Relationships between polybrominated diphenyl ethers and transcription and activity of type 1 deiodinase in a gull highly exposed to flame retardants

Deca‐brominated diphenyl ether (deca‐BDE), composed mainly of BDE‐209, is subject to usage restrictions in North America and Europe, although global action on its continued use has yet to be undertaken. Relatively large concentrations of polybrominated diphenyl ethers (PBDEs), especially BDE‐209 and its higher brominated degradation products, have been reported in tissues of ring‐billed gulls ( Larus delawarensis ) breeding near the densely populated city of Montreal (QC, Canada). There is limited knowledge of BDE‐209 biotransformation and toxicokinetics in birds. Deiodinases, a class of enzymes catalyzing thyroid hormone conversion, have been suggested to be involved in BDE‐209 debromination in birds. The objective of the present study was to investigate the relationships between PBDE concentrations and type 1 deiodinase (D1) transcription and in vitro activity (microsomes) in livers of Montreal‐breeding ring‐billed gulls. The ring‐billed gulls exhibiting the highest D1 activity in liver microsomes accumulated the greatest liver concentrations of hepta‐BDEs and octa‐BDEs. Activity of D1 was inversely related to concentration ratios of BDE‐209 to octa‐BDEs and ∑hepta‐BDE. An even stronger inverse relation was found between D1 activity and BDE‐209 to ∑nona + octa + hepta‐BDE concentration ratios. The messenger ribonucleic acid (mRNA) levels of D1 in gull livers were inversely associated with liver concentrations of ∑octa‐BDE. The present study's findings suggest that D1 is potentially involved in BDE‐209 biotransformation and accumulation of higher brominated PBDEs in livers of ring‐billed gulls. Environ Toxicol Chem 2016;35:2215–2222. © 2016 SETAC