Environmental toxicity, redox signaling and lung inflammation: The role of glutathione

Biswas, Saibal K; Rahman, Irfan

doi:10.1016/j.mam.2008.07.001

Cited by 292 publications

(216 citation statements)

References 157 publications

(202 reference statements)

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“…30 ROS and RNS play important roles in regulating cell survival, and a sudden excessive and prolonged surge of ROS/RNS could induce cell death. 31 In most tissues, the first line of defense against oxidative stress is the endogenous antioxidant defense system such as SODs: SOD1 in the cytoplasm, SOD2 in mitochondria, and SOD3 in the extracellular space. 32 Furthermore, free radical insult might activate PARP and culminate in an apoptotic cascade.…”

Section: Discussionmentioning

confidence: 99%

Endogeous sulfur dioxide protects against oleic acid-induced acute lung injury in association with inhibition of oxidative stress in rats

Chen

Zheng

Liu

et al. 2015

Laboratory Investigation

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The role of endogenous sulfur dioxide (SO 2 ), an efficient gasotransmitter maintaining homeostasis, in the development of acute lung injury (ALI) remains unidentified. We aimed to investigate the role of endogenous SO 2 in the pathogenesis of ALI. An oleic acid (OA)-induced ALI rat model was established. Endogenous SO 2 levels, lung injury, oxidative stress markers and apoptosis were examined. OA-induced ALI rats showed a markedly downregulated endogenous SO 2 /aspartate aminotransferase 1 (AAT1)/AAT2 pathway and severe lung injury. Chemical colorimetry assays demonstrated upregulated reactive oxygen species generation and downregulated antioxidant capacity in OA-induced ALI rats. However, SO 2 increased endogenous SO 2 levels, protected against oxidative stress and alleviated ALI. Moreover, compared with OA-treated cells, in human alveolar epithelial cells SO 2 downregulated O 2 À and OH À generation. In contrast, L-aspartic acid-b-hydroxamate (HDX, Sigma-Aldrich Corporation), an inhibitor of endogenous SO 2 generating enzyme, promoted free radical generation, upregulated poly (ADP-ribose) polymerase expression, activated caspase-3, as well as promoted cell apoptosis. Importantly, apoptosis could be inhibited by the free radical scavengers glutathione (GSH) and N-acetyl-L-cysteine (NAC). The results suggest that SO 2 /AAT1/AAT2 pathway might protect against the development of OA-induced ALI by inhibiting oxidative stress.

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Section: Discussionmentioning

confidence: 99%

Endogeous sulfur dioxide protects against oleic acid-induced acute lung injury in association with inhibition of oxidative stress in rats

Chen

Zheng

Liu

et al. 2015

Laboratory Investigation

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“…Effects of FP and CARB on GSH expression in bronchial epithelial cells GSH is one of the most important defensive mechanisms against oxidative stress (Biswas and Rahman 2009;Ghezzi 2011). The effect of CARB and FP on GSH expression in CSE-stimulated bronchial epithelial cells was explored.…”

Section: Effects Of Fp and Carb On Ros Formation In Bronchial Epithelmentioning

confidence: 99%

Comparative cytoprotective effects of carbocysteine and fluticasone propionate in cigarette smoke extract-stimulated bronchial epithelial cells

Pace

Ferraro

Vincenzo

et al. 2013

Cell Stress and Chaperones

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Cigarette smoke extracts (CSE) induce oxidative stress, an important feature in chronic obstructive pulmonary disease (COPD), and oxidative stress contributes to the poor clinical efficacy of corticosteroids in COPD patients. Carbocysteine, an antioxidant and mucolytic agent, is effective in reducing the severity and the rate of exacerbations in COPD patients. The effects of carbocysteine on CSE-induced oxidative stress in bronchial epithelial cells as well as the comparison of these antioxidant effects of carbocysteine with those of fluticasone propionate are unknown. The present study was aimed to assess the effects of carbocysteine (10 −4 M) in cell survival and intracellular reactive oxygen species (ROS) production (by flow cytometry) as well as total glutathione (GSH), heme oxygenase-1 (HO-1), nuclearrelated factor 2 (Nrf2) expression and histone deacetylase 2 (HDAC-2) expression/activation in CSE-stimulated bronchial epithelial cells (16-HBE) and to compare these effects with those of fluticasone propionate (10 −8 M). CSE, carbocysteine or fluticasone propionate did not induce cell necrosis (propidium positive cells) or cell apoptosis (annexin Vpositive/propidium-negative cells) in 16-HBE. CSE increased ROS production, nuclear Nrf2 and HO-1 in 16-HBE. Fluticasone propionate did not modify intracellular ROS production, GSH and HDCA-2 but reduced Nrf2 and HO-1 in CSE-stimulated 16-HBE. Carbocysteine reduced ROS production and increased GSH, HO-1, Nrf2 and HDAC-2 nuclear expression/activity in CSE-stimulated cells and was more effective than fluticasone propionate in modulating the CSEmediated effects. In conclusion, the present study provides compelling evidences that the use of carbocysteine may be considered a promising strategy in diseases associated with corticosteroid resistance.

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“…S-CMC-Lys has an antioxidant action that leads to a significant increase of glutathione (GSH) flux through the cell membrane (Guizzardi et al, 2006;Garavaglia et al, 2008). Such an increase in intracellular GSH induces a reduction in inflammatory cytokine release through inhibition of NFkB activation (Aoki et al, 1996;Antonicelli et al, 2002;Biswas & Rahman, 2009). A previous study reported that the pyrrolidine derivative pyrrolidine dithiocarbamate, an NFkB inhibitor, reduces acid-induced S. pneumoniae adherence to A549 cells via inhibition of PAFR induction (Ishizuka et al, 2001).…”

Section: Resultsmentioning

confidence: 99%

S-Carboxymethylcysteine inhibits adherence of Streptococcus pneumoniae to human alveolar epithelial cells

Sumitomo

Nakata

Yamaguchi

et al. 2012

Journal of Medical Microbiology

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Streptococcus pneumoniae is a major pathogen of respiratory infections that utilizes platelet-activating factor receptor (PAFR) for firm adherence to host cells. The mucolytic agent S-carboxymethylcysteine (S-CMC) has been shown to exert inhibitory effects against infection by several respiratory pathogens including S. pneumoniae in vitro and in vivo. Moreover, clinical studies have implicated the benefits of S-CMC in preventing exacerbation of chronic obstructive pulmonary disease, which is considered to be related to respiratory infections. In this study, to assess whether the potency of S-CMC is attributable to inhibition of pneumococcal adherence to host cells, an alveolar epithelial cell line stimulated with interleukin-1a was used as a model of inflamed epithelial cells. Despite upregulation of PAFR by inflammatory activation, treatment with S-CMC efficiently inhibited pneumococcal adherence to host epithelial cells. In order to gain insight into the inhibitory mechanism, the effects of S-CMC on PAFR expression were also investigated. Following treatment with S-CMC, PAFR expression was reduced at both mRNA and post-transcriptional levels. Interestingly, S-CMC was also effective in inhibiting pneumococcal adherence to cells transfected with PAFR small interfering RNAs. These results indicate S-CMC as a probable inhibitor targeting numerous epithelial receptors that interact with S. pneumoniae. INTRODUCTIONStreptococcus pneumoniae is a major cause of communityacquired pneumonia, sinusitis and otitis media, and is also associated with acute exacerbations of chronic obstructive pulmonary disease (COPD) (Miravitlles et al., 1999). Among the numerous pneumococcal adherence mechanisms responsible for causing diseases, phosphorylcholine binds specifically to platelet-activating factor receptor (PAFR) expressed on the surface of airway epithelial cells (Cundell et al., 1995(Cundell et al., , 1996Fischer, 2000). Previous in vivo experiments demonstrated that PAFR-deficient mice were less likely to develop invasive disease or had improved host defence during pneumococcal infection (Rijneveld et al., 2004). Therefore, the interaction between PAFR and phosphorylcholine plays a crucial role in the pathogenesis of pneumococcal disease.The mucolytic agent S-carboxymethylcysteine (S-CMC) is widely used as an expectorant in Europe and Asia for the treatment of respiratory diseases with phlegm production. Administration of S-CMC is also effective for COPD patients in terms of reductions in symptom exacerbation and improvements in quality of life (Zheng et al., 2008). It is generally accepted that bacterial colonization is a determinant for COPD exacerbation. Hence, it has been speculated that the potency of S-CMC against respiratory pathogens, including S. pneumoniae (Cakan et al., 2003;Suer et al., 2008), Moraxella catarrhalis (Zheng et al., 1999) and non-typable Haemophilus influenzae (Ndour et al., 2001), contributes to a reduction in episodes of respiratory infection in COPD patients. However, the mechanism by which S-C...

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Environmental toxicity, redox signaling and lung inflammation: The role of glutathione

Cited by 292 publications

References 157 publications

Endogeous sulfur dioxide protects against oleic acid-induced acute lung injury in association with inhibition of oxidative stress in rats

Endogeous sulfur dioxide protects against oleic acid-induced acute lung injury in association with inhibition of oxidative stress in rats

Comparative cytoprotective effects of carbocysteine and fluticasone propionate in cigarette smoke extract-stimulated bronchial epithelial cells

S-Carboxymethylcysteine inhibits adherence of Streptococcus pneumoniae to human alveolar epithelial cells

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