Purpose: Zinc is an essential part of cellular metabolism, but its role in the retina has not been fully elucidated. We have established that zinc dictation is directly toxic to retinal ganglion cells in vitro, and that this toxicity is mediated through the NMDA receptor. Furthermore, this toxicity appears to involve a perturbation of the mitochondria's ability to buffer cellular calcium levels. Other investigators have demonstrated that the ability of mitochondria to buffer calcium is critical for the cell to resist an excitotoxic challenge. Methods: Dissociated neonatal rat retinal ganglion cells, previously labeled with the mitochondria! sensitive dye rhodamine-2, were incubated with one of several zinc chelators. Sister cultures were also labeled with the calcium sensitive dye calcium green. Results; Zinc chelation caused an approximate doubling in calcium-dependent rhodamine-2 fluorescence over a period of 3-4 minutes. Zinc chelation did, however, cause a decrease in calcium green fluorescence, suggesting a decline in cytosolic calcium. Both changes could be blocked with either rotenone or FCCP. Conclusions: These results indicate that the toxicity seen with zinc chelation is most likely mediated through a perturbation in mitochondria! calcium homeostasis.
|Original language||English (US)|
|Journal||Investigative Ophthalmology and Visual Science|
|State||Published - 1997|
ASJC Scopus subject areas
- Sensory Systems
- Cellular and Molecular Neuroscience