Topic
Fatty acid-binding protein
About: Fatty acid-binding protein is a research topic. Over the lifetime, 1721 publications have been published within this topic receiving 81530 citations. The topic is also known as: FABP.
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TL;DR: A novel role is pointed to for a FABP‐PPAR pathway in promoting PCa metastasis through induction of EMT and lipid bioenergetics and increased reliance on fatty acids for energy production.
22 citations
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TL;DR: It is shown that I-FABP is specifically regulated by collagen and that, under conditions optimal for their expression, both isoforms are modulated by metabolic factors.
22 citations
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TL;DR: Findings suggest that skin-type FABP may selectively contribute to some important roles in morphological and biochemical changes of neuronal cells associated with the nerve regeneration.
22 citations
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TL;DR: This interpretation of the fluorescence quenching and energy-transfer data supports the difference in ligand orientation between intestinal and liver FABP observed in previous studies.
Abstract: Rat liver fatty-acid-binding protein (FABP) does not contain tryptophan. Three mutant proteins have been produced in which a single tryptophan residue has been inserted by site-directed mutagenesis at positions 3 (F3W), 18 (F18W) and 69 (C69W). These tryptophans have been strategically located in order to provide fluorescent reporter groups to study the binding and structural characteristics of rat liver FABP. Two fluorescent fatty acid analogues, DAUDA (11-[(5-dimethylaminonaphthalene-1- sulphonyl)amino]undecanoic acid) and 3-[p-(6-phenyl)-hexa-1,3,5-trienyl]phenylpropionic acid, showed no significant difference in binding affinities for the different mutant proteins, although maximum fluorescence values were decreased for F3W and increased for C69W. These findings were confirmed by studies of DAUDA displacement by oleate. Protein-denaturation studies in the presence of urea indicated subtle differences for the three mutants which could be explained by multiple unfolding pathways. Fatty acid binding increased tryptophan fluorescence emission in the case of the F18W protein, but had no effect on the F3W and C69W proteins. Fluorescence quenching studies with 2-bromopalmitate showed that a fatty acid carboxylate is close to the tryptophan in the F18W protein. Energy-transfer studies showed that the fluorescent moiety of DAUDA is equidistant from the three mutated amino acids and is bound within the beta-clam solvent cavity of liver FABP. This interpretation of the fluorescence quenching and energy-transfer data supports the difference in ligand orientation between intestinal and liver FABP observed in previous studies.
22 citations
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TL;DR: The present finding suggests that E-FABP in the thymic epithelial cells, especially the cortical ones because of their extensive location, are intimately involved in the metabolic processes of fatty acids including production of bioactive substances, such as prostaglandin and leukotriene, which are known to exert some regulation of thymi immune responses.
Abstract: The immunoreactivity for epidermal-type fatty acid binding protein of epidermis type (E-FABP) was selectively localized in the epithelial cells of both cortex and medulla of mouse thymus. The cortical epithelial cytoreticulum was clearly visible with the intense immunoreactivity and the immunoreactive cytoreticulum extended intricately throughout the thymic cortex to enclose thymocytes. In the thymic medulla, the immunoreactivity was variable in intensity among the epithelial cells and there was a tendency that epithelial cells containing more numerous tonofilament bundles were less immunoreactive. Considering the possibility that FABPs function as intracellular carriers for unsaturated long chain fatty acids, the present finding suggests that E-FABP in the thymic epithelial cells, especially the cortical ones because of their extensive location, are intimately involved in the metabolic processes of fatty acids including production of bioactive substances, such as prostaglandin and leukotriene, which are known to exert some regulation of thymic immune responses.
22 citations