posted on 2019-03-21, 00:00authored byMarkus Brinkmann, Bogdan Barz, Danielle Carrière, Mirna Velki, Kilian Smith, Henriette Meyer-Alert, Yvonne Müller, Beat Thalmann, Kerstin Bluhm, Sabrina Schiwy, Simone Hotz, Helena Salowsky, Andreas Tiehm, Markus Hecker, Henner Hollert
Hydroxylation of polyaromatic compounds
through cytochromes P450
(CYPs) is known to result in potentially estrogenic transformation
products. Recently, there has been an increasing awareness of the
importance of alternative pathways such as aldehyde oxidases (AOX)
or N-methyltransferases (NMT) in bioactivation of
small molecules, particularly N-heterocycles. Therefore, this study
investigated the biotransformation and activity of methylated quinolines,
a class of environmentally relevant N-heterocycles that are no native
ligands of the estrogen receptor (ER), in the estrogen-responsive
cell line ERα CALUX. We found that this widely used cell line
overexpresses AOXs and NMTs while having low expression of CYP enzymes.
Exposure of ERα CALUX cells to quinolines resulted in estrogenic
effects, which could be mitigated using an inhibitor of AOX/NMTs.
No such mitigation occurred after coexposure to a CYP1A inhibitor.
A number of N-methylated but no hydroxylated transformation
products were detected using liquid chromatography–mass spectrometry,
which indicated that biotransformations to estrogenic metabolites
were likely catalyzed by NMTs. Compared to the natural ER ligand 17β-estradiol,
the products formed during the metabolization of quinolines were weak
to moderate agonists of the human ERα. Our findings have potential
implications for the risk assessment of these compounds and indicate
that care must be taken when using in vitro estrogenicity
assays, for example, ERα CALUX, for the characterization of
N-heterocycles or environmental samples that may contain them.