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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)
To study the effects of
hyperoxia
on protein synthesis in primary cultures of porcine aortic endothelial cells, we exposed confluent cells to different O2 concentrations for various durations. Exposure to 95% O2 for 5 days resulted in a 71% inhibition of [3H]phenylalanine incorporation into total proteins. When compared with control cells, we observed no changes in 1) the pool size of free cytoplasmic phenylalanine and of phenylalanine attached to transfer RNA (tRNA), 2) the rate of protein degradation, and 3) the rate of charging of tRNA with phenylalanine. We found that under hyperoxic conditions 1) the incorporation of [3H]-
uridine
into total and polyadenylated RNA was increased, 2) the efficiency of extracted messenger RNA to direct protein synthesis in a reticulocyte lysate was maintained, 3) the proportion of polymeric to monomeric ribosomes was slightly increased, and 4) the rate of elongation, as measured by the ribosomal transit time, was decreased. Thus the reduction in protein synthesis in hyperoxic cells appears to result primarily from defects at the translational level in polypeptide chain elongation.
...
PMID:Protein synthesis in hyperoxic endothelial cells: evidence for translational defect. 244 75
The contractile effects of 19 factors on isolated human arterial segments at term pregnancy were quantified, and 14 contractile agents were similarly applied to preterm (23 to 35 weeks) umbilical arteries. Responses to potassium chloride were used to normalize the data. At comparison with the term vessel, the preterm artery contracted more to angiotensin II and arachidonic acid and was more sensitive to oxytocin. Contractions were greater in term arteries to vasopressin, norepinephrine, prostaglandin D2, and prostaglandin E2 but similar in both group of arteries to bradykinin, histamine, acetylcholine, and prostaglandin F2 alpha. Neuropeptide Y, linoleic acid,
uridine
triphosphate, and thrombin were ineffective.
Hyperoxia
inconsistently induced weak, short-lived contractions. Contractions to cooling manifested marked desensitization and tachyphylaxis. Serotonin was the only agonist that displayed the pharmacodynamic features most likely to be important for closure: potency, efficacy, and long duration of action (greater than 2.5 hours). It was postulated that cellular elements surrounding umbilical vessels are primary sources of vasoactive agents that are important to closure of the fetoplacental circulation at birth.
...
PMID:Pharmacodynamic study of maturation and closure of human umbilical arteries. 291 87
Exposure to excessive oxygen in survivors of preterm birth is one of the factors that underlie the adverse neurological outcome in later life. Various pathological changes including enhanced apoptotic activity, oxidative stress and inflammation as well as decreased neuronal survival has been demonstrated in animal models of neonatal
hyperoxia
. The aim of the present study was to investigate the effect of administering
uridine
, an anti-apoptotic agent, on cellular, molecular and behavioral consequences of
hyperoxia
-induced brain damage in a neonatal rat model. For five days from birth, rat pups were either subjected continuously to room air (21% oxygen) or
hyperoxia
(80% oxygen) and received daily intraperitoneal (i.p.) injections of saline (0.9% NaCl) or
uridine
(500mg/kg). Two-thirds of all pups were sacrificed on postnatal day 5 (P5) in order to investigate apoptotic cell death, myelination and number of surviving neurons. One-thirds of pups were raised through P40 in order to evaluate early reflexes, sensorimotor coordination and cognitive functions followed by investigation of neuron count and myelination. We show that
uridine
treatment reduces apoptotic cell death and hypomyelination while increasing the number of surviving neurons in hyperoxic pups on P5. In addition,
uridine
enhances learning and memory performances in periadolescent rats on P40. These data suggest that
uridine
administered during the course of hyperoxic insult enhances cognitive functions at periadolescent period probably by reducing apoptotic cell death and preventing hypomyelination during the neonatal period in a rat model of
hyperoxia
-induced brain injury.
...
PMID:Uridine treatment protects against neonatal brain damage and long-term cognitive deficits caused by hyperoxia. 2891 65
