Although liver fatty acid-binding protein (L-FABP) isan important binding site for various hydrophobic ligands in hepatocytes, its in vivo significance is not understood. We have therefore created L-FABP null mice and report here their initial analysis, focusing on the impact of this mutation on hepatic fatty acid binding capacity, lipid composition, and expression of other lipid-binding proteins. Gel-filtered cytosol from L-FABP null liver lacked the main fatty acid binding peak in the fraction that normally comprises both L-FABP and sterol carrier protein-2 (SCP-2). The binding capacity for cis-parinaric acid was decreased >80% in this region. Molar ratios of cholesterol/cholesterol ester, cholesteryl ester/triglyceride, and cholesterol/phospholipid were 2-to 3-fold greater, reflecting up to 3-fold absolute increases in specific lipid classes in the order cholesterol > cholesterol esters > phospholipids. In contrast, the liver pool sizes of nonesterified fatty acids and triglycerides were not altered. However, hepatic deposition of a bolus of intravenously injected family (1-3), is found in the liver, intestine, and kidney, but only in liver is it not co-expressed with other members of its family. L-FABP is known to bind fatty acids and various other hydrophobic molecules, although its actual contribution to the lipid-binding capacity of liver cytosol is not known. Given that L-FABP is expressed at very high levels (2-5% of cytosolic protein) in the differentiated hepatocyte (4, 5) and that these levels correlate well with lipid metabolism (2), it can be speculated that L-FABP contributes considerably to hepatic lipidbinding and lipid metabolism. Work with cell-free systems and transfected cells has further strengthened this view. For example, in cell-free preparations L-FABP was shown to stimulate the esterification of oleic acid while inhibiting that of palmitic acid (6). L cells overexpressing L-FABP show increased rates of fatty acid uptake and esterification (7) as well as increased contents of phospholipid and cholesterol esters (8, 9). HepG2 hepatoma cells expressing an L-FABP antisense RNA showed a dose-dependent reduction of fatty acid uptake (10). Furthermore, overexpression of L-FABP in McA-RH7777 hepatoma cells incubated with palmitic acid decreased the synthesis and secretion of triglycerides while increasing beta oxidation and the secretion of apolipoprotein B100 (11). Thus, the various in vitro systems have allowed researchers to propose specific functions of L-FABP in vivo.However, in vitro studies of FABPs have inherent limitations. The only firmly established function of FABPs is the reversible binding of hydrophobic ligands, and these proteins do not exhibit any enzymatic function or energy requirement. This suggests that these proteins play passive (facilitative) roles that, almost by definition, are strongly dependent on the cellular context. One context of the highly expressed L-FABP is the highly differentiated hepatocyte, a cell type featuring an intense lipid metabolism that is not eas...
