The role of N-methyl-D-aspartate receptor activation in homocysteine-induced death of retinal ganglion cells

Document Type

Article

Publication Date

2011

Abstract

Purpose. Elevated plasma homocysteine has been implicated in glaucoma, a vision disorder characterized by retinal ganglion cell death. The toxic potential of homocysteine to ganglion cells is known, but the mechanisms are not clear. A mechanism of homocysteine-induced death of cerebral neurons is via Nmethyl- D-aspartate (NMDA) receptor overstimulation, leading to excess calcium influx and oxidative stress. This study examined the role of the NMDA receptor in homocysteine-mediated ganglion cell death. Methods. Primary mouse ganglion cells were used for these experiments. NMDA receptor stimulation by homocysteine was determined by patch clamp analysis and fluorescent detection of intracellular calcium. NMDA receptor involvement in homocysteine-mediated cell death was determined through assessment of lactate dehydrogenase release and TUNEL analysis. These experiments used the NMDA receptor blocker MK-801. Induction of reactive species superoxide, nitric oxide, and peroxynitrite was measured by electron paramagnetic resonance spectroscopy, chemiluminescent nitric oxide detection, and immunoblotting for nitrotyrosine, respectively. Results. 50 µM homocysteine stimulated the NMDA receptor in presence of 100 µM glycine. Homocysteine induced 59.67 ± 4.89% ganglion cell death that was reduced to 19.87 ± 3.03% with cotreatment of 250 nM MK-801. Homocysteine elevated intracellular calcium ~7-fold, which was completely prevented by MK-801. Homocysteine treatment increased superoxide and nitric oxide levels by ~40% and ~90%, respectively, after 6 hours. Homocysteine treatment elevated peroxynitrite by ~85% after 9 hours. Conclusions. These experiments provide compelling evidence that homocysteine induces retinal ganglion cell toxicity through direct NMDA receptor stimulation and implicate, for the first time, the induction of oxidative stress as a potent mechanism of homocysteine-mediated ganglion cell death. © 2011 The Association for Research in Vision and Ophthalmology, Inc.

Publication Title

Investigative Ophthalmology and Visual Science

Volume

52

Issue

8

First Page

5515

Last Page

5524

Comments

This article was published in Investigative Ophthalmology and Visual Science, Volume 52, Issue 8, Pages 5515-5524.

The published version is available at http://dx.doi.org/10.1167/iovs.10-6870.

Copyright © 2011 ARVO.

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