CCR2 overexpression promotes the efficient recruitment of retinal microglia in vitro

PURPOSE: Retinal microglia can be activated and recruited by chemokines and play a protective role in early retinal degeneration. CC-chemokine ligand 2 (CCL2) and its receptor, CC-chemokine receptor 2 (CCR2), have been implicated as key mediators for the trafficking and accumulation of microglial cells in lesioned tissue. The current study investigates whether the overexpression of CCR2 allows microglia to migrate toward CCL2 more efficiently. METHODS: Primary microglial cells were transduced with lentivirus carrying green fluorescent protein (GFP)-tagged CCR2 (CCR2-GFP). Overexpression of CCR2 was assessed by western blot analysis and fluorescence-assisted cell sorting. The chemotaxis of primary microglia transduced with lentivirus carrying CCR2-GFP was compared to either those transduced with GFP alone or those not transduced, using a chemotaxis chamber assay. RESULTS: Primary microglia showed a high transduction rate following lentivirus application and maintained normal microglial morphology and a significant overexpression of CCR2 protein. We found that CCL2-mediated chemotaxis is concentration and time dependent in microglia. The chemotactic response of microglia cells overexpressing CCR2-GFP was significantly increased compared to that of nontransduced and GFP-expressing microglia. CONCLUSIONS: These findings suggest that microglia can be efficiently transduced with CCR2-GFP lentiviral vectors and that the overexpression of CCR2 in retinal microglia promotes their chemotaxis in response to chemokines, suggesting that these cells may be promising targets for cell-based therapeutic manipulation in retinal disease.