Multi- and trans-generational disturbances of perfluorobutane sulfonate and perfluorohexane sulfonate on lipid metabolism in Caenorhabditis elegans.

Short-chained perfluorobutane sulfonate (PFBS, four-carbon) and perfluorohexane sulfonate (PFHxS, six-carbon) are widely employed to substitute long-chained per- and poly-fluoroalkyl substances (PFASs). Recent studies showed the potential persistence of PFBS and PFHxS, and also reported their correlation with obesity. However, the long-term outcome and underlying mechanisms remained poorly understood. Presently, the effects of PFBS and PFHxS were studied on C. elegans with multi- and trans -generational experiments. The multi-generational effects were measured in continuous four generational exposure (i.e., F1 to F4). Results showed that PFBS did not stimulate the fat content in F1 but in F4 with continuous but different disturbances on the lipid metabolism and the insulin and insulin-like (IIS) pathway. PFHxS stimulated the fat content in F1 and F4 with similar disturbances on the lipid metabolism and IIS pathway. The trans -generational results showed that the effects of PFBS and PFHxS on the lipid metabolism and IIS pathway were not totally recovered in the offspring of F1 (i.e., T1-T3) and F4 (i.e., T1′-T3′) which were not continuously exposed. PFHxS showed a common pattern to up-regulate daf-7 in both multi- and trans -generational effects. The long-term consequences of the short-chained PFASs substitutes should be concerned and epigenetic regulations should be considered in future mechanism studies. [Display omitted] • PFBS stimulated the fat content not in F1 but in F4 generation. • PFBS disturbed lipid metabolism and IIS pathway differently from F1 to F4. • PFHS stimulated the fat content in F1 and F4 generation. • PFHS had similar disturbances on lipid metabolism and IIS pathway from F1 and F4. • PFHS commonly up-regulated daf-7 in both multi- and trans -generational effects. [ABSTRACT FROM AUTHOR]