Litcius/Paper detail

Investigating the Mechanism of Neurotoxic Effects of PFAS in Differentiated Neuronal Cells through Transcriptomics and Lipidomics Analysis

Logan Running, Judith R. Cristobal, Charikleia Karageorgiou, Michelle Camdzic, John Michael N. Aguilar, Ömer Gökçümen, Diana S. Aga, G. Ekin Atilla‐Gokcumen

2024ACS Chemical Neuroscience19 citationsDOI

Abstract

Per- and polyfluorinated alkyl substances (PFAS) are pervasive environmental contaminants that bioaccumulate in tissues and pose risks to human health. Increasing evidence links PFAS to neurodegenerative and behavioral disorders, yet the underlying mechanisms of their effects on neuronal function remain largely unexplored. In this study, we utilized SH-SY5Y neuroblastoma cells, differentiated into neuronal-like cells, to investigate the impact of six PFAS compounds─perfluorooctanoic acid (PFOA), perfluorooctanesulfonic acid (PFOS), perfluorodecanoic acid (PFDA), perfluorodecanesulfonic acid (PFDS), 8:2 fluorotelomer sulfonate (8:2 FTS), and 8:2 fluorotelomer alcohol (8:2 FTOH)─on neuronal health. Following a 30 μM exposure for 24 h, PFAS accumulation ranged from 40–6500 ng/mg of protein. Transcriptomic analysis revealed 721 differentially expressed genes (DEGs) across treatments ( p adj < 0.05), with 11 DEGs shared among all PFAS exposures, indicating potential biomarkers for neuronal PFAS toxicity. PFOA-treated cells showed downregulation of genes involved in synaptic growth and neural function, while PFOS, PFDS, 8:2 FTS, and 8:2 FTOH exposures resulted in the upregulation of genes related to hypoxia response and amino acid metabolism. Lipidomic profiling further demonstrated significant increases in fatty acid levels with PFDA, PFDS, and 8:2 FTS and depletion of triacylglycerols with 8:2 FTOH treatments. These findings suggest that the neurotoxic effects of PFAS are structurally dependent, offering insights into the molecular processes that may drive PFAS-induced neuronal dysfunction.

Topics & Concepts

Perfluorooctanoic acidTranscriptomeDownregulation and upregulationLipidomicsPerfluorooctaneChemistryNeurotoxinNeurotoxicityBiochemistryBioaccumulationToxicityPharmacologyBiologyEnvironmental chemistryGeneGene expressionSulfonateOrganic chemistrySodiumPer- and polyfluoroalkyl substances researchToxic Organic Pollutants ImpactAir Quality and Health Impacts