Abstract Background The recreational use of nitrous oxide (N2O), commonly known as laughing gas, has experienced a notable surge in popularity in recent times. According to the European Monitoring Centre for Drugs and Drug Addiction (EMCDDA), N2O is recognized as one of the most widely used psychoactive substances in Europe as of 2022. Its use also extends to Asia and America, according to literature. However, prolonged consumption of N2O has been associated with neurological complications linked to the functional inactivation of vitamin B12, disrupting One Carbon Metabolism. This study aims to explore the metabolic effects of N2O intoxication through a targeted metabolomics approach. Methods We conducted a prospective collection of clinical and biological information from 37 N2O users and 37 non-users (control group). Utilizing a targeted metabolomics method, we analyzed plasma amino acids using liquid chromatography coupled with mass spectrometry. Our statistical analysis encompassed principal component analyses, random forests, Mann-Whitney tests, Student's t-tests, and Spearman rank tests. Results Metabolomic analyses have demonstrated effective differentiation between patient groups. In comparison to controls, N2O consumers displayed reduced plasma levels of taurine, cystine, and methionine, alongside elevated plasma levels of serine and sarcosine. These findings suggest a potential influence of N2O on the cystine-methionine metabolic pathway. The decrease in methionine levels may be attributed to the decreased activity of methionine synthase (MS) due to vitamin B12 inactivation, which could partially explain the observed increase in serine levels. The rise in sarcosine levels could be explained by an increase in betaine-homocysteine S-methyltransferase (BHMT) activity. Moreover, dysfunction in cystathionine-β-synthase (CBS) or cystathionine γ-lyase (γ-CYS) may lead to the accumulation of upstream metabolites (such as serine) and a reduction in downstream metabolites (such as cysteine and taurine). Conclusions This study sheds light on potential new impacts of N2O, particularly on the plasma levels of serine, cystine, and taurine, indicating a potential modulation of enzymes involved in the conversion of homocysteine to taurine (CBS and/or γ-CYS). Additional investigations are required in a larger group of patients, which corresponds to the aims of the EFLM Task & Finish Group: Biomarkers of Diagnosis and Follow-up of Nitrous Oxide Abuse: https://www.eflm.eu/site/who-we-are/committee/science-committee/fu/tfg-biomarkers-of-diagnosis
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