Adrenal-derived stress hormones modulate ozone-induced lung injury and inflammation

Ozone-induced systemic effects are modulated through activation of the neuro-hormonal stress response pathway. Adrenal demedullation (DEMED) or bilateral total adrenalectomy (ADREX) inhibits systemic and pulmonary effects of acute ozone exposure. To understand the influence of adrenal-derived stress...

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Published in:Toxicology and applied pharmacology 2017-08, Vol.329, p.249-258
Main Authors: Henriquez, Andres, House, John, Miller, Desinia B., Snow, Samantha J., Fisher, Anna, Ren, Hongzu, Schladweiler, Mette C., Ledbetter, Allen D., Wright, Fred, Kodavanti, Urmila P.
Format: Article
Language:English
Subjects:
Adrenal Cortex - metabolism
Adrenal Cortex - surgery
Adrenal Medulla - metabolism
Adrenal Medulla - surgery
Adrenalectomy
Animals
Corticosterone - blood
Cytokines - metabolism
Disease Models, Animal
Epinephrine - blood
Gene Expression Regulation
Inflammation Mediators - metabolism
Lung
Lung - metabolism
Lung - pathology
Lung Injury - blood
Lung Injury - chemically induced
Lung Injury - genetics
Lung Injury - prevention & control
Male
Neutrophils - metabolism
Oxidative Stress
Ozone
Pneumonia - blood
Pneumonia - chemically induced
Pneumonia - genetics
Pneumonia - pathology
Pneumonia - prevention & control
Rats, Inbred WKY
RNA, Messenger - genetics
RNA, Messenger - metabolism
RNAseq
Signal Transduction
Stress hormones
Stress, Physiological - genetics
Transcription, Genetic
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Summary:Ozone-induced systemic effects are modulated through activation of the neuro-hormonal stress response pathway. Adrenal demedullation (DEMED) or bilateral total adrenalectomy (ADREX) inhibits systemic and pulmonary effects of acute ozone exposure. To understand the influence of adrenal-derived stress hormones in mediating ozone-induced lung injury/inflammation, we assessed global gene expression (mRNA sequencing) and selected proteins in lung tissues from male Wistar-Kyoto rats that underwent DEMED, ADREX, or sham surgery (SHAM) prior to their exposure to air or ozone (1ppm), 4h/day for 1 or 2days. Ozone exposure significantly changed the expression of over 2300 genes in lungs of SHAM rats, and these changes were markedly reduced in DEMED and ADREX rats. SHAM surgery but not DEMED or ADREX resulted in activation of multiple ozone-responsive pathways, including glucocorticoid, acute phase response, NRF2, and PI3K-AKT. Predicted targets from sequencing data showed a similarity between transcriptional changes induced by ozone and adrenergic and steroidal modulation of effects in SHAM but not ADREX rats. Ozone-induced increases in lung Il6 in SHAM rats coincided with neutrophilic inflammation, but were diminished in DEMED and ADREX rats. Although ozone exposure in SHAM rats did not significantly alter mRNA expression of Ifnγ and Il-4, the IL-4 protein and ratio of IL-4 to IFNγ (IL-4/IFNγ) proteins increased suggesting a tendency for a Th2 response. This did not occur in ADREX and DEMED rats. We demonstrate that ozone-induced lung injury and neutrophilic inflammation require the presence of circulating epinephrine and corticosterone, which transcriptionally regulates signaling mechanisms involved in this response. •Ozone exposure changed transcription of over 2300 genes in the lung.•Bilateral adrenalectomy or demedullation diminished ozone transcriptional effects.•Singling pathways involved in lung injury and inflammation are activated by ozone.•Adrenalectomy or demedullation diminished ozone effects on most pathways.•Ozone-induced gene changes predicted the role of steroidal and adrenergic signaling.
ISSN:0041-008X
1096-0333
DOI:10.1016/j.taap.2017.06.009