Abstract
Propylene glycol (PG) is widely used in the foods, pharmaceuticals, oil industry, animal feed, cosmetics and other industries. Because of the existence of a chiral carbon center, PG forms R (Rectus)- and S (Sinister)-enantiomers. Currently, the toxicity study of its R-, S-enantiomers is still very scarce. In this study, we have assessed the developmental toxicity and neurotoxicity of the R-, S-, and RS-PG enantiomers in zebrafish larvae. We found that exposure to R-, S-, and RS-PG enantiomers did not significantly affect the basic developmental endpoints of embryos or larvae (i.e., embryonic movement, hatching, mortality, malformation, heartbeat, body length), indicating that R-, S-, and RS-PG exposures did not exhibit the basic developmental toxicity in zebrafish larvae. The toxicity of three enantiomers was lower than that of ethanol, and there was no significant difference between them. However, R-, S-, and RS-PG exposures with high doses could significantly change the eye diameter and locomotor activity of larval zebrafish, indicating that R-, S-, and RS-PG enantiomers of high doses could potentially exhibit the neurotoxicity and ocular developmental toxicity in zebrafish larvae. Therefore, the potential neurotoxicity and ocular developmental toxicity of R-, S-, and RS-PG enantiomers for infants and toddlers should be considered.
Highlights
Propylene glycol (PG) is a colorless, tasteless, water-soluble liquid, which known as 1,2-propanediol (Center for the Evaluation of Risks to Human Reproduction)
The relative transcripts of sixteen genes involved in GABA receptors (GABARs) and three genes associated with calcium/sodium ion conduction exhibited significant dysregulation compared with the blank control
These results indicate that R, S, and RS-PG enantiomers of high doses can exhibit the neurotoxicity and ocular developmental toxicity in zebrafish larvae
Summary
Propylene glycol (PG) is a colorless, tasteless, water-soluble liquid, which known as 1,2-propanediol (Center for the Evaluation of Risks to Human Reproduction). It belongs to the group of diols, which is a small aliphatic organic compound. As an important and safe intermediate, PG has been used in several industrial areas (Ferreira et al, 2017). It is widely used in the foods, pharmaceuticals, oil industry, animal feed, cosmetics and other industries (Zaripov et al, 2021). PG has numerous other applications in industry, including as a humectant, as a moisturizer, as a nontoxic antifreeze, and as a carrier in fragrance oils (Gaworski et al, 2010; Binks et al, 2013)
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