Using DARC to demonstrate neuroprotective effects of glutamate modulation in a glaucoma model
Abstract
PURPOSE. To assess the neuroprotective effects of different glutamate modulation strategies, with a nonselective (MK801) and a selective (ifenprodil) NMDA receptor antagonist and a metabotropic glutamate receptor agonist (mGluR Group II, LY354740), in glaucoma-related in vivo rat models of retinal ganglion cell (RGC) apoptosis.
METHODS. RGC apoptosis was induced in Dark Agouti (DA) rats by staurosporine (SSP) treatment. Single agents MK801, ifenprodil, or LY354740, or MK801 and LY354740 combined, were administrated intravitreally at different doses. Eyes were imaged in vivo using a recently established technique and the results confirmed histologically. The most effective combined therapy regimen of MK801 and LY354740 was then assessed in a chronic ocular hypertension (OHT) rat model with application at 0, 1, and 2 weeks after OHT surgery and the effects assessed as described before.
RESULTS. All strategies of glutamate modulation reduced SSPinduced-RGC apoptosis compared with the control, in a dosedependent manner: MK801 (R2 0.8863), ifenprodil (R2 0.4587), and LY354740 (R2 0.9094), with EC50s of 0.074, 0.0138, and 19 nanomoles, respectively. The most effective combination dose of MK801 and LY354740 was 0.06 and 20 nanomoles (P 0.05), respectively, and the optimal timing of the therapy was 0 weeks after OHT surgery (P 0.05).
CONCLUSIONS. This novel SSP model was validated as a useful tool for screening neuroprotective strategies in vivo. Group II mGluR modulation may be a useful treatment for RGC death. Combination therapy optimized to limit neurotoxic effects of MK801 may be an effective neuroprotective approach in retinal degenerative disease. Furthermore, treatments that minimize secondary RGC degeneration may be most useful in glaucoma. (Invest Ophthalmol Vis Sci. 2006;47:626 – 633) DOI: 10.1167/iovs.05-0754