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Query: UMLS:C0242706 (
hyperoxia
)
5,219
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
This report summarizes recent data regarding the direct responses of the type II alveolar epithelial cell to agents that are known to produce lung injury. These responses are not limited to cytotoxicity or cell death, but include alterations in the known differentiated functions of this cell type. Among the functions assessed and shown to be altered by toxic agents are: (1) synthesis and secretion of pulmonary surfactant; and (2) proliferation and renewal of the alveolar type I cell population. Agents such as ionizing radiation,
CdCl2
and
hyperoxia
are shown to directly alter pulmonary surfactant phospholipid synthesis and secretion by type II cells in a manner consistent with their known effect at the whole animal level. Changes in protein synthesis are also observed. In addition, information is presented which suggests that pulmonary epithelial proliferation and repair is a complex process mediated, in part, by complex cell-cell interaction in the pulmonary parenchyma. In particular, the alveolar macrophage may play a significant role through its ability to synthesize and secrete potent growth factors that influence type II cell growth.
...
PMID:Physiologic and toxicologic responses of alveolar type II cells. 218 Jan 32
The effects of exposure to
CdCl2
aerosols followed by
hyperoxia
were studied in mouse lung. Special emphasis was placed on analysis of cell proliferation following injury. Male Balb/c mice were exposed to aerosols of 4.9 micrograms Cd/liter for 1 hr while controls were exposed to water aerosols. Immediately after, half of each group was placed in 80% O2 for 6 days, while the rest were left in room air. Three endpoints were used to assess lung injury; measurement of hydroxyproline, [14C]thymidine incorporation into DNA, and histopathology. Parenchymal and bronchiolar labeling indices were determined following autoradiography. A 1-hr exposure to
CdCl2
aerosols caused marked cell proliferation in the lung with the peak of cell labeling occurring at Day 5. In animals exposed to both
CdCl2
+ 80% O2, the cell labeling peak was delayed until Day 9. Cell differentiation studies showed a delay in the peak of type II epithelial cell and endothelial cell division when
CdCl2
exposure was followed by the 80% O2 treatment. On Day 15 most of the labeled cells were identified as interstitial cells in both treated groups. Bronchiolar cell labeling was suppressed at the early time period in the Cd + O2 group. With time, the histologically visible lung lesions tended to resolve in animals exposed to
CdCl2
or
CdCl2
and 80% O2, whereas total pulmonary hydroxyproline remained at all times (3, 6, and 12 months) significantly higher in Cd-treated animals when compared to controls. It was concluded that acute lung injury by a toxic inhalant can be amplified if there is an initial delay in pulmonary cell proliferation following an acute insult.
...
PMID:Cadmium-induced lung injury: cell kinetics and long-term effects. 402 12
The gene expression of heme oxygenase-1 (HO-1) was studied in mammalian cell lines exposed to
hyperoxia
. Northern blot analysis demonstrated that hyperoxic exposure increased the HO-1 mRNA levels in various types of cells, including human hepatoma (HepG2) cells. This increase was time- and dose-dependent, and reversible. The HO-1 mRNA levels in HepG2 cells were increased to 2.3- and 4.2-fold of the control by hyperoxic exposure of 6 and 23 h, respectively. Cycloheximide and actinomycin D inhibited the increases in the HO-1 mRNA level produced by
hyperoxia
, indicating that response to
hyperoxia
is dependent on de novo protein synthesis and mRNA transcription. Antioxidants, desferrioxamine (DES) and o-phenanthroline (OP) partially inhibited the HO-1 mRNA elevation by
hyperoxia
. In addition to
hyperoxia
, sodium arsenite (NaAsO2), cadmium chloride (CdCl(2)) and hydrogen peroxide (H2O2), which are reactive oxygen intermediates (ROI) generators, increased the HO-1 mRNA level by 11-, 22- and 2.5-fold, respectively. OP, an antioxidant and a bivalent metal chelator, blocked the HO-1 mRNA elevation induced either by
hyperoxia
or by the three ROI generators. In contrast to OP, N-acetylcysteine (NAC), an antioxidant and membrane-permeable reducing reagent, enhanced the HO-1 mRNA elevation induced by
hyperoxia
, although NAC inhibited the mRNA elevation induced by NaAsO2,
CdCl2
and H2O2. These results indicate that oxygen tension regulates HO-1 gene expression and suggest that
hyperoxia
-specific and redox-sensitive regulators may be involved in
hyperoxia
-mediated HO-1 gene expression.
...
PMID:Oxygen tension regulates heme oxygenase-1 gene expression in mammalian cell lines. 974 10
