Your search keyword '"Pascoe, C.D."' showing total 3 results

1. Neutralizing Oxidized Phosphatidylcholine Reduces Airway Inflammation and Hyperreactivity in a Murine Model of Allergic Asthma.

Author

Vaghasiya, Jignesh, Jha, Aruni, Basu, Sujata, Bagan, Alaina, Jengsuksavat, Siwon K., Ravandi, Amir, Pascoe, Christopher D., and Halayko, Andrew J.

Subjects

HOUSE dust mites, INTRANASAL administration, AIRWAY resistance (Respiration), REACTIVE oxygen species, BRONCHOALVEOLAR lavage

Abstract

Simple Summary: Oxidative stress generates harmful oxygen radicals that activate biomolecules in the lungs of asthmatics. The effects of these mediators are not directly targeted by first-line therapeutics. Using a clinically relevant murine model of allergic asthma, this study reveals that immuno-pharmacological neutralization of oxidized phospholipids in the lung can ameliorate inflammation and asthma symptoms. This suggests that specifically targeting mediators generated by oxidative stress could offer new therapeutic options for asthma to complement conventional therapies. Oxidative stress is associated with asthma pathobiology. We reported that oxidized phosphatidylcholines (OxPCs) are mediators of oxidative stress and accumulate in the lung in response to allergen challenge. The current study begins to unravel mechanisms for OxPC accumulation in the lung, providing the first insights about how OxPCs underpin allergic airway pathophysiology, and pre-clinical testing of selective neutralization of OxPCs in a murine model of allergic asthma. We hypothesized that intranasal delivery of E06, a natural IgM antibody that neutralizes the biological activity of OxPCs, can ameliorate allergen-induced airway inflammation and airway hyperresponsiveness. Adult BALB/c mice were intranasally (i.n.) challenged with house dust mite (HDM) (25 μg/mouse, 2 weeks). Some animals also received E06 monoclonal antibody (mAb) (10 µg) i.n. 1 hr before each HDM challenge. HDM challenge reduced mRNA for anti-oxidant genes (SOD1, SOD2, HO-1, and NFE2L2) in the lung by several orders of magnitude (p < 0.05). Concomitantly, total immune cell number in bronchoalveolar lavage fluid (BALF) increased significantly (p < 0.001). E06 mAb treatment prevented allergen-induced BALF immune cell number by 43% (p < 0.01). This included a significant blockade of eosinophils (by 48%, p < 0.001), neutrophils (by 80%, p < 0.001), macrophages (by 80%, p < 0.05), and CD4 (by 30%, p < 0.05) and CD8 (by 42%, p < 0.01) lymphocytes. E06 effects correlated with a significant reduction in TNF (by 64%, p < 0.001) and IL-1β (by 75%, p < 0.05) and a trend to diminish accumulation of other cytokines (e.g., IL-4, -10, and -33, and IFN-γ). E06 mAb treatment also inhibited HDM exposure-induced increases in total respiratory resistance and small airway resistance by 24% and 26%, respectively. In conclusion, prophylactic treatment with an OxPC-neutralizing antibody significantly limits allergen-induced airway inflammation and airway hyperresponsiveness, suggesting that OxPCs are important mediators of oxidative stress-associated allergic lung pathophysiology. [ABSTRACT FROM AUTHOR]

Published

2024

2. Rho-Kinase Inhibition of Active Force and Passive Tension in Airway Smooth Muscle: A Strategy for Treating Airway Hyperresponsiveness in Asthma.

Author

Yasuda, Yuto, Wang, Lu, Chitano, Pasquale, and Seow, Chun Y.

Subjects

SMOOTH muscle, CONNECTIN, RHO-associated kinases, CYTOSKELETAL proteins, ASTHMA, DRUG therapy, CLINICAL trials, MUSCLE tone

Abstract

Simple Summary: The effects of a rho-kinase inhibitor alone and in combination with a bronchodilator in the presence of a small-amplitude oscillatory strain on the mechanical properties of airway smooth muscle were described in this brief review. Findings from relevant studies provide a strong basis for human trials using rho-kinase alone or in combination with other interventions in the treatment of asthma. Rho-kinase inhibitors have been identified as a class of potential drugs for treating asthma because of their ability to reduce airway inflammation and active force in airway smooth muscle (ASM). Past research has revealed that, besides the effect on the ASM's force generation, rho-kinase (ROCK) also regulates actin filament formation and filament network architecture and integrity, thus affecting ASM's cytoskeletal stiffness. The present review is not a comprehensive examination of the roles played by ROCK in regulating ASM function but is specifically focused on passive tension, which is partially determined by the cytoskeletal stiffness of ASM. Understanding the molecular basis for maintaining active force and passive tension in ASM by ROCK will allow us to determine the suitability of ROCK inhibitors and its downstream enzymes as a class of drugs in treating airway hyperresponsiveness seen in asthma. Because clinical trials using ROCK inhibitors in the treatment of asthma have yet to be conducted, the present review focuses on the in vitro effects of ROCK inhibitors on ASM's mechanical properties which include active force generation, relaxation, and passive stiffness. The review provides justification for future clinical trials in the treatment of asthma using ROCK inhibitors alone and in combination with other pharmacological and mechanical interventions. [ABSTRACT FROM AUTHOR]

Published

2024

3. Oxidative Stress, Environmental Pollution, and Lifestyle as Determinants of Asthma in Children.

Author

Vincenzo, Serena Di, Ferrante, Giuliana, Ferraro, Maria, Cascio, Caterina, Malizia, Velia, Licari, Amelia, La Grutta, Stefania, and Pace, Elisabetta

Subjects

OXIDATIVE stress, ASTHMA in children, TOBACCO smoke, POLLUTION, POLLUTANTS, TOBACCO smoke pollution, CIGARETTE smoke, REACTIVE oxygen species

Abstract

Simple Summary: This review is focused on the role of oxidative stress in childhood asthma. The term "oxidative stress" indicates an imbalance between production of radical oxygen species and antioxidant defense systems. Cigarette smoke, allergens, viruses, and other environmental contaminants, as well as a detrimental lifestyle, elevate airway oxidative stress. Uncontrolled oxidative stress within airways amplifies inflammatory responses and tissue damage and alters immune responses, thus increasing the risk of asthma onset and asthma progression in children. Early lifestyle and dietary interventions and use of new antioxidant therapies to restore oxidant/antioxidant balance are all valuable strategies to preserve airway homeostasis. Exposure to cigarette smoke, allergens, viruses, and other environmental contaminants, as well as a detrimental lifestyle, are the main factors supporting elevated levels of airway oxidative stress. Elevated oxidative stress results from an imbalance in reactive oxygen species (ROS) production and efficiency in antioxidant defense systems. Uncontrolled increased oxidative stress amplifies inflammatory processes and tissue damage and alters innate and adaptive immunity, thus compromising airway homeostasis. Oxidative stress events reduce responsiveness to corticosteroids. These events can increase risk of asthma into adolescence and prompt evolution of asthma toward its most severe forms. Development of new therapies aimed to restore oxidant/antioxidant balance and active interventions aimed to improve physical activity and quality/quantity of food are all necessary strategies to prevent asthma onset and avoid in asthmatics evolution toward severe forms of the disease. [ABSTRACT FROM AUTHOR]

Published

2023