LogD-based modelling and ΔlogD as a proxy for pH-dependent action of ionizable chemicals reveal the relevance of both neutral and ionic species for fish embryotoxicity and possess great potential for practical application in the regulation of chemicals

Heinz-R Köhler; Thomas Gräff; Mona Schweizer; Jasmin Blumhardt; Jasmin Burkhardt; Lisa Ehmann; Janine Hebel; Christoph Heid; Lone Kundy; Julia Kuttler; Miroslava Malusova; Friederike-Marie Moroff; Anne-Frida Schlösinger; Pia Schulze-Berge; Eleni I Panagopoulou; Dimitrios E Damalas; Nikolaos S Thomaidis; Rita Triebskorn; Dirk Maletzki; Ute Kühnen; Peter C von der Ohe

doi:10.1016/j.watres.2023.119864

LogD-based modelling and ΔlogD as a proxy for pH-dependent action of ionizable chemicals reveal the relevance of both neutral and ionic species for fish embryotoxicity and possess great potential for practical application in the regulation of chemicals

Water Res. 2023 May 15:235:119864. doi: 10.1016/j.watres.2023.119864. Epub 2023 Mar 14.

Authors

Heinz-R Köhler¹, Thomas Gräff², Mona Schweizer³, Jasmin Blumhardt³, Jasmin Burkhardt³, Lisa Ehmann³, Janine Hebel³, Christoph Heid³, Lone Kundy³, Julia Kuttler³, Miroslava Malusova³, Friederike-Marie Moroff³, Anne-Frida Schlösinger³, Pia Schulze-Berge³, Eleni I Panagopoulou⁴, Dimitrios E Damalas⁴, Nikolaos S Thomaidis⁴, Rita Triebskorn⁵, Dirk Maletzki⁶, Ute Kühnen², Peter C von der Ohe⁷

Affiliations

¹ Animal Physiological Ecology, Institute of Evolution and Ecology, University of Tübingen, Auf der Morgenstelle 5, Tübingen D-72076, Germany. Electronic address: heinz-r.koehler@uni-tuebingen.de.
² Federal Environment Agency, Wörlitzer Platz 1, Dessau-Roßlau D-06844, Germany.
³ Animal Physiological Ecology, Institute of Evolution and Ecology, University of Tübingen, Auf der Morgenstelle 5, Tübingen D-72076, Germany.
⁴ Department of Chemistry, Laboratory of Analytical Chemistry, National and Kapodistrian University of Athens, Panepistimiopolis Zografou, Athens GR-15771, Greece.
⁵ Animal Physiological Ecology, Institute of Evolution and Ecology, University of Tübingen, Auf der Morgenstelle 5, Tübingen D-72076, Germany; Steinbeis-Transfer Center Ecotoxicology and Ecophysiology, Blumenstrasse 13, Rottenburg D-72108, Germany.
⁶ Federal Environment Agency, Schichauweg 58, Berlin D-12307, Germany.
⁷ Federal Environment Agency, Wörlitzer Platz 1, Dessau-Roßlau D-06844, Germany. Electronic address: peter.vonderohe@uba.de.

PMID: 36944304
DOI: 10.1016/j.watres.2023.119864

Abstract

Depending on the ambient pH, ionizable substances are present in varying proportions in their neutral or charged form. The extent to which these two chemical species contribute to the pH-dependant toxicity of ionizable chemicals and whether intracellular ion trapping has a decisive influence in this context is controversially discussed. Against this background, we determined the acute toxicity of 24 ionizable substances at up to 4 different pH values on the embryonic development of the zebrafish, Danio rerio, and supplemented this dataset with additional data from the literature. The LC₅₀ for some substances (diclofenac, propranolol, fluoxetine) differed by a factor of even >10³ between pH5 and pH9. To simulate the toxicity of 12 acids and 12 bases, six models to calculate a pH-dependant logD value as a proxy for the uptake of potentially toxic molecules were created based on different premises for the trans-membrane passage and toxic action of neutral and ionic species, and their abilities to explain the real LC₅₀ data set were assessed. Using this approach, we were able to show that both neutral and charged species are almost certainly taken up into cells according to their logD-based distribution, and that both species exert toxicity. Since two of the models that assume all intracellular molecules to be neutral overestimated the real toxicity, it must be concluded, that the toxic effect of a single charged intracellularly present molecule is, on the average, lower than that of a single neutral molecule. Furthermore, it was possible to attribute differences in toxicity at different pH values for these 24 ionizable substances to the respective deltas in logD at these pH levels with high accuracy, enabling particularly a full logD-based model on the basis of logP_ow as a membrane passage descriptor to be used for predicting potential toxicities in worst-case scenarios from existing experimental studies, as stipulated in the process of registration of chemicals and the definition of Environmental Quality Standards (EQS).

Keywords: Danio rerio; EQS; Ecotoxicity; FET; OECD 236; Pharmaceuticals.

MeSH terms

Animals
Hydrogen-Ion Concentration
Ions
Propranolol* / toxicity
Zebrafish*

Substances

Propranolol
Ions