The Induction of Autoimmune Arthritis and Sex Differences in Mice Impact the Lung Inflammatory Response to Repetitive Inhalant Organic Dust Extract Exposures

Exposure to hog barn organic dust contributes to occupational lung diseases, which are mediated by inflammatory and oxidative stress pathways. Isoprostanes—a family of eicosanoids produced by oxidation of phospholipids by oxygen radicals—are biomarkers of pulmonary oxidative stress. Importantly, 8-isoprostane has been implicated as a key biomarker and mediator of oxidative stress because it is a potent pulmonary vasoconstrictor. Antioxidants found in fruits and vegetables hold promise for preventing or reducing effects of oxidative stress-related diseases including chronic bronchitis and chronic obstructive pulmonary disease (COPD). Here, we investigated 8-isoP and oxidant production by organic dust-exposed airway epithelial cells and the inhibitory effects of an extract from calyces of the sorrel plant, Hibiscus sabdariffa, on oxidant-producing pathways. Confluent cultures of normal human tracheobronchial epithelial cells were pretreated or not with 1% sorrel extract prior to 5% dust extract (DE) exposure. Following DE treatments, live cells, cell-free supernatants, or cell extracts were evaluated for the presence of 8-isoprostane, superoxide, hydrogen peroxide, nitric oxide, hydroxyl radical, peroxynitrite, and catalase activity to evaluate sorrel’s inhibitory effect on oxidative stress. The well-known radical scavenging antioxidant, N-acetyl cysteine (NAC), was used for comparisons with sorrel. DE exposure augmented the production of all radicals measured including 8-isoprostane (p value < 0.001), which could be inhibited by NAC or sorrel. Among reactive oxygen and nitrogen species generated in response to DE exposure, sorrel had no effect on H2O2 production and NAC had no significant effect on NO⋅ production. The observations reported here suggest a possible role for sorrel in preventing 8-isoprostane and oxidant-mediated stress responses in bronchial epithelial cells exposed to hog barn dust. These findings suggest a potential role for oxidative stress pathways in mediating occupational lung diseases and antioxidants within sorrel and NAC in reducing dust-mediated oxidative stress within the airways of exposed workers.

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Abstract T P324: Sex Differences in Ischemic Outcomes and Inflammatory Responses in Neonatal Stroke

Stroke ◽

10.1161/str.45.suppl_1.tp324 ◽

2014 ◽

Vol 45 (suppl_1) ◽

Author(s):

Mehwish A Mirza ◽

Kathryn Bentivegna ◽

Rodney Ritzel ◽

Kaitlyn H Hajdarovic ◽

Louise D McCullough ◽

...

Keyword(s):

Sex Differences ◽

Inflammatory Response ◽

Microglial Activation ◽

Inflammatory Responses ◽

Tissue Injury ◽

Activation Markers ◽

Male And Female ◽

Hormone Levels ◽

Time Points ◽

Cytokine Analysis

Background and Purpose: Neonatal arterial ischemic stroke (NAIS) is an important cause of motor and cognitive impairment in children. Clinically, male infants are more vulnerable to ischemic insult and suffer more long-term deficits than female infants though the mechanisms remain elusive. Inflammatory processes are fundamental in the pathophysiology of ischemia as microglial activation initiates the inflammatory response after ischemia. Recent studies report a sexual dimorphism in microglia numbers and expression of activation markers in neonatal brains under normal conditions. How these basal sex differences in microglia affect NAIS remains largely unexplored. This study investigated sex differences in stroke phenotypes and inflammation triggered by NAIS. We hypothesize that ischemia induces sex-specific tissue injury in male and female neonates, which is related to differences in microglial activation and inflammatory responses. Methods: Male and female C57BL6 mice were subjected to 60-minute Rice-Vanucci Modeling at post-natal day 10 (P10) to induce NAIS. Stroke outcomes were measured at 24 hours, 72 hours and 7 days after stroke. Microglial activation and inflammatory responses were evaluated by flow cytometry, immunohistochemistry, and multiplex cytokine analysis. Results: At 24 hours no difference in infarct volumes (total infarct: male vs. female 46.6±7.2% vs. 43.2±9.3%, n=6/gp) and in Iba-1 staining of the ischemic brain were seen between male and female neonates. However, at 72 hours female neonates exhibited significantly smaller infarct size and improved behavior outcomes compared to males (total infarct: male vs. female 43.1±9.9% vs. 27.1±8.8%, n=6/gp, p <.05). Male animals demonstrated increased microglial activation and up-regulated inflammatory response compared to females at 72 hours. This male-specific phenotype was also seen at 7 days after injury. There was no difference in hormone levels at any of the three time points after stroke. Conclusions: Acute ischemia leads to an equivalent primary brain injury in male and female P10 mice. However, infarct damage worsens in males at sub-acute time points vs. females, as does the immune response. This sex difference independent of hormone levels exists in NAIS.

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801-5 Inherent sex differences in the ischemia-induced myocardial inflammatory response of proestrus females and normal males

Journal of the American College of Cardiology ◽

10.1016/s0735-1097(04)91136-9 ◽

2004 ◽

Vol 43 (5) ◽

pp. A267

Author(s):

Meijing Wang ◽

Lauren Baker ◽

Ben Tsai ◽

Kirstan K Meldrum ◽

John W Brown ◽

...

Keyword(s):

Sex Differences ◽

Inflammatory Response ◽

Normal Males

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The effect of fluticasone on the airway inflammatory response to organic dust

European Respiratory Journal ◽

10.1183/09031936.04.00018304 ◽

2004 ◽

Vol 24 (4) ◽

pp. 587-593 ◽

Cited By ~ 14

Author(s):

A. Ek

Keyword(s):

Inflammatory Response ◽

Organic Dust

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Organic dust inhibits surfactant protein expression by reducing thyroid transcription factor-1 levels in human lung epithelial cells

Innate Immunity ◽

10.1177/1753425919827360 ◽

2019 ◽

Vol 25 (2) ◽

pp. 118-131 ◽

Cited By ~ 2

Author(s):

Kartiga Natarajan ◽

Keerthi Gangam ◽

Velmurugan Meganathan ◽

Koteswara R Gottipati ◽

Courtney Mitchell ◽

...

Keyword(s):

Epithelial Cells ◽

Respiratory Diseases ◽

Lung Epithelial Cells ◽

Organic Dust ◽

Protein Levels ◽

Thyroid Transcription Factor 1 ◽

Thyroid Transcription Factor ◽

Lung Epithelial ◽

Transcription Factor 1 ◽

Dust Extract

Exposure to organic dust is a risk factor for the development of respiratory diseases. Surfactant proteins (SP) reduce alveolar surface tension and modulate innate immune responses to control lung inflammation. Therefore, changes in SP levels could contribute to the development of organic-dust-induced respiratory diseases. Because information on the effects of organic dust on SP levels is lacking, we studied the effects of dust from a poultry farm on SP expression. We found that dust extract reduced SP-A and SP-B mRNA and protein levels in H441 human lung epithelial cells by inhibiting their promoter activities, but did not have any effect on SP-D protein levels. Dust extract also reduced SP-A and SP-C levels in primary human alveolar epithelial cells. The inhibitory effects were not due to LPS or protease activities present in dust extract or mediated via oxidative stress, but were dependent on a heat-labile factor(s). Thyroid transcription factor-1, a key transcriptional activator of SP expression, was reduced in dust-extract-treated cells, indicating that its down-regulation mediates inhibition of SP levels. Our study implies that down-regulation of SP levels by organic dust could contribute to the development of lung inflammation and respiratory diseases in humans.

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Mice Fed a High DHA Diet Exhibit Increased Resolvin D1 and Altered Inflammatory Outcomes Following a Single Inhalational Exposure to Organic Dust Extract

10.1164/ajrccm-conference.2019.199.1_meetingabstracts.a2766 ◽

2019 ◽

Author(s):

E. Dominguez ◽

A.J. Heires ◽

J. Pavlik ◽

J. Stumpff ◽

M. Baack ◽

...

Keyword(s):

Organic Dust ◽

Resolvin D1 ◽

Dust Extract

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