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Title: Preliminary Research: Application of Non-Invasive Measure of Cytochrome c Oxidase Redox States and Mitochondrial Function in a Porcine Model of Carbon Monoxide Poisoning.

Authors: Lewis, Alistair; Forti, Rodrigo M; Alomaja, Oladunni; Mesaros, Clementina; Piel, Sarah; Greenwood, John C; Talebi, Fatima M; Mavroudis, Constantine D; Kelly, Matthew; Kao, Shih-Han; Shofer, Frances S; Ehinger, Johannes K; Kilbaugh, Todd J; Baker, Wesley B; Jang, David H

Published In J Med Toxicol, (2022 Jul)

Abstract: INTRODUCTION: Carbon monoxide (CO) is a colorless and odorless gas that is a leading cause of environmental poisoning in the USA with substantial mortality and morbidity. The mechanism of CO poisoning is complex and includes hypoxia, inflammation, and leukocyte sequestration in brain microvessel segments leading to increased reactive oxygen species. Another important pathway is the effects of CO on the mitochondria, specifically at cytochrome c oxidase, also known as Complex IV (CIV). The purpose of this ongoing study is the preliminary development of a porcine model of CO poisoning for investigation of alterations in brain mitochondrial physiology. METHODS: Four pigs (10 kg) were divided into two groups: Sham (n = 2) and CO (n = 2). Administration of a dose of CO at 2000 ppm to the CO group over 120 minutes followed by 30 minutes of re-oxygenation at room air. The control group received room air for 150 minutes. Non-invasive optical monitoring was used to measure CIV redox states. Cerebral microdialysis was performed to obtain semi real-time measurements of cerebral metabolic status. At the end of the exposure, fresh brain tissue (cortical and hippocampal) was immediately harvested to measure mitochondrial respiration. Snap frozen cortical tissue was also used for ATP concentrations and western blotting. RESULTS: While a preliminary ongoing study, animals in the CO group showed possible early decreases in brain mitochondrial respiration, citrate synthase density, CIV redox changes measured with optics, and an increase in the lactate-to-pyruvate ratio. CONCLUSIONS: There is a possible observable phenotype highlighting the important role of mitochondrial function in the injury of CO poisoning.

PubMed ID: 35482181 Exiting the NIEHS site

MeSH Terms: Animals; Carbon Monoxide Poisoning*/metabolism; Carbon Monoxide/metabolism; Electron Transport Complex IV/metabolism; Humans; Mitochondria/metabolism; Oxidation-Reduction; Swine

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Last Reviewed: October 02, 2024