A metabolomic analysis on the toxicological effects of the universal solvent, dimethyl sulfoxide

Kumar, Sazal; Islam, Rafiquel; O'Connor, Wayne; Melvin, Steve D.; Leusch, Frederic D. L.; Luengen, Allison; MacFarlane, Geoff R.

Title: A metabolomic analysis on the toxicological effects of the universal solvent, dimethyl sulfoxide
Creator: Kumar, Sazal; Islam, Rafiquel; O'Connor, Wayne; Melvin, Steve D.; Leusch, Frederic D. L.; Luengen, Allison; MacFarlane, Geoff R.
Relation: ARC.LP190100510 https://purl.org/au-research/grants/arc/LP190100510
Relation: Comparative Biochemistry and Physiology, Part C: Toxicology & Pharmacology Vol. 287, Issue January 2025, no. 110073
Publisher Link: http://dx.doi.org/10.1016/j.cbpc.2024.110073
Publisher: Elsevier
Resource Type: journal article
Date: 2025
Description: Dimethyl sulfoxide (DMSO) is a solvent used to dissolve a variety of organic compounds. It is presumed to be non-toxic at concentrations below 1 % v/v, although several studies have demonstrated that low dose DMSO exposure can alter cellular biochemistry. This study evaluated the toxicity of DMSO at 0.0002 % v/v to the Sydney Rock oyster, Saccostrea glomerata, following 7d of exposure. Metabolites were chosen as the toxicity endpoints because they can be used as energy sources and counteract contaminant-induced stress. Relative to seawater controls, exposure to DMSO caused a 74 % significant change in metabolites in the female digestive gland, including decreases in most amino acids, carbohydrates, nicotinamides, and lipids. The female gonad showed a 43 % significant change in metabolites, with decreases in amino acids and carbohydrates, but increases in lipids. The male digestive gland showed a 29 % significant change in metabolites, with increases in lipids. The decline in metabolites in the female digestive gland, but not in the male digestive gland, may be due to their differential metabolic demands. Furthermore, pathway impact analysis revealed that DMSO exposure altered energy metabolism, disturbed osmotic balance, and induced oxidative stress in oysters. Because the effects of DMSO are not uniform across gender and tissue, use of DMSO as a solvent will confound metabolomic experimental results when comparisons among sexes and/or tissues are integral to the experimental design. There is a risk of incomplete dissolution of contaminants unless carrier solvents are used. Therefore, in practice, a solvent control along with a water control is recommended for experimentation.
Subject: oysters; matabolomics; carrier solvent; biosynthesis; dimethyl sulfoxide; SDG 14; Sustainable Development Goal
Identifier: http://hdl.handle.net/1959.13/1516592
Identifier: uon:57006
Identifier: ISSN:1532-0456
Language: eng
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