Antimicrobial Cetylpyridinium Chloride Causes Functional Inhibition of Mitochondria As Potently As Canonical Mitotoxicants, Nanostructural Disruption of Mitochondria, and Mitochondrial Ca Efflux in Living Rodent and Primary Human Cells

Overview

Journal Food Chem Toxicol

Specialties Nutritional Sciences
Toxicology

Date 2024 Feb 26

PMID 38408634

Authors

Sasha R Weller

John E Burnell

Brandon M Aho

Bright Obeng

Emily L Ledue

Juyoung K Shim

Samuel T Hess

Julie A Gosse

Affiliations

Soon will be listed here.

Abstract

People are exposed to high concentrations of antibacterial agent cetylpyridinium chloride (CPC) via food and personal care products, despite little published information regarding CPC effects on eukaryotes. Here, we show that low-micromolar CPC exposure, which does not cause cell death, inhibits mitochondrial ATP production in primary human keratinocytes, mouse NIH-3T3 fibroblasts, and rat RBL-2H3 immune mast cells. ATP inhibition via CPC (EC 1.7 μM) is nearly as potent as that caused by canonical mitotoxicant CCCP (EC 1.2 μM). CPC inhibition of oxygen consumption rate (OCR) tracks with that of ATP: OCR is halved due to 1.75 μM CPC in RBL-2H3 cells and 1.25 μM in primary human keratinocytes. Mitochondrial [Ca] changes can cause mitochondrial dysfunction. Here we show that CPC causes mitochondrial Ca efflux from mast cells via an ATP-inhibition mechanism. Using super-resolution microscopy (fluorescence photoactivation localization) in live cells, we have discovered that CPC causes mitochondrial nanostructural defects in live cells within 60 min, including the formation of spherical structures with donut-like cross section. This work reveals CPC as a mitotoxicant despite widespread use, highlighting the importance of further research into its toxicological safety.

Citing Articles

Anti-microbial cetylpyridinium chloride suppresses mast cell function by targeting tyrosine phosphorylation of Syk kinase.

Obeng B, Bennett L, West B, Wagner D, Fleming P, Tasker M J Immunotoxicol. 2025; 21(1):2443397.

PMID: 39815634 PMC: 11827644. DOI: 10.1080/1547691X.2024.2443397.

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