Abstract
Tris(2-chloroethyl) phosphate (TCEP) is one of the organophosphorus flame retardants (OPFRs) used in consumer commodities and have been detected in human body fluids. Research on TCEP-induced transcriptomic alterations and toxicological consequences in liver cells is still lacking. Herein, human hepatocellular (HepG2) cells were treated with 100, 200, and 400 μM TCEP for 3 days to quantify hepatotoxicity by MTT, NRU, and comet assays. Apoptosis, mitochondrial membrane potential (ΔΨm), oxidative stress, and Ca2+ influx were measured by flow cytometry. A qPCR array was employed for transcriptomic analysis. MTT and NRU data showed 70.92% and 75.57% reduction in cell survival at 400 μM. In addition, 20-fold greater DNA damage was recorded at 400 μM. Cell cycle data showed 65.96% subG1 apoptotic peak in 400 μM treated cells. An elevated level of oxidative stress, esterase, Ca2+ influx, and ΔΨm dysfunction were recorded in TCEP-treated cells. Out of 84 genes, the qPCR array showed upregulation of 17 genes and downregulation of 10 key genes belonging to human cancer pathways. Our study endorses the fact that TCEP possesses hepatotoxic potential at higher concentrations and prolonged exposure. Hence, TCEP may act as a cancer-inducing entity by provoking the gene network of human cancer pathways.
Highlights
Tris(2-chloroethyl) phosphate (TCEP) is one of the organophosphorus flame retardants (OPFRs) widely used as plasticizer, glue, or lacquer for the manufacturing of varnish, plastics, floor polish, foams, and furniture [1]
HepG2 cells exposed to TCEP showed decreased survival in the NRU assay, further validating the fact that TCEP affected the architecture of lysosomal membranes to influence the accumulation Neutral red (NR) dye in lysosomes
Comet assay data showed that TCEP-exposed HepG2 cells exhibited an increase in DNA damage visualized as a comet tail
Summary
Tris(2-chloroethyl) phosphate (TCEP) is one of the organophosphorus flame retardants (OPFRs) widely used as plasticizer, glue, or lacquer for the manufacturing of varnish, plastics, floor polish, foams, and furniture [1]. Widespread application of TCEP in consumer commodities has verified its abundance in the environment, residential areas, as well as indoor household settings. TCEP has been predominantly reported within the indoor environment, such as houses, workplaces, and student dormitories, in Germany and China [2,3]. Dust samples collected from car cabins in Japan showed 71 μg g−1 of TCEP. Humans are at risk of TCEP exposure by inhalation and ingestion of dust from contaminated car cabins or the air [5]
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