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Inflammation induced disruption in Circadian Rhythm in Pulmonary Endothelial cells is modulated via reactive oxygen species


 
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1. Título Título del documento Inflammation induced disruption in Circadian Rhythm in Pulmonary Endothelial cells is modulated via reactive oxygen species
 
2. Creador/a Nombre de autor/a, institución, país Shampa Chatterjee
 
2. Creador/a Nombre de autor/a, institución, país Yool Lee
 
2. Creador/a Nombre de autor/a, institución, país Jian Qin Tao
 
2. Creador/a Nombre de autor/a, institución, país Amita Sehgal
 
2. Creador/a Nombre de autor/a, institución, país Shaon Sengputa
 
3. Materia Disciplina(s)
 
3. Materia Palabra/s clave circadian rhythm, pulmonary endotelial cells, reactive oxygen species.
 
4. Descripción Resumen

Introduction: While the circadian clock has been characterized in systemic blood vessels and well established to contribute to various inflammatory pathologies associated with the endothelium, the mechanisms of circadian control of endothelial inflammation specifically in pulmonary inflammation is not known. We hypothesized that the pulmonary vasculature is under circadian control and that this rhythm is disrupted by inflammatory stimuli via redox mediated processes.

Objective:To determine the possible relationship between the inflammation induced disruption in Circadian Rhythm in pulmonary endothelial cells and reactive oxygen species.

Material and Methods: Circadian rhythms were monitored in pulmonary artery segments and endothelial cells isolated from mPer2luciferase transgenic mice in presence of an inflammatory stimuli (LPS). Reactive oxygen species (ROS) production in LPS treated cells was measured by fluorescence microscopy using the cell permeant dye CellROX Green.

Results: The circadian rhythm of the pulmonary endothelium was disrupted by LPS. To identify the mechanism of this disruption, ROS production in these cells was monitored. At 3 h post LPS treatment, we observed a >3 fold increase in ROS production which further increased to 6 fold by 36 h and returned to baseline values at 72 h. ROS was inhibited by pretreating the cells with the NADPH oxidase 2 (NOX2) inhibitor DPI. Addition of DPI, prior to LPS pretreatment also restored the circadian rhythmicity of the pulmonary endothelium.

Conclusions: Pro-inflammatory stimuli can disrupt circadian rhythms in the pulmonary endothelium via NOX2 regulated ROS signaling. We speculate that under inflammatory conditions disrupted circadian rhythms in the pulmonary vascular endothelium contributes to worsening outcomes.
 
5. Editorial Institución organizadora, ubicación Editorial Ciencias Médicas
 
6. Colaborador/a Patrocinador(es)
 
7. Fecha (DD-MM-AAAA) 2020-01-28
 
8. Tipo Estado y género Artículo revisado por pares
 
8. Tipo Tipo
 
9. Formato Formato de archivo PDF
 
10. Identificador Identificador uniforme de recursos http://www.revibiomedica.sld.cu/index.php/ibi/article/view/414
 
11. Fuente Título; vol., núm. (año) Revista Cubana de Investigaciones Biomédicas; Vol. 38 (2019): Suplemento Especial: II PanAmerican Congress of Physiological Sciences
 
12. Idioma Español=es en
 
13. Relación Archivos complementarios
 
14. Cobertura Localización geoespacial, periodo cronológico, muestra de investigación (sexo, edad, etc.)
 
15. Derechos Derechos de autor/a y permisos Copyright (c) 2020 http://creativecommons.org/licenses/by-nc-sa/4.0
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Este obra está bajo una licencia de Creative Commons Reconocimiento-NoComercial 4.0 Internacional.