Your search keyword '"P, Kayatz"' showing total 4 results

1. Ultrastructural localization of light-induced lipid peroxides.

Author

Kayatz P, Thumann G, and Schraermeyer U

Subjects

Animals, Benzidines pharmacology, Choroid metabolism, Electrons, Light, Rats, Rats, Long-Evans, Rod Cell Outer Segment metabolism, Time Factors, Lipid Peroxidation, Lipid Peroxides metabolism, Microscopy, Electron methods

Published

2002

2. [Ultrastructural localization of lipid peroxides in the eye. Presentation of a new method].

Author

Schraermeyer U, Kayatz P, and Heimann K

Subjects

Animals, Benzidines, Cricetinae, Humans, Mesocricetus, Oxidation-Reduction, Reactive Oxygen Species, Retina pathology, Swine, Chromatography, Thin Layer, Lipid Peroxidation physiology, Lipid Peroxides analysis, Microscopy, Electron, Retinal Degeneration pathology

Abstract

Unlabelled: Lipid peroxidation is considered a prominent feature of age-related retinal degeneration. It is known that lipid peroxides can oxidize benzidine. This property was used to localize lipid peroxides ultrastructurally in the retina., Methods: (1) Lipid peroxides were formed by incubation of linoleic acid with lipoxygenase from soybean, separated by thin layer chromatography and incubated with tetramethylbenzidine. (2) Lipid peroxides were formed by incubation of porcine retinae with soybean lipoxygenase in an oxygensaturated atmosphere. For ultrastructural localization, isolated retinae with and without enzymatically synthesized lipid peroxides were fixed with 2% glutaraldehyde, incubated with 0.5 mg/ml tetramethylbenzidine and embedded for electron microscopy. (3) Eye cups from Syrian golden hamsters were treated in the same way except for incubation with lipoxygenase. The hamsters were kept under constant illumination (1000 lux) for 12 h to enhance lipid peroxidation., Results: (1) Tetramethylbenzidine was oxidized by linoleic acid peroxides. (2) In the isolated retinae of pigs lipid peroxides became visible as electron-dense structures in the rod outer segments (ROS) after treatment with lipoxygenase and were lacking in the other parts of the retina. Without treatment with lipoxygenase lipid peroxides were only infrequently seen in ROS. (3) In the eyes of light-exposed hamsters, electron-dense reaction products of lipid peroxides were particularly prominent between the basal infoldings of the RPE and within the apical parts of the ROS., Conclusion: Light or enzymatically induced lipid peroxides can be localized ultrastructurally due to their ability to react with tetramethylbenzidine and osmium in the absence of H2O2 to an electron-dense reaction product. Lipid peroxides seem to be removed from the RPE via Bruch's membrane and blood vessels. Disturbance of this pathway may enhance lipofuscin or drusen formation.

Published

1998

3. Ultrastructural localization of light-induced lipid peroxides in the rat retina

Author

P, Kayatz, K, Heimann, and U, Schraermeyer

Subjects

Male, Lipid Peroxides, Chromogenic Compounds, Light, Benzidines, Animals, Rats, Long-Evans, Lipid Peroxidation, Retina, Photoreceptor Cells, Vertebrate, Rats

Abstract

Localization of light-induced lipid peroxides in the rat retina at an ultrastructural level as benzidine-reactive substances.Long-Evans rats with nondilated pupils were exposed to intense light of 6000 lux for 12 or 24 hours. Control animals were kept under physiological light conditions. Rats with dilated pupils were exposed to a light intensity of 50 lux or 150,000 lux for 1 hour. For ultrastructural localization the enucleated eyes were fixed in a 0.1-M cacodylate buffer (pH 7.4) containing 2% glutaraldehyde for 2 hours. Pieces of the superior part of the central eyecup were incubated overnight with tetramethylbenzidine (TMB; pH 3.0) at 4 degrees C, postfixed with 1.5% OSO4, and embedded for electron microscopy.In animals exposed to intense light, electron-dense structures appeared exclusively throughout the rod outer segments after an irradiation of 6000 lux for 24 hours or 150,000 lux for 1 hour and were absent in animals with nondilated pupils kept at physiological light conditions. Dilation of the pupils leads to the appearance of electron-dense structures after just 1 hour of 50 lux, whereas rats with nondilated pupils withstand even a 12-hour irradiation with 6000 lux. No electron-dense structures were found when no TMB was used in incubation.The appearance of electron-dense structures in the rod outer segments depends on the incubation with TMB and intensive light exposure of the rat. Dilation of the pupils lowers the threshold for the emergence of electron-dense structures significantly. This strongly supports the view that light-induced lipid peroxides in the rat retina are localized at an ultrastructural level as benzidine-reactive substances. This protocol presents a tool for the generation and ultrastructural localization of lipid peroxides in rat retinas.

Published

1999

4. [Ultrastructural localization of lipid peroxides in the eye. Presentation of a new method]

Author

U, Schraermeyer, P, Kayatz, and K, Heimann

Subjects

Lipid Peroxides, Mesocricetus, Swine, Benzidines, Retinal Degeneration, Retina, Microscopy, Electron, Cricetinae, Animals, Humans, Chromatography, Thin Layer, Lipid Peroxidation, Reactive Oxygen Species, Oxidation-Reduction

Abstract

Lipid peroxidation is considered a prominent feature of age-related retinal degeneration. It is known that lipid peroxides can oxidize benzidine. This property was used to localize lipid peroxides ultrastructurally in the retina.(1) Lipid peroxides were formed by incubation of linoleic acid with lipoxygenase from soybean, separated by thin layer chromatography and incubated with tetramethylbenzidine. (2) Lipid peroxides were formed by incubation of porcine retinae with soybean lipoxygenase in an oxygensaturated atmosphere. For ultrastructural localization, isolated retinae with and without enzymatically synthesized lipid peroxides were fixed with 2% glutaraldehyde, incubated with 0.5 mg/ml tetramethylbenzidine and embedded for electron microscopy. (3) Eye cups from Syrian golden hamsters were treated in the same way except for incubation with lipoxygenase. The hamsters were kept under constant illumination (1000 lux) for 12 h to enhance lipid peroxidation.(1) Tetramethylbenzidine was oxidized by linoleic acid peroxides. (2) In the isolated retinae of pigs lipid peroxides became visible as electron-dense structures in the rod outer segments (ROS) after treatment with lipoxygenase and were lacking in the other parts of the retina. Without treatment with lipoxygenase lipid peroxides were only infrequently seen in ROS. (3) In the eyes of light-exposed hamsters, electron-dense reaction products of lipid peroxides were particularly prominent between the basal infoldings of the RPE and within the apical parts of the ROS.Light or enzymatically induced lipid peroxides can be localized ultrastructurally due to their ability to react with tetramethylbenzidine and osmium in the absence of H2O2 to an electron-dense reaction product. Lipid peroxides seem to be removed from the RPE via Bruch's membrane and blood vessels. Disturbance of this pathway may enhance lipofuscin or drusen formation.

Published

1998