Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0242706 (
hyperoxia
)
5,219
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Lungs accumulate
5-hydroxytryptamine
(serotonin, 5-HT) from the perfusate by a sodium-dependent, energy-requiring, saturable process. The rate-limiting step for uptake is the transport of 5-HT and not its subsequent metabolism to 5-hydroxyindoleacetic acid. Autoradiographic studies indicate that the pulmonary endothelium is the cellular site of uptake. The effect of
hyperoxia
on lung clearance of 5-HT was studied with isolated perfused and ventilated lungs from rats that were previously exposed to
hyperoxia
. Lungs were perfused with recirculating electrolyte solution and initial [5-HT] of 0.24 microM. The calculated fractional 5-HT clearance (fracion of 5-HT removed in a single pass) ws 0.77 +/- 0.02 (mean +/- SE: n = 44) for control rats. Mean fractional clearance decreased by 20% in rats exposed to 1 atm O2 for 18 hr and 30% after 4 atmospheres absolute (ata) O2 for 1 hr (p < 0.05). The effects of O2 at 4 ata were in part reversed by exposure to air for 3.5 hr and in part prevented by injection of superoxide dismutase (60 nmole/kg body weight). This degree of O2 exposure at either 1 or 4 ata had no effect on lung content of adenine nucleotides or the distribution of 3H-5HT on autoradiography. Rats maintained for 6 weeks on a vitamin E-deficient diet showed an increased effect of
hyperoxia
on 5-HT clearance and did not show reversal of changes after 24 hr of air breathing. The results indicate that exposure to elevatd po2 results in reversible depression of pulmonary 5-HT clearance that is potentiated by vitamin E deficiency. This suggests alteration of pulmonary endothelial membrane transport properties due to O2 toxicity.
...
PMID:Environmental influences on uptake of serotonin and other amines. 740 97
There has been suggestion of a possible relationship between the intake of the appetite suppressant dexfenfluramine and the development of primary pulmonary hypertension. We investigated the pulmonary vascular effects of acute intravenous dexfenfluramine in pentobarbital-anesthetized dogs ventilated in
hyperoxia
(fraction of inspired oxygen, FIO2, 0.4) and either challenged with a FIO2 of 0.1 to induce hypoxic pulmonary hypertension (n = 20) or given autologous blood clots to induce embolic pulmonary hypertension (n = 6). Pulmonary vascular tone was evaluated by multipoint (mean pulmonary artery pressure [Ppa] - pulmonary artery occluded pressure [Ppao])/cardiac output (Q) plots. Hypoxia increased Ppa - Ppao over the entire range of Q studied, from 1.5 to 4.0 L/min/m2, in 12 dogs (responders) and had no significant effect on (Ppa - Ppao)/Q plots in 8 other dogs (nonresponders). Dexfenfluramine did not affect (Ppa - Ppao)/Q plots in 6 responders but shifted (Ppa - Ppao)/Q plots to higher pressures in hypoxia in 6 nonresponders (p < 0.001). Dexfenfluramine had no effect on (Ppa - Ppao)/Q plots in the 6 dogs with embolic pulmonary hypertension. Because dexfenfluramine has serotoninergic properties, we compared the effects of ketanserin, a serotonin (
5-hydroxytryptamine
, 5-HT) S2 receptor antagonist, on naturally present versus dexfenfluramine-restored hypoxic pulmonary vasoconstriction. Ketanserin did not affect hyperoxic or hypoxic pulmonary vascular tone, neither in 6 responders nor in 2 nonresponders with dexfenfluramine-restored hypoxic vasoconstriction. We conclude that dexfenfluramine restores hypoxic pulmonary vasoconstriction in dogs with weak or absent hypoxic pressor response and that this effect is unlikely to be mediated by activation of 5-HT S2 receptors.
...
PMID:Effects of dexfenfluramine on hypoxic pulmonary vasoconstriction and embolic pulmonary hypertension in dogs. 788 58
We postulated that prolonged exposure to intermittent positive-pressure ventilation (IPPV) with high pressure (HIPPV) alone without
hyperoxia
promotes the development of airway hyperresponsiveness and remodeling. To test this hypothesis, young rats were ventilated under halothane anesthesia with HIPPV (maximum inspiratory pressure at 32-35 cmH2O in 70% nitrous oxide and 30% O2) for 3.5-4 h daily for 6 days. Control rats were ventilated with low IPPV (maximum inspiratory pressure < 13 cmH2O) during the same time period with the same gas mixture. With the use of tracheal rings isolated from these rats and a setup in tissue baths, contractile responses to carbachol (10(-6) to 10(-2) mM),
5-hydroxytryptamine
(5-HT; 10(-9) to 10(-5) mM) and KCl (1-100 mM) were examined isometrically. In tracheal rings from HIPPV rats compared with low-pressure IPPV rats, the concentration tension curves showed a significantly enhanced response to all agonists (P < 0.005). Sensitivity to carbachol, 5-HT, and KCl was also significantly increased (P < 0.05) compared with control rats as evidenced by decreases in EC50. Maximum tension (reactivity) to 5-HT and KCl in the HIPPV group increased significantly (P < 0.05), and there was a trend (P = 0.07) toward increased reactivity to carbachol in this group as well. Histological examinations of tracheal rings demonstrated epithelial squamous metaplasia in the HIPPV group. Morphometric studies demonstrated tracheal smooth muscle thickening (P < 0.05) without changes in the thickness of the mucosa or the lamina propria. When contractile responses were normalized for the smooth muscle cross-sectional area (i.e., stress), reactivity to all contractile agents was reduced, whereas reactivity to 5-HT still demonstrated significant increase (P < 0.005). Sensitivity of tracheal segments to all three agents was not affected by this normalization. These findings suggest that prolonged exposure to HIPPV without
hyperoxia
and the resultant overdistension of lung tissues (volutrauma) induced airway remodeling and airway hyperreactivity.
...
PMID:Prolonged high intermittent positive-pressure ventilation induces airway remodeling and reactivity in young rats. 972 52
We hypothesized that the
5-hydroxytryptamine
(
5-HT
) active drugs ketanserin and 5-carboxamidotryptamine (5-CT) would modulate time-dependent hypoxic phrenic and hypoglossal responses, including 1) short-term hypoxic response, 2) posthypoxia frequency decline (PHFD), and 3) long-term facilitation (LTF) of respiratory motor output. Phrenic and hypoglossal nerve activities were recorded in urethan-anesthetized, paralyzed, vagotomized, and artificially ventilated rats pretreated either with ketanserin (
5-HT
(2A/C) antagonist; 2 mg/kg iv), 5-CT (
5-HT
(1A/B) agonist; 10 microg/kg iv), or saline (sham). Rats were exposed to three 5-min episodes of hypoxia [fractional inspired O(2) (FI(O2)) = 0.11], separated by 5 min of
hyperoxia
(FI(O2) = 0.5). During hypoxia, ketanserin augmented phrenic but not hypoglossal burst amplitude; 5-CT had no effect. Both drugs accentuated PHFD. Ketanserin blocked phrenic LTF; hypoglossal LTF was not apparent, even in sham-treated rats. 5-CT reversed LTF, resulting in a long-lasting depression of phrenic burst frequency and amplitude without effect on hypoglossal burst amplitude. The data suggest that 1)
5-HT
(2A/C) receptor activation modulates the short-term hypoxic phrenic response and PHFD and is necessary for LTF; and 2) 5-CT may affect time-dependent hypoxic ventilatory responses by reducing serotonin release via
5-HT
(1A/B) autoreceptor activation.
...
PMID:Time-dependent hypoxic ventilatory responses in rats: effects of ketanserin and 5-carboxamidotryptamine. 1048 81
The neurochemical, serotonin (
5-hydroxytryptamine
; 5-HT) is involved in the regulation of toadfish pulsatile urea excretion as well as the teleost hypoxia response. Thus, the goal of this study was to determine whether environmental conditions that activate branchial chemoreceptors also trigger pulsatile urea excretion in toadfish, since environmental dissolved oxygen levels in a typical toadfish habitat show significant diel fluctuations, often reaching hypoxic conditions at dawn. Toadfish were fitted with arterial, venous and/or buccal catheters and were exposed to various environmental conditions, and/or injected with the O(2) chemoreceptor agonist NaCN or the 5-HT(2) receptor agonist alpha-methyl-5HT. Arterial PO(2), as well as ammonia and urea excretion were monitored. Natural fluctuations in arterial PO(2) levels in toadfish did not correlate with the occurrence of a urea pulse. Chronic exposure (24 h) of toadfish to
hyperoxia
was without effect on nitrogen excretion, however, exposure to hypoxia caused a significant reduction in the frequency of urea pulses, and exposure to hypercapnia resulted in a reduction in the percentage of nitrogen waste excreted as urea. Of toadfish exposed acutely to hypoxia, 20% pulsed within 1 h, whereas none pulsed after normoxic or hypercapnic treatments. Furthermore, 20% of fish injected intravenously with NaCN pulsed within 1 h of injection, but no fish pulsed after injection of NaCN into the buccal cavity. To test whether environmental conditions affected 5-HT(2) receptors, toadfish were injected with alpha-methyl-5HT, which elicits urea pulses in toadfish. No significant differences in pulse size occurred among the various environmental treatments. Our findings suggest that neither the environmental conditions of hypoxia,
hyperoxia
or hypercapnia, nor direct branchial chemoreceptor activation by NaCN play a major role in the regulation of pulsatile urea excretion in toadfish.
...
PMID:Is urea pulsing in toadfish related to environmental O2 or CO2 levels? 1719 58
The abnormal level of O2 could disturb various neurochemical processes and even induce neural injury and brain dysfunction. In order to assess critical roles of O2 in the neurochemical processes, it is essential to perform in vivo monitoring of the dynamic changes of O2. In this study, we develop a new electrochemical method for selectively monitoring O2 in vivo, using platinized vertically aligned carbon nanotube (VACNT)-sheathed carbon fibers (Pt/VACNT-CFs) as the electrodes. The VACNT-sheathed CFs (VACNT-CFs) are produced via the pyrolysis of iron phthalocyanine (FePc) on the surface of CFs, followed by electrochemical deposition of platinum nanoparticles to form Pt/VACNT-CFs. The resulting Pt/VACNT-CF microelectrodes exhibit fast overall kinetics for the O2 reduction via a four-electron reduction process without the formation of toxic H2O2 intermediate. Consequently, effective and selective electrochemical methods are developed for the measurements of O2 in rat brain with the Pt/VACNT-CF microelectrodes, even in the presence of some species at their physiological levels, such as ascorbic acid, dopamine, uric acid,
5-hydroxytryptamine
, and of the O2 fluctuation in rat brain in the early stage of global cerebral ischemia/reperfusion, mild
hyperoxia
, and hypoxia induced by exposing the animal, for a short time, to O2 and N2, respectively, and hindfeet pinch. The use of VACNT-CF as the support for Pt effectively improves the stability of Pt, as compared with the bare CF support, while the FePc pyrolysis ensures the VACNT-CFs to be reproducibly produced. Thus, this study offers a novel and reliable strategy for preparing new microelectrodes for in vivo monitoring of O2 in various physiological processes with a high sensitivity and selectivity.
...
PMID:Platinized aligned carbon nanotube-sheathed carbon fiber microelectrodes for in vivo amperometric monitoring of oxygen. 2477 1
<< Previous
1
2
