In Vitro and in Silico Competitive Binding of Brominated Polyphenyl Ether Contaminants with Human and Gull Thyroid Hormone Transport Proteins
Permanent link
https://hdl.handle.net/10037/15155Date
2017-12-28Type
Journal articleTidsskriftartikkel
Peer reviewed
Author
Hill, Katie L.; Mortensen, Åse-Karen; Teclechiel, Daniel; Willmore, William G.; Sylte, Ingebrigt; Jenssen, Bjørn Munro; Letcher, Robert JamesAbstract
Tetradecabromo-1,4-diphenoxybenzene
(TeDB-DiPhOBz) is a highly brominated additive flame
retardant (FR). Debrominated photodegradates of TeDBDiPhOBz are hydroxylated in vitro in liver microsomal assays
based on herring gulls (Larus argentatus), including one
metabolite identified as 4″-OH-2,2′,2″,4-tetrabromo-DiPhOBz. Chemically related methoxylated tetra- to hexabromo-DiPhOBzs are known contaminants in herring gulls.
Collectively, nothing is currently known about biological
effects of these polybrominated (PB) DiPhOBz-based
compounds. The present study investigated the potential
thyroidogenicity of 2,2′,2″,4-tetrabromo-(TB)-DiPhOBz along
with its para-methoxy (MeO)- and hydroxy-(OH)-analogues, using an in vitro competitive protein binding assay with the human
thyroid hormone (TH) transport proteins transthyretin (hTTR) and albumin (hALB). This model para-OH-TB-DiPhOBz was
found to be capable of competing with thyroxine (T4) for the binding site on hTTR and hALB. In silico analyses were also
conducted using a 3D homology model for gull TTR, to predict whether these TB-DiPhOBz-based compounds may also act as
ligands for an avian TH transport protein despite evolutionary differences with hTTR. This analysis found all three TB-DiPhOBz
analogues to be potential ligands for gull TTR and have similar binding efficacies to THs. Results indicate structure-related
differences in binding affinities of these ligands and suggest there is potential for these contaminants to interact with both
mammalian and avian thyroid function.
Description
Accepted manuscript version. Published version available at https://doi.org/10.1021/acs.est.7b04617.