Physiological and microfluorometric studies of reduction and clearance of retinal in bleached rod photoreceptors.

The visual cycle comprises a sequence of reactions that regenerate the visual pigment in photoreceptors during dark adaptation, starting with the reduction of all-trans retinal to all-trans retinol and its clearance from photoreceptors. We have followed the reduction of retinal and clearance of retinol within bleached outer segments of red rods isolated from salamander retina by measuring its intrinsic fluorescence. Following exposure to a bright light (bleach), increasing fluorescence intensity was observed to propagate along the outer segments in a direction from the proximal region adjacent to the inner segment toward the distal tip.

Mitochondrial localization of glucocortocoid receptor in glial (Müller) cells in the salamander retina.

Glucocorticoid hormones regulate the transcription of nuclear genes by way of their receptors. In addition, these hormones modulate mitochondrial gene transcription by mechanisms that remain poorly understood. Using immunofluorescence labeling in isolated Müller and photoreceptor cells and in intact salamander retina, we found that the glucocorticoid receptor (GR) is localized in both cell types.

Metabolic signaling between neurons and glial cells: a short review.

There is convincing evidence that astrocytes transform blood-born glucose to lactate, alpha-Keto-glutarate and alanine and supply the neurons. There is a tight regulation of this metabolic coupling by means of chemical signals released by functioning neurons. Previous, pioneer, studies have explored several signals-candidates the major being K(+), Ca(++) and several neuromodulators.

Mechanisms of glutamate metabolic signaling in retinal glial (Müller) cells.

Retinal Müller (glial) cells metabolize glucose to lactate, which is preferentially taken up by photoreceptor neurons as fuel for their oxidative metabolism. We explored whether lactate supply to neurons is a glial function controlled by neuronal signals. For this, we used subcellular fluorescence imaging and either amperometric or optical biosensors to monitor metabolic responses simultaneously from mitochondrial and cytosolic compartments of individual Müller cells from salamander retina.

Effect of nitroprusside on arteriolar constriction after retinal branch vein occlusion.

Purpose: The development of extended areas of nonperfused capillaries after branch vein occlusion (BVO) is correlated to the secondary constriction of the arteriole crossing the occluded area. The decrease in nitric oxide (NO) in tissue that occurs early after BVO accounts for the secondary arteriolar constriction. The present study shows that the administration of an NO donor can reverse the secondary arteriolar vasoconstriction observed after BVO.