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)

Retinopathy of prematurity is a disease commonly affecting extremely premature babies. Indomethacin is widely used in the perinatal period. The goal of the present study was to test the hypothesis that indomethacin will improve retinopathy in a mouse model when administered during the period of injury (hyperoxia exposure) to the developing retinal vasculature. C57BL6 mice pups were exposed to 75% oxygen from postnatal d 7 through 12. Indomethacin was administered along with the oxygen exposure as a single subcutaneous dose of 0.5 mg/kg/d for 5 d. Animals were killed on postnatal d 17 through 20. The severity of retinopathy was assessed by a retinopathy scoring system of fluorescein-conjugated dextran-perfused retinal flat mounts and by quantitation of extraretinal nuclei by use of periodic acid-Schiff-stained retinal sections. Animals that received indomethacin during hyperoxia exposure had a significantly lower median (25th, 75th quartile) retinopathy score 5 (4.5, 6) compared with animals that received oxygen [8 (7.5, 10)]. Animals given indomethacin during hyperoxia exposure had a significantly lower extraretinal nuclei count per section (13.3 +/- 4.6) (mean +/- SD) compared with animals that were oxygen exposed (41.9 +/- 14.7). Indomethacin did not affect the normal development of the retinal vasculature or the growth of the animals. The data show that indomethacin improves oxygen-induced retinopathy when administered concurrently with the injury phase without affecting the normal retinal development or growth of the animals.
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PMID:Indomethacin improves oxygen-induced retinopathy in the mouse. 1044 13

Previous studies have shown that newborn rats exposed postnatally to hyperoxia will develop a permanent impairment of the retinal function as determined with the electroretinogram (ERG). The purpose of our study was to examine whether postnatal hyperoxia equally alters the light- and dark-adapted ERGs and oscillatory potentials (OPs) as well as leads to permanent structural modification of the retina. During the first 14 days of life, cohorts of Sprague-Dawley rats were exposed to a hyperoxic environment, and ERGs were recorded at mean ages of approximately 25 and 55 days. Our results indicate that both light- and dark-adapted ERGs and OPs are already significantly altered within a few days following exposure to hyperoxia. None of the ERG and (or) OP parameters, with the exception of the a-wave, returned to normal values by 55 days of age. In fact some dark-adapted OPs were completely abolished following postnatal O2 exposure. Histological analysis revealed that the retina of rats exposed to hyperoxia failed to develop an outer plexiform layer and had a reduced count of horizontal cells, consistent with the permanent postreceptoral anomalies seen in the ERG responses. Our results suggest that postnatal hyperoxia causes a generalized retinal disorder leading to permanent structural modifications of the retinal cytoarchitecture and lasting anomalies of the rod and cone functions.
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PMID:Persistent functional and structural retinal anomalies in newborn rats exposed to hyperoxia. 1053 66

TNF-alpha has been found in the retina. Hyperoxia and hypoxia regulate TNF-alpha expression. TNF-alpha is an important factor in inflammation and angiogenesis. Dexamethasone inhibits TNF-alpha production. Changes in TNF-alpha expression in the retina may play an important role in the development of oxygen-induced retinopathy. Oxygen-induced retinopathy was produced in C57BL6 mice by exposure to 75% oxygen at Postnatal Day 7 (P7) for 5 days and the mice recovered in room air until Day 17 (P17). Dexamethasone was administered at 0.5 mg/kg/day once daily subcutaneously during the 5 days of oxygen exposure. TNF-alpha expression was evaluated at Day 7 prior to oxygen exposure, at Day 12 (P12) immediately upon removal from oxygen, and at Day 17, the time of maximal vasoproliferation by RT-PCR. TNF-alpha is developmentally regulated in the retinae of C57BL6 mice. From P7 to P12, there is a 3-fold increase in TNF-alpha expression and from P7 to P17 there is a 2.7-fold increase. There was 2.7-fold suppression in expression immediately following oxygen exposure at P12. The expression was dramatically increased at P17, the time of maximal vasoproliferation. Dexamethasone inhibited the expression of TNF-alpha at P17 by 6.4-fold. At this dose, it also suppressed the baseline TNF-alpha expression in the mouse model. In summary, TNF-alpha is altered in the development of oxygen-induced retinopathy in the mouse. It increased markedly during the vasoproliferative phase and was suppressed by dexamethasone. Modulation of TNF-alpha expression may provide a potential site of action for future therapeutic targets.
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PMID:Dexamethasone alters TNF-alpha expression in retinopathy. 1116 42

Microvascular degeneration is an important event in oxygen-induced retinopathy (OIR), a model of retinopathy of prematurity. Because oxidant stress abundantly generates thromboxane A2 (TxA2), we tested whether TxA2 plays a role in retinal vasoobliteration of OIR and contributes to such vascular degeneration by direct endothelial cytotoxicity. Hyperoxia-induced retinal vasoobliteration in rat pups (80% O2 exposure from postnatal days 5-14) was associated with increased TxB2 generation and was significantly prevented by TxA2 synthase inhibitor CGS-12970 (10 mg x kg(-1) x day(-1)) or TxA2-receptor antagonist CGS-22652 (10 mg x kg(-1) x day(-1)). TxA2 mimetics U-46619 (EC50 50 nM) and I-BOP (EC50 5 nM) caused a time- and concentration-dependent cell death of neuroretinovascular endothelial cells from rats as well as newborn pigs but not of smooth muscle and astroglial cells; other prostanoids did not cause cell death. The peroxidation product 8-iso-PGF2, which is generated in OIR, stimulated TxA2 formation by endothelial cells and triggered cell death; these effects were markedly diminished by CGS-12970. TxA2-dependent neuroretinovascular endothelial cell death was mostly by necrosis and to a lesser extent by apoptosis. The data identify an important role for TxA2 in vasoobliteration of OIR and unveil a so far unknown function for TxA2 in directly triggering neuroretinal microvascular endothelial cell death. These effects of TxA2 might participate in other ischemic neurovascular injuries.
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PMID:Role of thromboxane in retinal microvascular degeneration in oxygen-induced retinopathy. 1135 93

The requirement for the nonreceptor tyrosine kinase c-abl in the pathogenesis of retinopathy of prematurity (ROP) was examined using the mouse model for ROP and c-abl-deficient mice. Hyperoxia-induced retinal neovascularization was observed in wild-type and heterozygous mice but animals that were homozygous null for c-abl did not develop a vasoproliferative retinopathy in response to hyperoxia. Two gene products, endothelin-1 (ET-1) and vascular endothelial growth factor (VEGF), have been implicated in the pathogenesis of ROP. The mRNA expression of ET-1 and VEGF was assessed in mice maintained in normoxia and in hyperoxia-exposed mice. ET-1 mRNA levels were unchanged in wild-type mice throughout the hyperoxia treatment, suggesting that ET-1 mRNA expression is not regulated by the increase in inspired oxygen. In wild-type mice maintained in room air, VEGF mRNA levels rose threefold from postnatal day 6 (P6) to P17. When wild-type mice were treated with the hyperoxia regimen, a fivefold decrease in VEGF mRNA expression was observed from P7 to P16. However, retinal VEGF expression in hyperoxia-treated homozygous null mice did not decrease and remained at control levels. These data suggest that c-abl is required for the hyperoxia-induced retinal neovascularization and hyperoxia-induced decrease in VEGF mRNA levels.
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PMID:c-abl is required for the development of hyperoxia-induced retinopathy. 1141 93

Although relatively rare, retinopathy based on a disturbed metabolism of the retinal pigment epithelium (RPE), with ensuing degeneration of photoreceptors, is a known complication of treatment with the 4-aminoquinolones, chloroquine (CQ) and hydroxychloroquine (HCQ), in autoimmune diseases. The reported frequency of retinopathy, however, is much lower for HCQ than for CQ (less than 0.08% versus 1-2%). To test whether the difference in toxicity between the two lysosomotropic drugs is related to different lysosomal influence, we exposed confluent RPE cell cultures to CQ or HCQ for 2 weeks. To induce lipofuscin (LF) formation, known to be accelerated by increased lysosomal pH and intra-lysosomal oxidation during degradation of auto-/heterophagocytosed material, such treatment was combined with feeding of cells with photoreceptor outer segments (POS) and hyperoxia (40% ambient oxygen). HCQ was found to be a less potent enhancer of lipofuscinogenesis compared to CQ, apparently due to its less effective inhibition of lysosomal degradative capacity (evaluated by vital staining of lysosomes with Lyso Tracker Red, and periodic acid-Schiff reaction). This conclusion is supported by the fact that NH4Cl, a non-fluorescent substance which acts similarly to 4-aminoquinolones, induced an increase in LF fluorescence paralleled by increased periodic acid-Schiff reactivity of RPE cells.
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PMID:Different effects of chloroquine and hydroxychloroquine on lysosomal function in cultured retinal pigment epithelial cells. 1219 9

Hyperoxia exposure induces capillary endothelial cell apoptosis in the developing retina, leading to vaso-obliteration followed by proliferative retinopathy. Previous in vivo studies have shown that endothelial nitric oxide synthase (NOS3) and peroxynitrite are important mediators of the vaso-obliteration. Now we have investigated the relationship between hyperoxia, NOS3, peroxynitrite, and endothelial cell apoptosis by in vitro experiments using bovine retinal endothelial cells (BREC). We found that BREC exposed to 40% oxygen (hyperoxia) for 48 h underwent apoptosis associated with activation of caspase-3 and cleavage of the caspase substrate poly(ADP-ribose) polymerase. Hyperoxia-induced apoptosis was associated with increased formation of nitric oxide, peroxynitrite, and superoxide anion and was blocked by treatment with uric acid, nitro-L-arginine methyl ester, or superoxide dismutase. Analyses of the phosphatidylinositol 3-kinase/Akt kinase survival pathway in cells directly treated with peroxynitrite revealed inhibition of VEGF- and basic FGF-induced activation of Akt kinase. These results suggest that hyperoxia-induced formation of peroxynitrite induces BREC apoptosis by crippling key survival pathways and that blocking peroxynitrite formation prevents apoptosis. These data may have important clinical implications for infants at risk of retinopathy of prematurity.
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PMID:Hyperoxia induces retinal vascular endothelial cell apoptosis through formation of peroxynitrite. 1273 39

Ischemia is a major stimulus for angiogenesis, a biological response mechanism that describes the formation of new blood vessels from existing vessels. An ischemic cell communicates with endothelial cells by soluble factors such as VEGF (vascular endothelial growth factor) and its receptors. A major transcriptional factor for VEGF is HIF-1 (hypoxia inducible factor). Proliferation of endothelial cells alone does not result in stable vascular tubes, this is only achieved by recruiting additional cells such as pericytes. The stabilisation and destabilisation of vessels, which are important prerequisites for vascular growth, are in a dynamic equilibrium which can be modified by additional growth factors such as angiopoietins. In this review we discuss some of the molecular mechanisms leading from ischemia to proliferative retinopathy with a special focus on retinopathy of prematurity and the closely related mouse model of hyperoxia-induced retinopathy. This model is very useful when developing new antiangiogenic therapies based on the increasing understanding of the molecular pathogenesis of ischemic proliferative retinopathy.
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PMID:[Angioproliferative retinal disease caused by ischemia]. 1274 2

Thrombospondin-1 (TSP1) is a natural inhibitor of angiogenesis. Its expression is most prominent during the late stages of vascular development and in the adult vasculature. Our previous studies have shown that TSP1 expression promotes a quiescent, differentiated phenotype of vascular endothelial cells. However, the physiological role TSP1 plays during vascular development and neovascularization requires further delineation. Here, we investigated the role of TSP1 during development of retinal vasculature and retinal neovascularization during oxygen-induced ischemic retinopathy. The retinal vascular density was increased in TSP1-deficient (TSP1-/-) mice compared with wild-type mice. This finding was mainly attributed to increased number of retinal endothelial cells in TSP1-/- mice. During oxygen-induced ischemic retinopathy, the developing retinal vasculature of TSP1-/- mice was less sensitive to vessel obliteration induced by hyperoxia but exhibited a similar level of neovascularization induced by normoxia compared with wild-type mice. This finding is consistent with the similar pattern of VEGF expression detected in wild-type and TSP1-/- mice. Furthermore, the increased expression of TSP1 during development of retinal vasculature was not affected by oxygen-induced ischemic retinopathy. In addition, the regression of ocular embryonic (hyaloid) vessels, as well as the newly formed retinal vessels during oxygen-induced ischemic retinopathy, was delayed in TSP1-/- mice. Therefore, TSP1 is a modulator of vascular homeostasis and its expression is essential for appropriate remodeling and maturation of retinal vasculature.
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PMID:Thrombospondin-1-deficient mice exhibit increased vascular density during retinal vascular development and are less sensitive to hyperoxia-mediated vessel obliteration. 1464 40

Quantitative polymerase chain reaction (QPCR) was used to examine changes in FosB mRNA expression in models of oxygen and light stress to the retina. C57BL/6 mice or Sprague-Dawley (SD) albino rats were subjected to several experimental paradigms: short-term light or oxygen stress, extended hyperoxia (75% oxygen), or a model of oxygen-induced retinopathy (OIR). Control animals were subjected to room air and 5 lux cyclic light. FosB expression dramatically increases in response to light stress as well as in a model of OIR, but not in response to sustained 75% oxygen. These data suggest that both hypoxia and light stress induce expression of FosB in the retina.
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PMID:Quantitative PCR analysis of FosB mRNA expression after short duration oxygen and light stress. 1518 Feb 71

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