Retinal microglia are critical for subretinal neovascular formation
Ayumi Usui-Ouchi, Yoshihiko Usui, Toshihide Kurihara, Edith Aguilar, Michael I. Dorrell, Yoichiro Ideguchi, Susumu Sakimoto, Stephen Bravo, Martin Friedlander
Ayumi Usui-Ouchi, Yoshihiko Usui, Toshihide Kurihara, Edith Aguilar, Michael I. Dorrell, Yoichiro Ideguchi, Susumu Sakimoto, Stephen Bravo, Martin Friedlander
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Research Article Angiogenesis Ophthalmology

Retinal microglia are critical for subretinal neovascular formation

Abstract

Abnormal subretinal neovascularization is a characteristic of vision-threatening retinal diseases, including macular telangiectasia (MacTel) and retinal angiomatous proliferation (RAP). Subretinal neovascular tufts and photoreceptor dysfunction are observed in very-low-density lipoprotein receptor (Vldlr–/–) mutant mice. These changes mirror those observed in patients with MacTel and RAP, but the pathogenesis is largely unknown. In this study, we show that retinal microglia were closely associated with retinal neovascular tufts in Vldlr–/– mice and retinal tissue from patients with MacTel; ablation of microglia/macrophages dramatically prevented formation of retinal neovascular tufts and improved neuronal function, as assessed by electroretinography. Vldlr–/– mice with retinal pigmented epithelium–specific (RPE-specific) Vegfa had greatly reduced subretinal infiltration of microglia/macrophages, subsequently reducing neovascular tufts. These findings highlight the contribution of microglia/macrophages to the pathogenesis of neovascularization, provide valuable clues regarding potential causative cellular mechanisms for subretinal neovascularization in patients with MacTel and RAP and suggest that targeting microglia activation may be a therapeutic option in these diseases.

Authors

Ayumi Usui-Ouchi, Yoshihiko Usui, Toshihide Kurihara, Edith Aguilar, Michael I. Dorrell, Yoichiro Ideguchi, Susumu Sakimoto, Stephen Bravo, Martin Friedlander

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Figure 5

Vegfa deletion in RPE, but not microglia/macrophages, inhibits neovascular tufts and microglia activations but further reduces cone photoreceptor function in Vldlr–/– mice.

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Vegfa deletion in RPE, but not microglia/macrophages, inhibits neovascu...
(A and B) To delete Vegfa expression in microglia of Vldlr–/– mice, Vldlr–/– mice were crossed with microglia-specific Vegfa-knockout Cx3cr1Cre-ERT; Vegfafl/fl mice and myeloid cell–specific Vegfa-knockout LysMCre; Vegfafl/fl mice. Retinal whole mounts were stained by GS-lectin. (B) The number of subretinal NV tufts was analyzed by retinal whole-mount GS-lectin staining in P23 Vegfafl/fl; Vldlr–/– and Cx3cr1Cre-ERT; Vegfafl/fl; Vldlr–/– or LysMCre; Vegfafl/fl; Vldlr–/– mice (Vegfafl/fl; Vldlr–/–: n = 13, Cx3cr1Cre-ERT; Vegfafl/fl; Vldlr–/–: n = 6, LysMCre; Vegfafl/fl; Vldlr–/–: n = 9). The P values were calculated using 1-way ANOVA with Tukey’s multiple comparisons test. (C–E) NV formation and microglia-related inflammatory cytokines and chemokines were analyzed in Vldlr–/– mice with RPE-specific Vegfa deletion. (C) Retinal sectional immunohistochemistry with GS-lectin and IBA-1 from P14 VMD2Cre; Vegfafl/fl; Vldlr–/– and Vegfafl/fl; Vldlr–/– mice. White arrows indicate coexistence of a retinal neovessel emerged from deep plexus and retinal microglia. (D) The retinal NV tufts at P23 were visualized by GS-lectin (left). The subretinal NV tufts were colocalized with IBA-1 microglia/macrophages (right). (E) The expression of microglia-related inflammatory genes was assessed by qPCR at P23 (Vegfafl/fl; Vldlr–/–: n = 6, VMD2Cre; Vegfafl/fl; Vldlr–/–: n = 4). The P values were calculated using multiple t test. (F–I) The number of subretinal NV tufts and photopic ERGs was quantified in Vldlr–/– mice with RPE-specific gene deletion for Vegfa at P56. (F) GS-lectin staining for retinal whole mounts of P56 VMD2Cre; Vegfafl/fl; Vldlr–/– and Vegfafl/fl; Vldlr–/– mice. (G) The number of subretinal NV tufts was analyzed at P56 (n = 8 each). The P values were calculated using an unpaired 2-tailed t test. (H) The representative record of photopic flash ERG and photopic 30-Hz flicker ERG. (I) The amplitude of b-wave from photopic flash ERG and photopic 30-Hz flicker ERG were measured (n = 3 each). The P values were calculated using multiple t test. *P < 0.05, **P < 0.01, ***P < 0.001. Scale bars: 1 mm (A; D, left; and F); 100 μm (C and D, right).