Effect Of Aging And Mitochondrial Dysfunction On The Optic Nerve Response To Pressure-induced Oxidative Stress
Funder
National Health and Medical Research Council
Funding Amount
$415,554.00
Summary
The risk of glaucoma, a potentially blinding disease of the optic nerve, increases exponentially with age, but the cellular mechanisms responsible are not known. We hypothesise that age-related changes in mitochondria, the energy producing part of the cell, render nerve cells prone to damage. This project will determine whether aging and mitochondrial impairment increase nerve damage and whether dietary moodifications that preserve mitochondria during aging, protect the optic nerve from damage
Molecular Mechanisms Of Photoreceptor Protection In Rat Models Of Degenerative Retinal Disease
Funder
National Health and Medical Research Council
Funding Amount
$277,480.00
Summary
The photoreceptor cells of the eye (rods and cones) are the cornerstones of vision. Without them the complex and rich sense of vision fades into blindness. In 1 person in 4-5,000 - about 5,000 Australians and 1-2 million people world-wide - these cells degenerate spontaneously. The condition which results is known as retinitis pigmentosa (RP); it causes progesses blindness, most often affecting young adults. Despite recent advances in research, there is still no effective cure. The present work ....The photoreceptor cells of the eye (rods and cones) are the cornerstones of vision. Without them the complex and rich sense of vision fades into blindness. In 1 person in 4-5,000 - about 5,000 Australians and 1-2 million people world-wide - these cells degenerate spontaneously. The condition which results is known as retinitis pigmentosa (RP); it causes progesses blindness, most often affecting young adults. Despite recent advances in research, there is still no effective cure. The present work will explore the environmental factors which determine whether photoreceptors last the lifetime of the individual, or die prematurely. The factors which cause their premature death include genetic mutations but also include environmental factors, including the oxygen status of the retina, the brightness of light experienced and the retina's response to stress. We will investigate the mechanisms by which the retina protects photoreceptors in the face of stress, and how it prepares itself for future insults. Several of these mechanisms have already been identified. The present work will investigate their function at the molecular level, to gain the understanding need to influence their operation. Understanding the response of photoreceptors to these environmental stresses will make it possible to slow the degeneration by manipulating the retinal environment.Read moreRead less