A high‐resolution data set of fatty acid‐binding protein structures. I. Dynamics of FABP4 and ligand binding
Fatty acid‐binding proteins (FABPs) are involved in the uptake and intracellular trafficking of fatty acids for metabolic and gene‐regulatory purposes. FABPs are known to associate with membranes and also enter the nucleus. Using NMR and a human FABP4 (hFABP4) preparation completely free of endogeno...
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| Published in | Acta crystallographica. Section D, Biological crystallography. Vol. 81; no. 8; pp. 423 - 435 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
5 Abbey Square, Chester, Cheshire CH1 2HU, England
International Union of Crystallography
01.08.2025
Wiley Subscription Services, Inc |
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| ISSN | 2059-7983 0907-4449 2059-7983 1399-0047 |
| DOI | 10.1107/S2059798325006242 |
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| Abstract | Fatty acid‐binding proteins (FABPs) are involved in the uptake and intracellular trafficking of fatty acids for metabolic and gene‐regulatory purposes. FABPs are known to associate with membranes and also enter the nucleus. Using NMR and a human FABP4 (hFABP4) preparation completely free of endogenous ligands, we studied the influence of fatty acids and inhibitors on the conformational flexibility and bicelle/membrane association of this isoform. Binding of fatty acids and ligands rigidifies hFABP4, particularly at the portal region where ligands enter the binding site. Depending on the nature of the ligand, hFABP4 stays associated with bicelles via the portal region or segregates into solution, a prerequisite for nuclear import using a nonclassical nuclear localization signal. These results indicate that different ligands can lead to different biological outcomes. One of the major determinants for FABP4 segregation is Phe58, which in X‐ray crystal structures adopts different conformations as a function of ligand volume. It is possible that other FABP isoforms use a similar mechanism for ligand‐dependent membrane detachment and activation of nuclear import.
NMR studies on human FABP4 in solution and bound to micelles and bicelles delineate its dynamics in a ligand‐dependent fashion. Residual ligands are co‐purified with the protein, which may negatively influence binding studies with low‐affinity ligands. |
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| AbstractList | Fatty acid-binding proteins (FABPs) are involved in the uptake and intracellular trafficking of fatty acids for metabolic and gene-regulatory purposes. FABPs are known to associate with membranes and also enter the nucleus. Using NMR and a human FABP4 (hFABP4) preparation completely free of endogenous ligands, we studied the influence of fatty acids and inhibitors on the conformational flexibility and bicelle/membrane association of this isoform. Binding of fatty acids and ligands rigidifies hFABP4, particularly at the portal region where ligands enter the binding site. Depending on the nature of the ligand, hFABP4 stays associated with bicelles via the portal region or segregates into solution, a prerequisite for nuclear import using a nonclassical nuclear localization signal. These results indicate that different ligands can lead to different biological outcomes. One of the major determinants for FABP4 segregation is Phe58, which in X-ray crystal structures adopts different conformations as a function of ligand volume. It is possible that other FABP isoforms use a similar mechanism for ligand-dependent membrane detachment and activation of nuclear import. Fatty acid‐binding proteins (FABPs) are involved in the uptake and intracellular trafficking of fatty acids for metabolic and gene‐regulatory purposes. FABPs are known to associate with membranes and also enter the nucleus. Using NMR and a human FABP4 (hFABP4) preparation completely free of endogenous ligands, we studied the influence of fatty acids and inhibitors on the conformational flexibility and bicelle/membrane association of this isoform. Binding of fatty acids and ligands rigidifies hFABP4, particularly at the portal region where ligands enter the binding site. Depending on the nature of the ligand, hFABP4 stays associated with bicelles via the portal region or segregates into solution, a prerequisite for nuclear import using a nonclassical nuclear localization signal. These results indicate that different ligands can lead to different biological outcomes. One of the major determinants for FABP4 segregation is Phe58, which in X‐ray crystal structures adopts different conformations as a function of ligand volume. It is possible that other FABP isoforms use a similar mechanism for ligand‐dependent membrane detachment and activation of nuclear import. NMR studies on human FABP4 in solution and bound to micelles and bicelles delineate its dynamics in a ligand‐dependent fashion. Residual ligands are co‐purified with the protein, which may negatively influence binding studies with low‐affinity ligands. |
| Author | Benz, Joerg Casagrande, Fabio Ehler, Andreas Burger, Dominique Rudolph, Markus G. Ross, Alfred |
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| Copyright | 2025 Fabio Casagrande et al. published by IUCr Journals. open access. 2025. This work is published under Creative Commons Attribution License~https://creativecommons.org/licenses/by/3.0/ (the "License"). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. |
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| Snippet | Fatty acid‐binding proteins (FABPs) are involved in the uptake and intracellular trafficking of fatty acids for metabolic and gene‐regulatory purposes. FABPs... Fatty acid-binding proteins (FABPs) are involved in the uptake and intracellular trafficking of fatty acids for metabolic and gene-regulatory purposes. FABPs... |
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| SubjectTerms | Binding Sites Crystallography, X-Ray Fatty acid-binding protein Fatty Acid-Binding Proteins - chemistry Fatty Acid-Binding Proteins - metabolism Fatty acids Fatty Acids - chemistry Fatty Acids - metabolism fatty acid‐binding proteins Humans Imports Isoforms Ligands Localization Membranes micelle and bicelle binding Models, Molecular NMR NMR dynamics Nuclear magnetic resonance Nuclear Magnetic Resonance, Biomolecular Nuclear transport Protein Binding Protein Conformation Protein structure Proteins residual ligands |
| Title | A high‐resolution data set of fatty acid‐binding protein structures. I. Dynamics of FABP4 and ligand binding |
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