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Journal ArticleDOI

Human fetal liver fatty acid binding proteins. Role on glucose-6-phosphate dehydrogenase activity.

03 Apr 1989-Biochimica et Biophysica Acta (Elsevier)-Vol. 1002, Iss: 2, pp 164-172
TL;DR: F fetal liver FABPs play a regulatory role in critical aspects of cellular physiology during human embryogenesis and protect glucose-6-phosphate dehydrogenase from the feed-back inhibition exerted by added palmitoyl-CoA and oleate.
About: This article is published in Biochimica et Biophysica Acta.The article was published on 1989-04-03. It has received 16 citations till now. The article focuses on the topics: Fatty acid synthesis & Fatty acid-binding protein.
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Journal ArticleDOI
TL;DR: Article de synthese sur les donnees recentes de caracteristiques structurales et physicochimiques de divers types of proteines de liaison aux acides gras, avec la signification physiologique de ces diversites.

366 citations

Journal ArticleDOI
TL;DR: A considerable body of indirect evidence is provided supporting a broad role for the FABP in the intracellular transport and metabolism of long-chain fatty acids and the existence of structure- and tissue-specific specialization of function among different members of the F ABP gene family.
Abstract: Cytosolic fatty acid binding proteins (FABP) belong to a gene family of which eight members have been conclusively identified. These 14–15 kDa proteins are abundantly expressed in a highly tissue-specific manner. Although the functions of the cytosolic FABP are not clearly established, they appear to enhance the transfer of long-chain fatty acids between artificial and native lipid membranes, and also to have a stimulatory effect on a number of enzymes of fatty acid metabolism in vitro. These findings, as well as the tissue expression, ligand binding properties, ontogeny and regulation of these proteins provide a considerable body of indirect evidence supporting a broad role for the FABP in the intracellular transport and metabolism of long-chain fatty acids. The available data also support the existence of structure- and tissue-specific specialization of function among different members of the FABP gene family. Moreover, FABP may also have a possible role in the modulation of cell growth and proliferation, possibly by virtue of their affinity for ligands such as prostaglandins, leukotrienes and fatty acids, which are known to influence cell growth activity. FABP structurally unrelated to the cytosolic gene family have also been identified in the plasma membranes of several tissues (FABPpm). These proteins have not been fully characterized to date, but strong evidence suggests that they function in the transport of long-chain fatty acids across the plasma membrane.

167 citations

Journal ArticleDOI
TL;DR: Which FABPs form biochemically defined or true isoforms versus FABP that form additional forms, operationally defined as isoforms, is critically evaluated.

127 citations

Journal ArticleDOI
01 Sep 1996-Lipids
TL;DR: The identity, nature, function, and pathobiology of these fascinating newly discovered long-chain fatty acyl-CoA binding proteins are explored.
Abstract: The physiological role of long-chain fatty acyl-CoA is thought to be primarily in intermediary metabolism of fatty acids. However, recent data show that nM to μM levels of these lipophilic molecules are potent regulators of cell functionsin vitro. Although long-chain fatty acyl-CoA are present at several hundred μM concentration in the cell, very little long-chain fatty acyl-CoA actually exists as free or unbound molecules, but rather is bound with high affinity to membrane lipids and/or proteins. Recently, there is growing awareness that cytosol contains nonenzymatic proteins also capable of binding long-chain fatty acyl-CoA with high affinity. Although the identity of the cytosolic long-chain fatty acyl-CoA binding protein(s) has been the subject of some controversy, there is growing evidence that several diverse nonenzymatic cytosolic proteins will bind long-chain fatty acyl-CoA. Not only does acyl-CoA binding protein specifically bind medium and long-chain fatty acyl-CoA (LCFA-CoA), but ubiquitous proteins with multiple ligand specificities such as the fatty acid binding proteins and sterol carrier protein-2 also bind LCFA-CoA with high affinity. The potential of these acyl-CoA binding proteins to influence the level of free LCFA-CoA and thereby the amount of LCFA-CoA bound to regulatory sites in proteins and enzymes is only now being examined in detail. The purpose of this article is to explore the identity, nature, function, and pathobiology of these fascinating newly discovered long-chain fatty acyl-CoA binding proteins. The relative contributions of these three different protein families to LCFA-CoA utilization and/or regulation of cellular activities are the focus of new directions in this field.

126 citations

Journal ArticleDOI
TL;DR: Rat L-FABP isoforms differ markedly in both structure and ligand binding function, and displacement studies indicated that each isoform displayed distinct specificities for fatty acid/fatty acyl CoA chain length and unsaturation.
Abstract: Although native rat liver fatty acid binding protein (L-FABP) is composed of isoforms differing in isoelectric point, their comparative structure and function are unknown. These properties of apo- ...

96 citations