Intratracheal Instillation of Respirable Particulate Matter Elicits Neuroendocrine Activation

Overview

Journal Inhal Toxicol

Publisher Informa Healthcare

Specialty Toxicology

Date 2022 Jul 22

PMID 35867597

Authors

Devin I Alewel

Andres R Henriquez

Mette C Schladweiler

Rachel Grindstaff

Anna A Fisher

Samantha J Snow

Thomas W Jackson

Urmila P Kodavanti

Affiliations

Soon will be listed here.

Abstract

Objective: Inhalation of ozone activates central sympathetic-adrenal-medullary and hypothalamic-pituitary-adrenal stress axes. While airway neural networks are known to communicate noxious stimuli to higher brain centers, it is not known to what extent responses generated from pulmonary airways contribute to neuroendocrine activation.

Materials And Methods: Unlike inhalational exposures that involve the entire respiratory tract, we employed intratracheal (IT) instillations to expose only pulmonary airways to either soluble metal-rich residual oil fly ash (ROFA) or compressor-generated diesel exhaust particles (C-DEP). Male Wistar-Kyoto rats (12-13 weeks) were IT instilled with either saline, C-DEP or ROFA (5 mg/kg) and necropsied at 4 or 24 hr to assess temporal effects.

Results: IT-instillation of particulate matter (PM) induced hyperglycemia as early as 30-min and glucose intolerance when measured at 2 hr post-exposure. We observed PM- and time-specific effects on markers of pulmonary injury/inflammation (ROFA>C-DEP; 24 hr>4hr) as corroborated by increases in lavage fluid injury markers, neutrophils (ROFA>C-DEP), and lymphocytes (ROFA). Increases in lavage fluid pro-inflammatory cytokines differed between C-DEP and ROFA in that C-DEP caused larger increases in TNF-α whereas ROFA caused larger increases in IL-6. No increases in circulating cytokines occurred. At 4 hr, PM impacts on neuroendocrine activation were observed through depletion of circulating leukocytes, increases in adrenaline (ROFA), and decreases in thyroid-stimulating-hormone, T, prolactin, luteinizing-hormone, and testosterone. C-DEP and ROFA both increased lung expression of genes involved in acute stress and inflammatory processes. Moreover, small increases occurred in hypothalamic , a glucocorticoid-sensitive gene.

Conclusion: Respiratory alterations differed between C-DEP and ROFA, with ROFA inducing greater overall lung injury/inflammation; however, both PM induced a similar degree of neuroendocrine activation. These findings demonstrate neuroendocrine activation after pulmonary-only PM exposure, and suggest the involvement of pituitary- and adrenal-derived hormones.

Citing Articles

Differential transcriptomic alterations in nasal versus lung tissue of acrolein-exposed rats.

Alewel D, Jackson T, Rentschler K, Schladweiler M, Astriab-Fisher A, Gavett S Front Toxicol. 2023; 5:1280230.

PMID: 38090360 PMC: 10712669. DOI: 10.3389/ftox.2023.1280230.

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

Alewel D, Jackson T, Vance S, Schladweiler M, Evansky P, Henriquez A Toxicol Lett. 2023; 382:22-32.

PMID: 37201588 PMC: 10585336. DOI: 10.1016/j.toxlet.2023.05.005.

Air Pollutant impacts on the brain and neuroendocrine system with implications for peripheral organs: a perspective.

Kodavanti U, Jackson T, Henriquez A, J Snow S, Alewel D, Costa D Inhal Toxicol. 2023; 35(3-4):109-126.

PMID: 36749208 PMC: 11792093. DOI: 10.1080/08958378.2023.2172486.

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