Blood-retina barrier failure and vision loss in neuron-specific degeneration
Elena Ivanova, … , Glen T. Prusky, Botir T. Sagdullaev
Elena Ivanova, … , Glen T. Prusky, Botir T. Sagdullaev
Published March 19, 2019
Citation Information: JCI Insight. 2019;4(8):e126747. https://doi.org/10.1172/jci.insight.126747.
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Research Article Ophthalmology Vascular biology

Blood-retina barrier failure and vision loss in neuron-specific degeneration

Abstract

Changes in neuronal activity alter blood flow to match energy demand with the supply of oxygen and nutrients. This functional hyperemia is maintained by interactions among neurons, vascular cells, and glia. However, how changing neuronal activity prevalent at the onset of neurodegenerative disease affects neurovascular elements is unclear. Here, in mice with photoreceptor degeneration, a model of neuron-specific dysfunction, we combined the assessment of visual function, neurovascular unit structure, and blood-retina barrier permeability. We found that the rod loss paralleled remodeling of the neurovascular unit, comprising photoreceptors, retinal pigment epithelium, and Muller glia. When substantial visual function was still present, blood flow became disrupted and the blood-retina barrier began to fail, facilitating cone loss and vision decline. Thus, in contrast to the established view, the vascular deficit in neuronal degeneration is not a late consequence of neuronal dysfunction but is present early in the course of disease. These findings further establish the importance of vascular deficit and blood-retina barrier function in neuron-specific loss and highlight it as a target for early therapeutic intervention.

Authors

Elena Ivanova, Nazia M. Alam, Glen T. Prusky, Botir T. Sagdullaev

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Figure 2

Cone function decline, the onset of vascular changes, and blood-retina barrier and blood flow disruption in retinal degeneration.

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Cone function decline, the onset of vascular changes, and blood-retina b...
(A) Behavior assessment of mouse vision. (B) Cone-mediated behavior persisted in rd10 mice until P160. The same animals (13 WT and 20 rd10, ANOVA) were measured in a longitudinal manner (both eyes of the same mouse were measured separately at each time point; only one eye’s measures were plotted in the figure). (C) Longitudinal analysis of variations between 2 eyes in a given rd10 mouse shows that extent of the vision decline varied across the 2 eyes of the same animal (3 different rd10 mice, 2-tailed t test). (D) In vivo confocal assessment revealed constricted vasculature and compromised blood-retina barrier (BRB) in RD. Small images are magnified areas of retinal pigment epithelium (RPE) and the deep retinal vascular layers. (E) Rate of capillary retina blood cell (RBC) flow at P35, measured as a number of cells crossing a red line in D. Each cell crossing is represented by a deflection and is reduced in rd10 mice at P35. (F) Comparison of diameters from images in D, showed narrowing (bottom) and uneven constriction of blood vessels, as measured by SD from means (top) in RD (arrows in D). (G) Averaged vascular diameter was significantly smaller in rd10 mice Error bars ± SD (4–5 mice, 2-tailed t test). (H) Vascular leak progressively increased in RD in the RPE and deep vascular layers (4–5 mice, 2-tailed t test). Scale bars: 100 μm (D); 25 μm (E). Error bars ± SD (4–5 mice). *P < 0.05, **P < 0.01, ***P < 0.001.