Anuj Tharakan scite author profile

Exposure to airborne particulate matter (PM) has been linked to aggravation of respiratory symptoms, increased risk of cardiovascular disease, and all-cause mortality. Although the health effects of PM on the lower pulmonary airway have been extensively studied, little is known regarding the impact of chronic PM exposure on the upper sinonasal airway. We sought to test the impact of chronic airborne PM exposure on the upper respiratory system in vivo. Mice were subjected, by inhalation, to concentrated fine (2.5 μm) PM 6 h/d, 5 d/wk, for 16 weeks. Mean airborne fine PM concentration was 60.92 μm/m, a concentration of fine PM lower than that reported in some major global cities. Mice were then killed and analyzed for evidence of inflammation and barrier breakdown compared with control mice. Evidence of the destructive effects of chronic airborne PM on sinonasal health in vivo, including proinflammatory cytokine release, and macrophage and neutrophil inflammatory cell accumulation was observed. A significant increase in epithelial barrier dysfunction was observed, as assessed by serum albumin accumulation in nasal airway lavage fluid, as well as decreased expression of adhesion molecules, including claudin-1 and epithelial cadherin. A significant increase in eosinophilic inflammation, including increased IL-13, eotaxin-1, and eosinophil accumulation, was also observed. Collectively, although largely observational, these studies demonstrate the destructive effects of chronic airborne PM exposure on the sinonasal airway barrier disruption and nonallergic eosinophilic inflammation in mice.

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Air pollutant–mediated disruption of sinonasal epithelial cell barrier function is reversed by activation of the Nrf2 pathway

London¹,

Tharakan²,

Rule

et al. 2016

Journal of Allergy and Clinical Immunology

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Reversal of cigarette smoke extract‐induced sinonasal epithelial cell barrier dysfunction through Nrf2 Activation

Tharakan

Halderman

Lane

et al. 2016

Int Forum Allergy Rhinol

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Background Environmental factors such as inhaled pollutants like cigarette smoke may play a significant role in diseases of the upper airway including chronic rhinosinusitis (CRS). Recent studies have shown that cigarette smoke causes impaired airway epithelial cell barrier function likely through environmental oxidative stress related pathways. The purpose of this study is to explore whether enhancing Nrf2, the body’s master antioxidant system, can ameliorate cigarette smoke induced sinonasal epithelial cell barrier dysfunction. Methods Human Sinonasal epithelial cells (HSNECs) were grown from control patients at the air-liquid interface. HSNECs were stimulated with cigarette smoke extract (CSE) with and without pharmacologic activation of Nrf2. HSNECs were then stained for the epithelial cell junctional proteins ZO-1 and JAM-A using confocal microscopy. In addition trans-epithelial electrical resistance (TER) was measured in cultures before and after stimulation with CSE Results CSE stimulation caused a global disruption of the epithelial junctional proteins ZO-1 and JAM-A along with an associated decrease in TER levels. Enhancing Nrf2 levels prior to stimulation with CSE was associated with increased localization of ZO-1 and JAM-A levels at the cell surface and statistically significant increases in TER levels. Conclusions This is the first study to demonstrate that cigarette smoke induced sinonasal epithelial cell barrier dysfunction is reversible by Nrf2 activation. The Nrf2 antioxidant pathway may represent a potential therapeutic target for cigarette smoke associated sinonasal inflammation.

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Anuj Tharakan

Targeting ADAM10 in Cancer and Autoimmunity

Airborne Particulate Matter Induces Nonallergic Eosinophilic Sinonasal Inflammation in Mice

Air pollutant–mediated disruption of sinonasal epithelial cell barrier function is reversed by activation of the Nrf2 pathway

Reversal of cigarette smoke extract‐induced sinonasal epithelial cell barrier dysfunction through Nrf2 Activation

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