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Drugs Form Ternary Complexes with Human Liver Fatty Acid Binding Protein (FABP1) and FABP1 Binding Alters Drug Metabolism.

King Clyde B YabutAlice MartynovaAbhinav NathBenjamin P ZercherMatthew F BushNina Isoherranen
Published in: Molecular pharmacology (2024)
Liver fatty acid binding protein (FABP1) binds diverse endogenous lipids and is highly expressed in the human liver. Binding to FABP1 alters the metabolism and homeostasis of endogenous lipids in the liver. Drugs have also been shown to bind to rat FABP1, but limited data is available for human FABP1 (hFABP1). FABP1 has a large binding pocket and up to two fatty acids can bind to FABP1 simultaneously. We hypothesized that drug binding to hFABP1 results in formation of ternary complexes and that FABP1 binding alters drug metabolism. To test these hypotheses, native protein mass spectrometry (MS) and fluorescent 11-(dansylamino)undecanoic acid (DAUDA) displacement assays were used to characterize drug binding to hFABP1, and diclofenac oxidation by cytochrome P450 2C9 (CYP2C9) was studied in the presence and absence of hFABP1. DAUDA binding to hFABP1 involved high (K d,1 =0.2 µM) and low affinity (K d,2 >10 µM) binding sites. Nine drugs bound to hFABP1 with K d values ranging from 1 to 20 µM. None of the tested drugs completely displaced DAUDA from hFABP1 and fluorescence spectra showed evidence of ternary complex formation. Formation of DAUDA-hFABP1-diclofenac ternary complex was verified with native MS. Docking predicted diclofenac binding in the portal region of FABP1 with DAUDA in the binding cavity. The k cat of diclofenac hydroxylation by CYP2C9 was decreased by ~50% (p<0.01) in the presence of FABP1. Together, these results suggest that drugs form ternary complexes with hFABP1 and that hFABP1 binding in the liver will alter drug metabolism and clearance. Significance Statement Many commonly prescribed drugs bind FABP1 forming ternary complexes with FABP1 and the fluorescent fatty acid DAUDA. These findings suggests that drugs will bind to apo-FABP1 and fatty acid bound FABP1 in the human liver. The high expression of FABP1 in the liver, together with drug binding to FABP1 may alter drug disposition processes in vivo .
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