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Immunomodulation of inflammatory responses preserves retinal integrity in murine models of pericyte-depletion retinopathy
Urbanus Muthai Kinuthia, Christoph Moehle, Ralf H. Adams, Thomas Langmann
Urbanus Muthai Kinuthia, Christoph Moehle, Ralf H. Adams, Thomas Langmann
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Research Article Immunology Ophthalmology

Immunomodulation of inflammatory responses preserves retinal integrity in murine models of pericyte-depletion retinopathy

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Abstract

The loss of integrity of the blood retina barrier (BRB) is a key pathological hallmark of vision-threatening complications in diabetic retinopathy (DR). Although DR is considered a microvascular disease, mounting evidence from mouse models and patients show that inflammation is closely connected with microvasculopathy. Inflammatory responses during retinal pathophysiology are often orchestrated by microglia, resident innate immune cells of the retina. However, the precise role of microglia activity during DR pathogenesis remains elusive. Here, we used an anti-PDGFRβ antibody and inducible endothelial cell–specific PDGFB-KO during postnatal development of retinal vasculature to reproduce a key feature of DR pathology in mice. In addition, we applied a minocycline therapy to modulate retinal inflammation. Postnatal depletion of pericytes or loss of PDGFB in retinal vessels altered BRB integrity and triggered secretion of angiogenic and inflammatory factors with concomitant microglia reactivity, which was sustained in retinas of adult mice. Microglia reactivity was accompanied by upregulation of disease-associated genes. Notably, minocycline attenuated the cycle of inflammatory responses in young and mature retinas, thereby preserving retinal vascular and structural integrity in mice. Together, our findings suggest that immunomodulation of microglia-driven inflammatory responses preserves retinal vasculature and maintains BRB integrity in 2 different mouse models of human DR.

Authors

Urbanus Muthai Kinuthia, Christoph Moehle, Ralf H. Adams, Thomas Langmann

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Figure 2

Microglia reactivity is an early event of APB5-induced retinopathy.

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Microglia reactivity is an early event of APB5-induced retinopathy.
(A a...
(A and B) Representative images of Iba1+ cells in the IPL (A) and OPL (B) from retinal whole mounts. (C and D) Quantification of the number of Iba1+ cells in the IPL (C) and OPL (D) (n = 7–8 retinas). (E–J) Morphological analyses of retinal microglia showed that APB5 affected all analyzed parameters; ramification index (E), spanned area (F), area (G), number of branches (H), number of junctions (I), and total tree length (J) (n = 19 Iba1+ cells per group). Treatment of APB5 mice with minocycline restored the homeostatic state of microglia as indicated by all analyzed morphometric attributes. (K) IHC for Iba1 and DAPI on retinal sections showing the migration of Iba1+ cells across the INL in the APB5 retinas. (L) IHC for GS and GFAP on retinal sections highlighting the Müller glia reactivity in the APB5-treated retinas. Scale bar: 50 μm. *P < 0.05, ** P < 0.01, *** P < 0.001, ****P < 0.0001. Data represent mean ± SD. One way ANOVA. IPL; inner plexiform layer, OPL; outer plexiform layer; ONL, outer nuclear layer; INL, inner nuclear layer; GCL, ganglion cell layer; GS, glutamine synthetase; GFAP, glial fibrillary acid protein.

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