Anita L. Reno scite author profile

Sulfur dioxide (SO2) is a problematic inhalable air pollutant in areas of widespread industrialization, not only in the United States but also in countries undergoing rapid industrialization, such as China, and it can be a potential trigger factor for asthma exacerbations. It is known that asthmatics are sensitive to the effects of SO2; however, the basis of this enhanced sensitivity remains incompletely understood. A PubMed search was performed over the course of 2014, encompassing the following terms: asthma, airway inflammation, sulfur dioxide, IL-10, mouse studies, and human studies. This search indicated that biomarkers of SO2 exposure, SO2 effects on airway epithelial cell function, and animal model data are useful in our understanding of the body’s response to SO2, as are SO2-associated amplification of allergic inflammation, and potential promotion of neurogenic inflammation due to chemical irritant properties. While definitive answers are still being sought, these areas comprise important foci of consideration regarding asthmatic responses to inhaled SO2. Furthermore, IL-10 deficiency associated with asthma may be another important factor associated with an inability to resolve inflammation and mitigate oxidative stress resulting from SO2 inhalation, supporting the idea that asthmatics are predisposed to SO2 sensitivity, leading to asthma exacerbations and airway dysfunction.

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Dependence of DNA–Protein Cross-Linking via Guanine Oxidation upon Local DNA Sequence As Studied by Restriction Endonuclease Inhibition

Madison

Perez

et al. 2011

Biochemistry

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Oxidative damage plays a causative role in many diseases, and DNA-protein cross-linking is one important consequence of such damage. It is known that GG and GGG sites are particularly prone to one-electron oxidation, and here we examined how the local DNA sequence influences the formation of DNA-protein cross-links induced by guanine oxidation. Oxidative DNA-protein cross-linking was induced between DNA and histone protein via the flash quench technique, a photochemical method that selectively oxidizes the guanine base in double-stranded DNA. An assay based on restriction enzyme cleavage was developed to detect the cross-linking in plasmid DNA. Following oxidation of pBR322 DNA by flash quench, several restriction enzymes (PpuMI, BamHI, EcoRI) were then used to probe the plasmid surface for the expected damage at guanine sites. These three endonucleases were strongly inhibited by DNA-protein cross-linking, whereas the AT-recognizing enzyme AseI was unaffected in its cleavage. These experiments also reveal the susceptibility of different guanine sites toward oxidative cross-linking. The percent inhibition observed for the endonucleases, and their pBR322 cleavage sites, decreased in the order: PpuMI (5'-GGGTCCT-3' and 5'-AGGACCC-3') > BamHI (5'-GGATCC-3') > EcoRI (5'-GAATTC-3'), a trend consistent with the observed and predicted tendencies for guanine to undergo one-electron oxidation: 5'-GGG-3' > 5'-GG-3' > 5'-GA-3'. Thus, it appears that in mixed DNA sequences the guanine sites most vulnerable to oxidative cross-linking are those that are easiest to oxidize. These results further indicate that equilibration of the electron hole in the plasmid DNA occurs on a time scale faster than that of cross-linking.

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A Novel Phosphodiesterase-4 Inhibitor Decreases Allergic Sinus Congestion And Inflammation

Spear¹,

Reno²,

Parks³

et al. 2012

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Enantiomer-associated p38 Activation as a Function of Stimulation Intensity and Duration in Human Airway Smooth Muscle Cells

Duru

Reno

Parks

et al. 2009

Journal of Allergy and Clinical Immunology

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Novel Phosphodiesterase-4 Inhibitors Decrease Allergic Sinus Congestion and Inflammation

Ameredes

Spear

Reno

et al. 2013

Journal of Allergy and Clinical Immunology

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Anita L. Reno

Mechanisms of Heightened Airway Sensitivity and Responses to Inhaled SO₂in Asthmatics

Dependence of DNA–Protein Cross-Linking via Guanine Oxidation upon Local DNA Sequence As Studied by Restriction Endonuclease Inhibition

A Novel Phosphodiesterase-4 Inhibitor Decreases Allergic Sinus Congestion And Inflammation

Enantiomer-associated p38 Activation as a Function of Stimulation Intensity and Duration in Human Airway Smooth Muscle Cells

Novel Phosphodiesterase-4 Inhibitors Decrease Allergic Sinus Congestion and Inflammation

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About

Anita L. Reno

Mechanisms of Heightened Airway Sensitivity and Responses to Inhaled SO2in Asthmatics

Dependence of DNA–Protein Cross-Linking via Guanine Oxidation upon Local DNA Sequence As Studied by Restriction Endonuclease Inhibition

A Novel Phosphodiesterase-4 Inhibitor Decreases Allergic Sinus Congestion And Inflammation

Enantiomer-associated p38 Activation as a Function of Stimulation Intensity and Duration in Human Airway Smooth Muscle Cells

Novel Phosphodiesterase-4 Inhibitors Decrease Allergic Sinus Congestion and Inflammation

Contact Info

Product

Resources

About

Mechanisms of Heightened Airway Sensitivity and Responses to Inhaled SO₂in Asthmatics