Mitochondrial aldehyde dehydrogenase attenuates hyperoxia-induced cell death through activation of ERK/MAPK and PI3K-Akt pathways in lung epithelial cells

Xu, Da-Zhong; Guthrie, Jill R.; Mabry, Sherry M; Sack, Thomas M.; Truog, William E.

doi:10.1152/ajplung.00045.2006

Cited by 73 publications

(60 citation statements)

References 45 publications

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“…However, it has been reported that MST can both oxidize thioredoxin, a key intermediate in cellular redox reactions, and react with peroxides and that this may be a physiologically significant mechanism for combating oxidative challenges [41,42]. Recently, it has been reported that overexpression of ALDH-2 confers lung epithelial cell resistance to hyperoxia-induced cell death in part by reducing intracellular and mitochondrialderived ROS production [43]. Another mechanism by which ALDH-2 may function as an antioxidant involves lipid peroxidation-derived aldehydes (LP-DA).…”

Section: Discussionmentioning

confidence: 99%

Alterations in the diabetic myocardial proteome coupled with increased myocardial oxidative stress underlies diabetic cardiomyopathy

Hamblin

Friedman

Hill

et al. 2007

Journal of Molecular and Cellular Cardiology

113

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Section: Discussionmentioning

confidence: 99%

Alterations in the diabetic myocardial proteome coupled with increased myocardial oxidative stress underlies diabetic cardiomyopathy

Hamblin

Friedman

Hill

et al. 2007

Journal of Molecular and Cellular Cardiology

113

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“…Thus, Buckly et al concluded that the ERK-dependent pathway mediates its effects by protecting the basement membrane against hyperoxic DNA strand breakage and death of type II alveolar epithelial cells [52]. A recent study also demonstrates that activation of ERK1/2 induced by either exposure to hyperoxia or over-expression of mitochondrial aldehyde dehydrogenase (mtALDH) attenuates hyperoxia-induced non-apoptotic death of lung epithelial cells through compensatory AKT cell survival signaling pathways [53]. Inosine, a naturally occurring purine with anti-inflammatory properties, was shown to reduce hyperoxicinduced cell death of alveolar epithelium by increasing ERK1/2 activation [54].…”

Section: Expression Of Regulatory Genes In Hyperoxic Cell Deathmentioning

confidence: 99%

Hyperoxia-induced signal transduction pathways in pulmonary epithelial cells☆

Zaher

Miller

Morrow

et al. 2007

Free Radical Biology and Medicine

122

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Mechanical ventilation with hyperoxia is necessary to treat critically ill patients. However, prolonged exposure to hyperoxia leads to the generation of excessive reactive oxygen species (ROS), which can cause acute inflammatory lung injury. One of the major effects of hyperoxia is the injury and death of pulmonary epithelium, which is accompanied by increased levels of pulmonary proinflammatory cytokines and excessive leukocyte infiltration. A thorough understanding of the signaling pathways leading to pulmonary epithelial cell injury/death may provide some insights into the pathogenesis of hyperoxia-induced acute inflammatory lung injury. This review focuses on epithelial responses to hyperoxia and some of the major factors regulating pathways to epithelial cell injury/death, and proinflammatory responses upon exposure to hyperoxia. We discuss in detail some of the most interesting players, such as, NF-κB, that can modulate both proinflammatory responses and cell injury/death of lung epithelial cells. A better appreciation for the functions of these factors will no doubt help us to delineate the pathways to hyperoxic cell death and proinflammatory responses.

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“…Several reports have suggested that polymorphism ALDH2 genes have a fundamental relationship with colorectal cancer, primary hepatocellular carcinoma, and stomach cancer [28][29][30][31] . More important, mitochondrial ALDH2 functions as a protector against oxidative stress [14,32,33] . Our subsequent research verified this viewpoint.…”

Section: Discussionmentioning

confidence: 99%

“…However, further studies are still needed to shed light on these relation ships [14,38] . In summary, this study provides evidence that overexpression of ALDH2 can protect PBMCs against H 2 O 2 -induced oxidative damage and attenuate apoptosis.…”

Section: Wwwchinapharcom Hu Xy Et Almentioning

confidence: 99%

“…Excessive ROS attacks polyunsaturated fatty acids leading to membrane lipid peroxidation, thereby generating reactive aldehydes, including 4-hydroxy-2-nonenal (4-HNE) and malondialdehyde. ALDH2 provides protection against oxidative damage through the oxidation of exogenous and endogenous aldehydes including 4-HNE, which is the product of lipid peroxidation [13][14][15] . Thus, ALDH2 gene modification may enhance the anti-oxidative stress capacity of immune cells.…”

Section: Introductionmentioning

confidence: 99%

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Over-expression of aldehyde dehydrogenase-2 protects against H2O2-induced oxidative damage and apoptosis in peripheral blood mononuclear cells

Hu¹,

Fang²,

Wang

et al. 2011

Acta Pharmacol Sin

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Aim:To construct an eukaryotic expression vector containing the aldehyde dehydrogenase-2 (ALDH2) gene, and determine whether transfection with the ALDH2 gene can provide protection against hydrogen peroxide-induced oxidative damage, as well as attenuate apoptosis or cell death in human peripheral blood mononuclear cells (PBMCs). Methods: The ALDH2 gene was cloned from human hepatocytes by RT-PCR. The eukaryotic expression vector containing the gene was constructed and then transfected into PBMCs via liposomes. RT-PCR, indirect immunofluorescence assay, and Western blot were used to evaluate the expression of the transgene in target cells. MTT assay and flow cytometry were used to detect the effects of ALDH2 on PBMCs damaged by hydrogen peroxide (H 2 O 2 ). The level of intracellular reactive oxygen species (ROS) was determined by fluorescence spectrophotometry. Results: The eukaryotic expression vector pcDNA3.1/myc-His-ALDH2 was successfully constructed and transfected into PBMCs. RT-PCR results showed higher mRNA expression of ALDH2 in the gene-transfected group than in the two control groups (empty vectortransfected group and negative control). Indirect immunofluorescence assay and Western blot indicated distinct higher protein expression of ALDH2 in the gene-transfected group. The cell survival rate against H 2 O 2 -induced oxidative damage was higher in the ALDH2 gene-transfected group. Moreover, apoptosis rates in gene-transfected PBMCs incubated with 50 and 75 μmol/L H 2 O 2 decreased by 7% and 6%, respectively. The generation of intracellular ROS was also markedly downregulated. Conclusion: ALDH2 gene transfection can protect PBMCs against H 2 O 2 -induced damage and attenuate apoptosis, accompanied with a downregulation of intracellular ROS. ALDH2 functions as a protector against oxidative stress.

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Mitochondrial aldehyde dehydrogenase attenuates hyperoxia-induced cell death through activation of ERK/MAPK and PI3K-Akt pathways in lung epithelial cells

Cited by 73 publications

References 45 publications

Alterations in the diabetic myocardial proteome coupled with increased myocardial oxidative stress underlies diabetic cardiomyopathy

Alterations in the diabetic myocardial proteome coupled with increased myocardial oxidative stress underlies diabetic cardiomyopathy

Hyperoxia-induced signal transduction pathways in pulmonary epithelial cells☆

Over-expression of aldehyde dehydrogenase-2 protects against H2O2-induced oxidative damage and apoptosis in peripheral blood mononuclear cells

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