UMLS:C0242706 - FACTA Search

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Query: UMLS:C0242706 (hyperoxia)
5,219 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recent evidence suggests that retinopathy of prematurity, a potentially blinding condition of premature human neonates, has a genetically-determined component. Different inbred strains of rat exhibit differential susceptibility to oxygen-induced retinopathy (OIR), a well-established experimental model of retinopathy of prematurity. To explore the basis for this differential susceptibility, we quantified the retinal expression of 8 angiogenesis-related genes during early post-natal retinal development in rats with OIR. Inbred Fischer 344 (F344), Dark Agouti (DA) and Sprague Dawley (SPD) rat neonates were exposed to alternating cycles of 80% oxygen in air and normoxia for up to 14 days. After 14 days of cyclic hyperoxic exposure, some rats were exposed to normoxia for a further 4 days. Retinal mRNA for vascular endothelial growth factor (VEGF), VEGF receptor 2 (VEGFR2), pigment epithelium-derived factor (PEDF), angiopoietin-2 (Ang2), Tie2, cyclooxygenase-2 (COX2), insulin-like growth factor-1 (IGF1) and erythropoietin (EPO) were quantified by real-time reverse-transcriptase polymerase chain reaction at different time-points. Time-course analysis showed that expression of mRNA for VEGF, VEGFR2 and Ang2 was significantly greater in OIR-resistant (F344) retinae than in OIR-susceptible (DA) retinae during the first 9 days of cyclic hyperoxia. However, at post-natal days 14 and 18, retinal mRNAs for VEGF, EPO, VEGFR2, Ang2, IGF1, COX2 and PEDF were expressed to a significantly greater extent in OIR-susceptible (DA, SPD) than OIR-resistant (F344) retinae. The VEGF/PEDF ratio was greater in the F344 compared with the DA strain up to day 9, but was higher in the DA than the F344 strain at days 14 and 18. Thus, we found that retinal expression of angiogenesis-related genes was significantly higher in OIR-resistant rats than in OIR-susceptible rats during early retinal development, but the pattern reversed during the proliferative phase of OIR. We conclude that susceptibility to OIR correlates with differential gene expression very early in retinal microvascular development, during periods of cyclic hyperoxic exposure rather than during subsequent sustained hypoxia.
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PMID:Kinetics of strain-dependent differential gene expression in oxygen-induced retinopathy in the rat. 1769 14

Ambient oxygen concentration and vascular endothelial growth factor (VEGF)-A are vital in lung development. Since hypoxia stimulates VEGF-A production and hyperoxia reduces it, we hypothesized that VEGF-A down-regulation by exposure of airways to hyperoxia may result in abnormal lung development. An established model of in vitro rat lung development was used to examine the effects of hyperoxia on embryonic lung morphogenesis and VEGF-A expression. Under physiologic conditions, lung explant growth and branching is similar to that seen in vivo. However, in hyperoxia (50% O2) the number of terminal buds and branch length was significantly reduced after 4 d of culture. This effect correlated with a significant increase in cellular apoptosis and decrease in proliferation compared with culture under physiologic conditions. mRNA for Vegf164 and Vegf188 was reduced during hyperoxia and addition of VEGF165, but not VEGF121, to explants grown in 50% O2 resulted in partial reversal of the decrease in lung branching, correlating with a decrease in cell apoptosis. Thus, hyperoxia suppresses VEGF-A expression and inhibits airway growth and branching. The ability of exogenous VEGF165 to partially reverse apoptotic effects suggests this may be a potential approach for the prevention of hyperoxic injury.
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PMID:VEGF attenuates hyperoxic injury through decreased apoptosis in explanted rat embryonic lung. 1804 10

Oxygen fluctuation patterns in preterm infants who develop retinopathy of prematurity (ROP) are varied and poorly represented in animal models. We examined the hypothesis that clustered (CL) episodes of hypoxia during hyperoxia results in a more severe form of oxygen-induced retinopathy (OIR) than dispersed episodes. Rat pups were exposed to alternating cycles of 1) 50% O2 with three CL episodes of 12% O2 every 6 h; or 2) 50% O2 with one episode of 12% O2 every 2 h, for 7 (P7) or 14 (P14) days postnatal age. Pups were killed after hyperoxia, or placed in room air (RA) until P21. RA littermates were killed at P7, P14, and P21. Systemic and ocular vascular endothelial growth factor (VEGF), soluble VEGFR-1 (sVEGFR-1), insulin-like growth factor I (IGF-I), and growth hormone were examined. All hyperoxia-exposed retinas had evidence of neovascularization. Animals in the CL group had a more severe form of OIR at P21 evidenced by vascular tufts, leaky vessels, retinal hemorrhage, and vascular overgrowth. These characteristics were associated with low body weight; high systemic and ocular VEGF; and low systemic and high ocular sVEGFR-1 and IGF-I. These data suggest that preterm infants who experience CL fluctuations in Pao2 during supplemental O2 therapy are at a higher risk for severe ROP.
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PMID:Effects of brief, clustered versus dispersed hypoxic episodes on systemic and ocular growth factors in a rat model of oxygen-induced retinopathy. 1834 3

We reviewed the literature on the use of inhaled nitric oxide and the influence of supplemental oxygen on bronchopulmonary dysplasia (BPD), and the role of endogenous nitric oxide-synthase, vascular endothelial growth factor, the interplay of nitric oxide and superoxide, protein nitration and the nuclear factor kappa B-pathway. BPD is a major cause of neonatal mortality and morbidity leading to arrested lung development in newborns. Several studies indicate that inhaled nitric oxide (iNO) improves pulmonary angiogenesis, lung alveolarization, distal lung growth and pulmonary function in preterm infants. Given the inconclusive results of clinical studies, however, it is unclear which subpopulations of infants might benefit. Moreover, data on iNO are conflicting whether exogenous nitric oxide is protective or damaging in the presence of hyperoxia. The toxicology of iNO is poorly understood and its potential interaction with oxygen has to be considered given that infants treated with iNO are also supplemented with oxygen. The underlying mechanisms of the effects of iNO in the newborn lung need further analysis. New data clarifying the role of endogenous nitric oxide-synthases, vascular endothelial growth factor (VEGF), the interplay of nitric oxide and superoxide, and protein nitration with concurrent iNO-therapy might answer some of these questions.
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PMID:Bronchopulmonary dysplasia and early prophylactic inhaled nitric oxide in preterm infants: current concepts and future research strategies in animal models. 1860 70

Infant respiratory distress syndrome (IRDS) can lead to impaired alveolarization and dysmorphic vascularization of bronchopulmonary dysplasia. Clara cell secretory protein (CC10) has anti-inflammatory properties but is deficient in the premature infant. Because surfactant and vascular endothelial growth factor (VEGF) profiles are impaired by inflammation and CC10 inhibits lung inflammation, we hypothesized that CC10 may up-regulate surfactant protein (SP) and VEGF expression. Preterm lambs ( N = 24; 126 +/- 3 days [standard error] gestation) with IRDS were randomized to receive 100 mg/kg surfactant, 100 mg/kg surfactant followed by intratracheal 0.5, 1.5, or 5 mg/kg rhCC10 and studied for 4 hours. Gas exchange and lung mechanics were monitored; surfactant protein and VEGF mRNA profiles in lung were assessed. There was a significant rhCC10 dose-dependent increase in respiratory compliance and ventilation efficiency index; both parameters were significantly greater in animals treated with 5 mg/kg rhCC10 than those treated with surfactant alone. Similarly, there was a significant rhCC10 dose and protein-dependent increase in surfactant protein (SP-B > SP-C > SP-A) and dose- and isoform-dependent increase in VEGF (VEGF189 > VEGF165 > VEGF121). These data demonstrate that early intervention with rhCC10 up-regulates surfactant protein and VEGF expression, supporting the role of CC10 to protect against hyperoxia and mechanical ventilation in the immature lung.
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PMID:Recombinant human Clara cell secretory protein treatment increases lung mRNA expression of surfactant proteins and vascular endothelial growth factor in a premature lamb model of respiratory distress syndrome. 1884 30

Retinopathy of prematurity (ROP) is a vascular disease of the eye unique to preterm infants. The distinctive feature of ROP is that is an illness of the still-maturing organism. Thus, an understanding of the normal fetal development of the retina is fundamental to understanding the pathogenesis of ROP. Animal models of ROP differ in important attributes, a fact that is important for interpretation of results. However, all models have in common the finding that ROP is a biphasic disease. In the first phase, relative hyperoxia results in vaso-obliteration and vessel loss. The second phase is characterized by hypoxia-induced neovascularization resulting in retinal detachment and blindness. Oxygen-dependent vascular endothelial growth factor (VEGF) and oxygen-independent insulin-like growth factor (IGF-1) have been identified as important factors in the pathogenesis of ROP. These findings suggest new therapeutic approaches. Substitution of IGF-1 during the first phase of the disease may help prevent vessel loss, and administration of anti-angiogenic substances during the second phase may prevent pathological neovascularization.
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PMID:[Pathogenesis of retinopathy of prematurity]. 1904 59

The history of retinopathy of prematurity (ROP) gives a prime example of how dangerous the uncontrolled introduction of a new medical treatment--particularly in the field of neonatology--may be. The most important risk factors for the development of ROP are the immaturity of premature infants as well as uncontrolled and/or inadequate treatment with oxygen. In comparison to the fetus, the premature infant is exposed to a nonphysiologically high oxygen concentration. This hyperoxia leads to formation of aggressive oxygen radicals on the one hand and, on the other hand, to temporarily reduced production of growth factors such as vascular endothelial growth factor and erythropoietin, which both play an important role in the pathogenesis of ROP. The most important measure to prevent ROP is restrictive and carefully monitored oxygen treatment. Medical treatment to prevent ROP includes injection of D-penicillamine and retinol, but the available data are still limited, particularly with regard to the long-term effects of this treatment. A higher oxygenation in prethreshold ROP does not lead to recovery of ocular findings, but it increases the incidence of pulmonary complications. A reduction of light intensity in neonatal intensive care units proved not to be efficient for preventing ROP. To avoid blindness, standardized screening of the risk group is needed.
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PMID:[Risk factors and prevention of retinopathy of prematurity]. 1906 7

Alterations in vascular endothelial growth factor (VEGF) contribute to alveolar simplification seen in animal models of bronchopulmonary dysplasia, and VEGF expression is redox regulated by thioredoxin (Trx)-1 in other diseases. The present studies tested the hypothesis that exposure to 85% O2 negatively impacts the Trx1 system and VEGF expression in the lungs of newborn mice. There was no effect of fraction of inspired oxygen on lung Trx1 or Trx reductase-1 protein levels; however, lung Trx1 protein was predominantly oxidized in the lungs of newborn mice exposed to 85% O2 by 24 hours of exposure. In room air (RA), lung Trx interacting protein (Txnip) levels decreased developmentally through Day 7 (1.0 +/- 0.06 [Day 1] vs. 0.49 +/- 0.10 [Day 3] vs. 0.29 +/- 0.03 [Day 7]; P < 0.01), whereas VEGF expression increased (1.25 +/- 0.16 [Day 1] vs. 4.35 +/- 1.51 [Day 3] vs. 13.23 +/- 0.37 [Day 7]; P < 0.01). Newborn mice exposed to 85% O2 had no developmental decrease in Txnip protein levels and a delayed increase in VEGF protein levels. Lung Txnip and VEGF protein levels were different than in corresponding RA controls at Day 3, before the detection of lung morphologic abnormalities in our model. Txnip and VEGF protein levels were inversely correlated in both the RA and hyperoxia-exposed groups (n = 18; R = -0.66; P = 0.003). In conclusion, oxidation of Trx1 and sustained Txnip expression in the lungs of newborn mice exposed to 85% oxygen is likely to severely attenuate normal Trx1 function. The inverse correlation of Txnip with VEGF expression suggests that decreased Trx1 function contributes to the observed lung developmental abnormalities.
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PMID:Alterations of the thioredoxin system by hyperoxia: implications for alveolar development. 1924 2

Microvascular development is often perceived to result from a balance of positive and negative factors that impact signaling for proliferation and survival. The survival signaling that results from hypoxia-induced VEGF-A has been well established, but the factors that antagonize this signaling have been poorly studied. As endogenous inhibitors of angiogenesis, thrombospondins (TSPs) are likely candidates to affect survival signaling. Here we report that TSP1 antagonized microvascular survival to retinal hyperoxia, and Akt signaling in both the retina and in cultured endothelial cells. TSP1 expression is correlated with the association of the CD36 receptor with Src versus Fyn. In the presence of TSP1, CD36 is coprecipitated with Fyn as previously shown by others. However, in the absence of TSP1, there is a preferential association with Src. We now demonstrate that these Src family kinases play an important role in modulating microvascular survival in response to TSP1 by crossing tsp1(-/-) mice to the src(-/-) and fyn(-/-) mice and testing the survival of retinal blood vessels in hyperoxia. We find that tsp1(-/-), fyn(-/-), and double-mutant tsp1(-/-)/fyn(-/-) mice have a similar enhancement of capillary survival in oxygen, whereas in a tsp(-/-) background, the loss of only one allele of src restores the balance in survival and apoptosis to that of wild-type mice. Taken together, we hypothesize that TSP1 antagonizes VEGF-driven Akt survival signaling in part through the recruitment of Fyn to membrane domains containing CD36, but when TSP1 is absent, an opposing Src recruitment contributes to VEGF-driven Akt phosphorylation and capillary survival.
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PMID:Thrombospondin-1 modulates VEGF-A-mediated Akt signaling and capillary survival in the developing retina. 1930 44

Exposure of preterm infants to hyperoxia impairs vascular growth, contributing to the development of bronchopulmonary dysplasia and retinopathy of prematurity. Disruption of vascular endothelial growth factor (VEGF)-nitric oxide (NO) signaling impairs vascular growth. Endothelial progenitor cells (EPCs) may play an important role in vascular growth. Endothelial colony-forming cells (ECFCs), a type of EPC, from human preterm cord blood are more susceptible to hyperoxia-induced growth impairment than term ECFCs. Therefore, we hypothesized that hyperoxia disrupts VEGF-NO signaling and impairs growth in preterm ECFCs and that exogenous VEGF or NO preserves growth in hyperoxia. Growth kinetics of preterm cord blood-derived ECFCs (gestational ages, 27-34 wk) were assessed in room air (RA) and hyperoxia (40-50% oxygen) with or without VEGF, NO, or N(omega)-nitro-l-arginine. VEGF, VEGF receptor-2 (VEGFR-2), and endothelial NO synthase (eNOS) protein expression and NO production were compared. Compared with RA controls, hyperoxia significantly decreased growth, VEGFR-2 and eNOS expression, and NO production. VEGF treatment restored growth in hyperoxia to values measured in RA controls and significantly increased eNOS expression in hyperoxia. NO treatment also increased growth in hyperoxia. N(omega)-nitro-l-arginine treatment inhibited VEGF-augmented growth in RA and hyperoxia. We conclude that hyperoxia decreases growth and disrupts VEGF-NO signaling in human preterm ECFCs. VEGF treatment restores growth in hyperoxia by increasing NO production. NO treatment also increases growth during hyperoxia. Exogenous VEGF or NO may protect preterm ECFCs from the adverse effects of hyperoxia and preservation of ECFC function may improve outcomes of preterm infants.
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PMID:Hyperoxia disrupts vascular endothelial growth factor-nitric oxide signaling and decreases growth of endothelial colony-forming cells from preterm infants. 1973 18

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