Abstract
Isothiazolinone (IT) biocides are potent antibacterial substances commonly used as preservatives or disinfectants, and 2-n-Octyl-4-isothiazolin-3-one (OIT; octhilinone) is a common IT biocide that is present in leather products, glue, paints, and cleaning products. Although humans are exposed to OIT through personal and industrial use, the potentially deleterious effects of OIT on human health are still unknown. To investigate the effects of OIT on the vascular system, which is continuously exposed to xenobiotics through systemic circulation, we treated brain endothelial cells with OIT. OIT treatment significantly activated caspase-3-mediated apoptosis and reduced the bioenergetic function of mitochondria in a bEnd.3 cell-based in vitro blood–brain barrier (BBB) model. Interestingly, OIT significantly altered the thiol redox status, as evidenced by reduced glutathione levels and protein S-nitrosylation. The endothelial barrier function of bEnd.3 cells was significantly impaired by OIT treatment. OIT affected mitochondrial dynamics through mitophagy and altered mitochondrial morphology in bEnd.3 cells. N-acetyl cysteine significantly reversed the effects of OIT on the metabolic capacity and endothelial function of bEnd.3 cells. Taken together, we demonstrated that the alteration of the thiol redox status and mitochondrial damage contributed to OIT-induced BBB dysfunction, and we hope that our findings will improve our understanding of the potential hazardous health effects of IT biocides.
Highlights
Isothiazolinone (IT) biocides are antibacterial substances commonly used as preservatives or disinfectants in commercial products [1,2]
We examined the OIT-induced phosphatidylserine (PS) exposure and plasma membrane leakage, which are phenomena observed in apoptosis and necrosis [36]
Since mitochondrial quality control systems are crucial for maintaining mitochondrial function [46], we investigated the effect of OIT on mitochondria-specific autophagy, mitophagy, which is involved in the specific removal of impaired mitochondria
Summary
Isothiazolinone (IT) biocides are antibacterial substances commonly used as preservatives or disinfectants in commercial products [1,2]. The use of antibacterial substances is increasing globally, the systemic effects of IT biocides on human health are poorly understood [3,4,5,6]. These biocides can be absorbed orally and dermally during personal and industrial use [7,8,9] and subsequently circulate in the blood posing a human health risk [2,10,11]. Among several forms of IT biocides, 2-n-octyl-4-isothiazolin-3-one (OIT; octhilinone) is commonly used in leather and textile products as a preservative. OIT shows high skin-penetration potency [12], suggesting its potential for systemic circulation following dermal exposure
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