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Target Concepts:
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Query: UMLS:C0242706 (
hyperoxia
)
5,219
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have applied the technique of electron paramagnetic resonance (EPR) protein-specific spin labeling to the study of membrane protein alterations occurring during age and exposure to isobaric
hyperoxia
. Cortical synaptosomes and erythrocyte membranes (ghosts) were isolated from young rodents (Fisher 344 rats or mongolian gerbils, 3-4 months of age) and aged rodents (age 22-27 months for rats, greater than 15 months for gerbils). Membrane proteins were spin labeled with the thiol-specific spin label
MAL
-6 (2,2,6,6,-tetramehtyl-4-maleimido-piperdin-1-oxyl). The relevant EPR spectral parameter of
MAL
-6 labeled membranes, the W/S ratio, decreased significantly with age of animal in both synaptosomes and ghosts (P < 0.001). As a paradigm for accelerated oxidative stress, young and aged gerbils were exposed to an atmosphere of 90-100% O2 for 0-48 h. In both young and aged gerbils, the W/S ratio decreased significantly with hyperoxic stress (P < 0.003). The W/S ratio of synaptosomes isolated from aged gerbils decreased continually from 0-48 h
hyperoxia
, whereas the W/S ratio of synaptosomes from young animals demonstrated a pronounced rebound effect from 24-48 h. The results are discussed with reference to membrane protein oxidation in aging.
...
PMID:Membrane protein alterations in rodent erythrocytes and synaptosomes due to aging and hyperoxia. 772 44
Hyperoxia
has been considered a model of free radical reactive oxygen species production in aging and age-related disorders. Previously, we studied the membrane protein alterations that occur during
hyperoxia
; we found that exposure of young animals to 24 h of
hyperoxia
provided the greatest degree of oxidation of cortical synaptosomal membrane proteins. We reasoned that free radical oxidation was involved in this protein oxidation. In accordance, in the current study we investigated the protective nature of two known free radical scavengers, N-tert-butyl-alpha-phenylnitrone (PBN) and 4-hydroxy-2,2,6,6-tetramethylpiperidin-1-oxyl (Tempol), against 24-h
hyperoxia
damage. The three techniques used in this study were electron paramagnetic resonance (EPR) protein-specific spin labeling, assay of the activity of the oxidatively sensitive enzyme glutamine synthetase (GS), and measurement of protein carbonyl content. Before
hyperoxia
, gerbils received intraperitoneal injections of varying concentrations of either of the two free radical scavengers. After 30 min, the gerbils were exposed to 90-100% O2 for 24 h. For the spin labeling experiments, cortical synaptosomes were isolated from gerbils. The membrane proteins were spin labeled with the thiol-specific label
MAL
-6 (2,2,6,6-tetramethyl-4-maleimidopiperidin-1-oxyl). As in our earlier study, the EPR spectral parameter of
MAL
-6-labeled membranes, the W/S ratio, decreased with
hyperoxia
(p < 0.00001). This effect was lessened significantly with administration of PBN (p < 0.0003) or Tempol (p < 0.00003). For the GS and protein carbonyl assays, cortical proteins were used. The activity of the GS decreased with
hyperoxia
(p < 0.000005), and this effect likewise was lessened with administration of PBN (p < 0.004) or Tempol (p < 0.002). The protein carbonyl content increased with
hyperoxia
(p < 0.0002), and there was a protective effect found with Tempol (p < 0.000001). The optimum doses for PBN and Tempol were 20 and 5 mg/kg, respectively. The results are discussed with reference to the use of free radical scavengers as potential antiaging agents.
...
PMID:Prevention of hyperoxia-induced alterations in synaptosomal membrane-associated proteins by N-tert-butyl-alpha-phenylnitrone and 4-hydroxy-2,2,6,6-tetramethylpiperidin-1-oxyl (Tempol). 886 12
