Radiation treatment inhibits monocyte entry into the optic nerve head and prevents neuronal damage in a mouse model of glaucoma
Gareth R. Howell, Ileana Soto, Xianjun Zhu, Margaret Ryan, Danilo G. Macalinao, Gregory L. Sousa, Lura B. Caddle, Katharine H. MacNicoll, Jessica M. Barbay, Vittorio Porciatti, Michael G. Anderson, Richard S. Smith, Abbot F. Clark, Richard T. Libby, Simon W.M. John
Gareth R. Howell, Ileana Soto, Xianjun Zhu, Margaret Ryan, Danilo G. Macalinao, Gregory L. Sousa, Lura B. Caddle, Katharine H. MacNicoll, Jessica M. Barbay, Vittorio Porciatti, Michael G. Anderson, Richard S. Smith, Abbot F. Clark, Richard T. Libby, Simon W.M. John
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Research Article Neuroscience

Radiation treatment inhibits monocyte entry into the optic nerve head and prevents neuronal damage in a mouse model of glaucoma

Abstract

Glaucoma is a common ocular disorder that is a leading cause of blindness worldwide. It is characterized by the dysfunction and loss of retinal ganglion cells (RGCs). Although many studies have implicated various molecules in glaucoma, no mechanism has been shown to be responsible for the earliest detectable damage to RGCs and their axons in the optic nerve. Here, we show that the leukocyte transendothelial migration pathway is activated in the optic nerve head at the earliest stages of disease in an inherited mouse model of glaucoma. This resulted in proinflammatory monocytes entering the optic nerve prior to detectable neuronal damage. A 1-time x-ray treatment prevented monocyte entry and subsequent glaucomatous damage. A single x-ray treatment of an individual eye in young mice provided that eye with long-term protection from glaucoma but had no effect on the contralateral eye. Localized radiation treatment prevented detectable neuronal damage and dysfunction in treated eyes, despite the continued presence of other glaucomatous stresses and signaling pathways. Injection of endothelin-2, a damaging mediator produced by the monocytes, into irradiated eyes, combined with the other glaucomatous stresses, restored neural damage with a topography characteristic of glaucoma. Together, these data support a model of glaucomatous damage involving monocyte entry into the optic nerve.

Authors

Gareth R. Howell, Ileana Soto, Xianjun Zhu, Margaret Ryan, Danilo G. Macalinao, Gregory L. Sousa, Lura B. Caddle, Katharine H. MacNicoll, Jessica M. Barbay, Vittorio Porciatti, Michael G. Anderson, Richard S. Smith, Abbot F. Clark, Richard T. Libby, Simon W.M. John

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Figure 8

EDN2 increases in glaucoma but not in radiation-treated eyes.

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EDN2 increases in glaucoma but not in radiation-treated eyes. (A) Edn2 e...
(A) Edn2 expression is upregulated in glaucoma but not in radiation-treated eyes. (B) EDN2+IBA1+ cells are readily detected in retinas of untreated DBA/2J eyes but are rare in radiation-treated eyes. Scale bar: 20 μm. (C) Endothelin-2 is a potent vasoconstrictor, and the ratio of vascular lumen to overall vessel diameter was decreased in DBA/2J eyes with moderate and severe optic nerve damage (MOD+SEV) compared with that in eyes with no glaucoma (NOE, P = 0.001). This ratio was not decreased in Rad-D2 eyes compared with that in NOE eyes (P = 0.78, n > 6 in all groups). Rad-D2 eyes had very little EDN2, and vasoconstriction was prevented to the same degree as in eyes treated with an EDN receptor antagonist (Bosentan, ref. 96, P = 0.90). *q ≤ 0.05.