feridex in vitro cell labeling are mainly in rodents, while little information is known on primate crab-eating macaque.OBJECTIVE: To explore the feasibility of protocols using Feridex and transfection agents for in vitro magnetic labeling of bone marrow stromal cells (BMSCs) in crab-eating macaque.METHODS: Under the sterile condition, the crab-eating macaque BMSCs were obtained by means of density gradient centrifugation following a bone puncture. Feridex-poly-l-lysine complexes were used to magnetically label BMSCs. The efficiency and cellular viability of Feridex-poly-l-lysine labeled BMSCs were evaluated by Prussian blue staining, electron microscopy, and trypan blue dye exclusion test. The proliferation and differentiation ability of Feridex-poly-l-lysine labeling BMSCs were also investigated by inverted phase contrast microscope and immunocytochemistry. RESULTS AND CONCLUSION: BMSCs could be effectively labeled by Feridex and labeling efficiency was around 99%. Tiny blue stained fine particles and numerous vesicles coated with the electron-dense magnetic iron particles could be found in the cytoplasm of Feridex-poly-l-lysine labeled BMSCs under optical microscopy and transmission electron microscopy respectively. Cell viability, proliferation and differentiation ability of labeled BMSCs were not affected by Feridex-poly-l-lysine labeling. Results indicated that Feridex might be used to label BMSCs of crab-eating macaque.