Sex-specific respiratory and systemic endocrine effects of acute acrolein and trichloroethylene inhalation

Acrolein and trichloroethylene (TCE) are priority hazardous air pollutants due to environmental prevalence and adverse health effects; however, neuroendocrine stress-related systemic effects are not characterized. Comparing acrolein, an airway irritant, and TCE with low irritancy, we hypothesized th...

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Veröffentlicht in:Toxicology letters 2023-06, Vol.382 (C), p.22-32
Hauptverfasser: Alewel, Devin I., Jackson, Thomas W., Vance, Samuel A., Schladweiler, Mette C., Evansky, Paul A., Henriquez, Andres R., Grindstaff, Rachel, Gavett, Stephen H., Kodavanti, Urmila P.
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Sprache:eng
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Zusammenfassung:Acrolein and trichloroethylene (TCE) are priority hazardous air pollutants due to environmental prevalence and adverse health effects; however, neuroendocrine stress-related systemic effects are not characterized. Comparing acrolein, an airway irritant, and TCE with low irritancy, we hypothesized that airway injury would be linked to neuroendocrine-mediated systemic alterations. Male and female Wistar-Kyoto rats were exposed nose-only to air, acrolein or TCE in incremental concentrations over 30 min, followed by 3.5-hr exposure to the highest concentration (acrolein - 0.0, 0.1, 0.316, 1, 3.16 ppm; TCE - 0.0, 3.16, 10, 31.6, 100 ppm). Real-time head-out plethysmography revealed acrolein decreased minute volume and increased inspiratory-time (males>females), while TCE reduced tidal-volume. Acrolein, but not TCE, inhalation increased nasal-lavage-fluid protein, lactate-dehydrogenase activity, and inflammatory cell influx (males>females). Neither acrolein nor TCE increased bronchoalveolar-lavage-fluid injury markers, although macrophages and neutrophils increased in acrolein-exposed males and females. Systemic neuroendocrine stress response assessment indicated acrolein, but not TCE, increased circulating adrenocorticotrophic hormone, and consequently corticosterone, and caused lymphopenia, but only in males. Acrolein also reduced circulating thyroid-stimulating hormone, prolactin, and testosterone in males. In conclusion, acute acrolein inhalation resulted in sex-specific upper respiratory irritation/inflammation and systemic neuroendocrine alterations linked to hypothalamic-pituitary-adrenal axes activation, which is critical in mediating extra-respiratory effects. •Acrolein but not TCE elicits acute respiratory irritancy and systemic stress.•Acrolein-induced respiratory injury prompts sex-specific SAM/HPA axes activation.•Acute acrolein inhalation increases HPA and decreases HPT and HPG neurohormones.•Integrating neuroendocrine assessment could inform etiology of HAPs stress effects.
ISSN:0378-4274
1879-3169
DOI:10.1016/j.toxlet.2023.05.005