Abstract

The use of bile acids as functional biomarkers for hepatobiliary injury and disease has been proposed for decades, but the utility has been generally limited due to lack of sensitivity in diagnosis and assay availability. However, recent advances in liquid chromatography and mass spectrometry have allowed for highly sensitive profiling of individual bile acids across several different matrices. In the current work, a panel of 54 bile acids were quantified in plasma by high resolution mass spectrometry in the common species used for preclinical toxicity studies, including rat (both Wistar and Sprague-Dawley strains), Beagle dog, Cynomolgus macaque monkey, and New Zealand White rabbit. In each species, blood draws were collected across three days in such a way to derive overall interpretations of: 1) biological variability across species, 2) sex differences, 3) diurnal fluctuations in the bile acid pool (including over light/dark cycles), and 4) changes due to fed or fasting state. Various methods of normalization were applied to the dataset to overcome notable inter-individual variability in bile acid concentrations to allow for better data derivations and interpretation. As such, the current work elucidates not only key differences in the bile acid pool across species, but also informs best practices in protocol design and analytical methods for interpreting large sets of bile acid data. When taken together, these data facilitate better species translation and application of bile acids as biomarkers for hepatobiliary injury and disease.

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