Molecular clustering identifies complement and endothelin induction as early events in a mouse model of glaucoma
Gareth R. Howell, … , Richard T. Libby, Simon W.M. John
Gareth R. Howell, … , Richard T. Libby, Simon W.M. John
Published March 7, 2011
Citation Information: J Clin Invest. 2011;121(4):1429-1444. https://doi.org/10.1172/JCI44646.
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Research Article Ophthalmology

Molecular clustering identifies complement and endothelin induction as early events in a mouse model of glaucoma

Abstract

Glaucoma is one of the most common neurodegenerative diseases. Despite this, the earliest stages of this complex disease are still unclear. This study was specifically designed to identify early stages of glaucoma in DBA/2J mice. To do this, we used genome-wide expression profiling of optic nerve head and retina and a series of computational methods. Eyes with no detectable glaucoma by conventional assays were grouped into molecularly defined stages of disease using unbiased hierarchical clustering. These stages represent a temporally ordered sequence of glaucoma states. We then determined networks and biological processes that were altered at these early stages. Early-stage expression changes included upregulation of both the complement cascade and the endothelin system, and so we tested the therapeutic value of separately inhibiting them. Mice with a mutation in complement component 1a (C1qa) were protected from glaucoma. Similarly, inhibition of the endothelin system with bosentan, an endothelin receptor antagonist, was strongly protective against glaucomatous damage. Since endothelin 2 is potently vasoconstrictive and was produced by microglia/macrophages, our data provide what we believe to be a novel link between these cell types and vascular dysfunction in glaucoma. Targeting early molecular events, such as complement and endothelin induction, may provide effective new treatments for human glaucoma.

Authors

Gareth R. Howell, Danilo G. Macalinao, Gregory L. Sousa, Michael Walden, Ileana Soto, Stephen C. Kneeland, Jessica M. Barbay, Benjamin L. King, Jeffrey K. Marchant, Matthew Hibbs, Beth Stevens, Ben A. Barres, Abbot F. Clark, Richard T. Libby, Simon W.M. John

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Figure 9

EDN2 is expressed in retinal microglia and may mediate early vascular damage in glaucoma.

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EDN2 is expressed in retinal microglia and may mediate early vascular da...
(AC) Images of a retina from a glaucomatous DBA/2J eye with fluorescently marked RGCs (D2.Thy1-CFP mice; RGCs and their axons are green). EDN2 (magenta) is present in IBA1-positive cells (red) in the RGC and nerve fiber layers. IBA1 is a marker of microglia and macrophages. (D) High-resolution images of an EDN2-positive microglia (IBA1, upper panel; EDN2, lower panel). (EF) Intravitreal injection of EDN2 peptide causes RGC axon damage. EDN2 peptide (500 μm) or vehicle (PBS) was injected into the vitreous and RGC axon damage assessed 4 weeks later. There was a significant increase in the level of RGC axon damage in EDN2-injected eyes compared with PBS-treated control eyes (n = 5 control, n = 8 EDN2 eyes, P = 0.0074). (G) To assess vascular changes, retinas were visualized by DIC, and the ratio of lumen area (calculated from the lumen diameter, yellow arrows; see Methods) to total vessel area (calculated from vessel diameter, red arrows) was measured. (H) There is a significant decrease in the lumen/vessel ratio in eyes with increasing levels of glaucoma (P < 0.001). Scale bars: AC, 100 μm, D, 10 μm, E, 50 μm.