Schwann cells exposed to articaine display distinct toxic pathways compared to lidocaine

Articaine (ATC) has emerged as one of the most popular local anesthetics (LA) in dental clinics, despite its relatively recent introduction to the market. As a member of the amino-amide class of LA, ATC possesses unique features, including a thiophene ring and an ester group, which allow for its use...

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Published in:Chemico-biological interactions 2025-01, Vol.406, p.111315, Article 111315
Main Authors: Rodrigues da Silva, Gustavo H., Mendes, Luís F., Geronimo, Gabriela, de Moura, Ludmilla D., Ruas, Juliana S., Castilho, Roger F., Cordeiro, Helon G., Ferreira, Carmen V., de Paula, Eneida, Duarte, Iola F.
Format: Article
Language:English
Subjects:
Articaine (ATC)
ER stress
Glycolytic activity
Lidocaine (LDC)
Mitochondrial bioenergetics
NMR metabolomics
Schwann cells
Seahorse
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Summary:Articaine (ATC) has emerged as one of the most popular local anesthetics (LA) in dental clinics, despite its relatively recent introduction to the market. As a member of the amino-amide class of LA, ATC possesses unique features, including a thiophene ring and an ester group, which allow for its use at higher clinical concentrations. However, reports have indicated a higher incidence of paresthesia associated with ATC, though the underlying cause of this effect remains unclear. To investigate this further, we conducted an extracellular metabolic flux analysis and an NMR-based metabolomics study of ATC effects on Schwann cells - a type of glial cell found in the peripheral nervous system - in comparison to lidocaine (LDC), the “gold standard" LA in dentistry. The results showed that ATC had a more significant impact on Schwann cell oxygen consumption compared to LDC. Metabolomics profiling of Schwann cells revealed distinct metabolic alterations between the two treatments. Notably, ATC triggered elevated intracellular levels of various amino acids, including leucine, isoleucine, valine, phenylalanine, methionine, histidine, tyrosine, and glycine, which were not observed in LDC-treated Schwann cells. This was consistent with signs of endoplasmic reticulum stress and apoptosis in ATC-treated cells, as detected by protein expression analysis. These findings offer insights into the metabolic and cellular responses elicited by the two anesthetics in Schwann cells, that may help explain the differential toxicity and higher incidence of paresthesia associated with ATC. •Articaine induces more pronounced bioenergetic effects on Schwann cells than Lidocaine.•Articaine triggers ER stress and apoptosis in Schwann cells.•Aticaine toxicity may contribute to paresthesia risk in dental anesthesia.
ISSN:0009-2797
1872-7786
1872-7786
DOI:10.1016/j.cbi.2024.111315