CD200 maintains microglial potential to migrate in adult human retinal explant model.
PURPOSE: Retinal microglia (MG) migrate in response to injury, degeneration and inflammation dependent upon both soluble and cognate signals they receive. Previously we found that lipopolysaccharide/interferon-gamma ( LPS/IFNgamma) stimulation induces a paradoxical IL-10 mediated suppression of MG migration from retinal explants. Given the high expression of neuronal CD200, which can induce down regulation of CD200 receptor-positive MG activation and neuronal fractalkine expression potentially stimulating MG migration, we wished to further examine their respective roles in the maintenance of MG activation and migration. METHODS: A human retinal explant model of MG migration was used. CD200 receptor and fractalkine receptor stimulation was achieved by addition to explants of CD200:Fc fusion protein and recombinant cytokine respectively, with or without LPS-IFNgamma stimulation that is known to suppress migration. Cell migration and cell activation (iNOS expression) was counted and assessed by numbers of CD45+ cells by immunofluorescence and standardised flow cytometric bead array analysis was performed for cytokine production. RESULTS: Retinal explants expressed fractalkine and CX3CR1 immunohistochemically and by PCR. Addition of Fractalkine and not CD200:Fc induced MG migration from retinal explants. However LPS/IFNgamma-induced suppression of MG migration could only be restored in the presence of CD200:Fc, whilst MG remained iNOS-negative and generated IL-10. CONCLUSIONS: Microglial responses are tightly governed within retina. Although MG do not classically activate following LPS/IFNgamma stimulation, their migration is sustained via CD200R stimulation maintaining their potential to migrate in response to injury.[1]References
- CD200 maintains microglial potential to migrate in adult human retinal explant model. Carter, D.A., Dick, A.D. Curr. Eye Res. (2004) [Pubmed]
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