Dysregulated claudin-5 cycling in the inner retina causes retinal pigment epithelial cell atrophy
Natalie Hudson, Lucia Celkova, Alan Hopkins, Chris Greene, Federica Storti, Ema Ozaki, Erin Fahey, Sofia Theodoropoulou, Paul F. Kenna, Marian M. Humphries, Annie M. Curtis, Eleanor Demmons, Akeem Browne, Shervin Liddie, Matthew S. Lawrence, Christian Grimm, Mark T. Cahill, Pete Humphries, Sarah L. Doyle, Matthew Campbell
Natalie Hudson, Lucia Celkova, Alan Hopkins, Chris Greene, Federica Storti, Ema Ozaki, Erin Fahey, Sofia Theodoropoulou, Paul F. Kenna, Marian M. Humphries, Annie M. Curtis, Eleanor Demmons, Akeem Browne, Shervin Liddie, Matthew S. Lawrence, Christian Grimm, Mark T. Cahill, Pete Humphries, Sarah L. Doyle, Matthew Campbell
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Research Article Ophthalmology Vascular biology

Dysregulated claudin-5 cycling in the inner retina causes retinal pigment epithelial cell atrophy

Abstract

Age-related macular degeneration (AMD) is the leading cause of central retinal vision loss worldwide, with an estimated 1 in 10 people over the age of 55 showing early signs of the condition. There are currently no forms of therapy available for the end stage of dry AMD, geographic atrophy (GA). Here, we show that the inner blood-retina barrier (iBRB) is highly dynamic and may play a contributory role in GA development. We have discovered that the gene CLDN5, which encodes claudin-5, a tight junction protein abundantly expressed at the iBRB, is regulated by BMAL1 and the circadian clock. Persistent suppression of claudin-5 expression in mice exposed to a cholesterol-enriched diet induced striking retinal pigment epithelium (RPE) cell atrophy, and persistent targeted suppression of claudin-5 in the macular region of nonhuman primates induced RPE cell atrophy. Moreover, fundus fluorescein angiography in human and nonhuman primate subjects showed increased retinal vascular permeability in the evening compared with the morning. These findings implicate an inner retina–derived component in the early pathophysiological changes observed in AMD, and we suggest that restoring the integrity of the iBRB may represent a novel therapeutic target for the prevention and treatment of GA secondary to dry AMD.

Authors

Natalie Hudson, Lucia Celkova, Alan Hopkins, Chris Greene, Federica Storti, Ema Ozaki, Erin Fahey, Sofia Theodoropoulou, Paul F. Kenna, Marian M. Humphries, Annie M. Curtis, Eleanor Demmons, Akeem Browne, Shervin Liddie, Matthew S. Lawrence, Christian Grimm, Mark T. Cahill, Pete Humphries, Sarah L. Doyle, Matthew Campbell

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Figure 5

Regulation of the iBRB in humans and nonhuman primates.

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Regulation of the iBRB in humans and nonhuman primates. (A) Claudin-5 ex...
(A) Claudin-5 expression in the central human retina compared with the peripheral retina (n = 28 donor human eyes, and ***P < 0.0001). (B) ETDRS grid over the human macula. (C) FFA in the human retina 30 seconds, 5 minutes, and 10 minutes after i.v. sodium fluorescein injection (top, morning; bottom, evening). (D) Significantly increased fluorescein signal in evening compared with morning in the central fovea (CFT) (**P < 0.01), inner macula (***P < 0.001), CFT and inner macula (***P < 0.001), outer macula (***P < 0.001), and total area combined (***P < 0.001). (E) FFA analysis from the nonhuman primate (top, morning; bottom, evening). (F) Individual fluorescence signal in each monkey at morning compared with evening at 2 minutes (*P = 0.0109) and (G) 6 minutes (*P = 0.0113) after i.v. injection (n = 6 monkeys, 12 eyes). (H) FFA analysis of retina injected subretinally with claudin-5–targeting shRNA AAV in the superior macula and NT AAV in the inferior retina and FFA analysis performed in the morning (left) and evening (right). (n = 3 monkeys.) (I) OCT analysis of the NT AAV–injected and (J) claudin-5 shRNA AAV–injected region. (K) Histological analysis of retina injected with AAV2/9 expressing claudin-5–targeting shRNA (n = 3 monkeys, 6 eyes). Original magnification, ×40. Student’s t test, with significance represented by a P value of less than or equal to 0.05.