Maria Cecilia Rey Moreno scite author profile

Glaucoma is a leading cause of blindness. Although ocular hypertension is the most important risk factor, several concomitant factors such as elevation of glutamate and decrease in gamma-aminobutyric acid (GABA) levels, disorganized NO metabolism, and oxidative damage could significantly contribute to the neurodegeneration. The aim of this report was to analyze the effect of melatonin on retinal glutamate clearance, GABA concentrations, NO synthesis, and retinal redox status, as well as on functional and histological alterations provoked by chronic ocular hypertension induced by intracameral injections of hyaluronic acid (HA) in the rat eye. In normal retinas, melatonin increased glutamate uptake, glutamine synthase activity, GABA turnover rate, glutamic acid decarboxylase activity, superoxide dismutase activity, and reduced glutathione (GSH) levels, whereas it decreased NOS activity, L-arginine uptake, and lipid peroxidation. To assess the effect of melatonin on glaucomatous neuropathy, weekly injections of HA were performed in the eye anterior chamber. A pellet of melatonin was implanted subcutaneously 24 hr before the first injection or after six weekly injections of HA. Melatonin, which did not affect intraocular pressure (IOP), prevented and reversed the effect of ocular hypertension on retinal function (assessed by electroretinography) and diminished the vulnerability of retinal ganglion cells to the deleterious effects of ocular hypertension. These results indicate that melatonin could be a promissory resource in the management of glaucoma.

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Effect of glaucoma on the retinal glutamate/glutamine cycle activity

Moreno

Sande

Marcos

et al. 2005

FASEB j.

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Glutamate-induced excitotoxicity has been proposed to mediate the death of retinal ganglion cells in glaucoma. The metabolic dependence of glutamatergic neurons upon glia via the glutamate/glutamine cycle to provide the precursor for neurotransmitter glutamate is well established. Thus, the aim of the present work was to study the retinal glutamate/glutamine activity in eyes with hypertension induced by intracameral injections of hyaluronic acid (HA). For this purpose, weekly injections of HA were performed unilaterally in the rat anterior chamber, whereas the contralateral eye was injected with saline solution. At 3 or 10 weeks of treatment, glutamate and glutamine uptake and release were assessed using [3H]-glutamate and [3H]-glutamine as radioligands, respectively. In addition, glutamine synthetase activity was assessed by a spectrophotometric assay, whereas glutaminase activity was measured through the conversion of [3H]-glutamine to [3H]-glutamate. At 3 weeks of treatment with HA, a significant decrease (P<0.01) in glutamate uptake and glutamine synthetase activity was observed. Glutamine uptake and release, as well as glutaminase activity, were significantly increased (P<0.01) in eyes injected with HA for 3 weeks compared with vehicle-injected eyes, whereas [3H]-glutamate release did not change in hypertensive eyes. Only the changes in glutamine synthetase activity persisted at 10 weeks of treatment with HA. These results indicate a significant alteration in the retinal glutamate/glutamine cycle activity in hypertensive eyes. Since these changes preceded both functional and histological alterations induced by ocular hypertension, these results support the involvement of glutamate in glaucomatous neuropathy.

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Maria Cecilia Rey Moreno

Retinal Oxidative Stress Induced by High Intraocular Pressure

A new experimental model of glaucoma in rats through intracameral injections of hyaluronic acid

Melatonin: a novel neuroprotectant for the treatment of glaucoma

Effect of glaucoma on the retinal glutamate/glutamine cycle activity

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