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In vitro screening model for compound interactions with human and dairy animal BCRP orthologs.

Lérica Le Roux-PullenJeroen J M W Van den HeuvelNoraly B JonisTom Scheer-WeijersIlse R DubbelboerJan B KoenderinkFrans G M RusselRonette Gehring
Published in: Journal of veterinary pharmacology and therapeutics (2024)
Orthologs of breast cancer resistance protein (BCRP/ABCG2), an ATP-binding cassette (ABC) efflux transmembrane transporter, are present in several species. The list of compounds known to interact with BCRP is growing, and many questions remain concerning species-specific variations in substrate specificity and affinity and the potency of inhibitors. As the most abundant efflux transporter known to be present in the blood-milk barrier, BCRP can increase the elimination of certain xenobiotics to milk, posing a risk for suckling offspring and dairy product consumers. Here we developed a model that can be employed to investigate species-specific differences between BCRP substrates and inhibitors. Membrane vesicles were isolated from transiently transduced human embryonic kidney (HEK) 293 cells, overexpressing BCRP, with human, bovine, caprine, and ovine cDNA sequences. To confirm BCRP transport activity in the transduced cells, D-luciferin efflux was measured and to confirm transport activity in the membrane vesicles, [ 3 H] estrone-3-sulfate ([ 3 H]E 1 S) influx was measured. We also determined the Michaelis-Menten constant (Km) and Vmax of [ 3 H]E 1 S for each species. We have developed an in vitro transport model to study differences in compound interactions with BCRP orthologs from milk-producing animal species and humans. BCRP transport activity was demonstrated in the species-specific transduced cells by a reduced accumulation of D-luciferin compared with the control cells, indicating BCRP-mediated efflux of D-luciferin. Functionality of the membrane vesicle model was demonstrated by confirming ATP-dependent transport and by quantifying the kinetic parameters, Km and Vmax for the model substrate [ 3 H]E 1 S. The values were not significantly different between species for the model substrates tested. This model can be insightful for appropriate inter-species extrapolations and risk assessments of xenobiotics in lactating woman and dairy animals.
Keyphrases
  • induced apoptosis
  • endothelial cells
  • cell cycle arrest
  • genetic diversity
  • endoplasmic reticulum stress
  • mass spectrometry
  • metabolic syndrome
  • cell proliferation
  • transcription factor