Heart Fatty Acid Uptake Is Decreased in Heart Fatty Acid-binding Protein Gene-ablated Mice

Cell culture systems have demonstrated a role for cytoplasmic fatty acid-binding proteins (FABP) in lipid metabolism, although a similar function in intact animals is unknown. We addressed this issue using heart fatty acid-binding protein (H-FABP) gene-ablated mice. H-FABP gene ablation reduced tota...

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Bibliographic Details
Published in:The Journal of biological chemistry 2004-08, Vol.279 (33), p.34481-34488
Main Authors: Murphy, Eric J, Barcelo-Coblijn, Gwendolyn, Binas, Bert, Glatz, Jan F C
Format: Article
Language:English
Subjects:
Animals
Carrier Proteins - genetics
Carrier Proteins - metabolism
Carrier Proteins - physiology
Choline - metabolism
Chromatography, Thin Layer
Cytoplasm - metabolism
Ethanolamine - metabolism
Fatty Acid-Binding Proteins
Fatty Acids - metabolism
Glycerophospholipids - metabolism
Heart - physiology
Kinetics
Lipid Metabolism
Male
Mice
Mice, Transgenic
Myocardium - metabolism
Phosphatidylinositols - metabolism
Phospholipids - metabolism
Time Factors
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Summary:Cell culture systems have demonstrated a role for cytoplasmic fatty acid-binding proteins (FABP) in lipid metabolism, although a similar function in intact animals is unknown. We addressed this issue using heart fatty acid-binding protein (H-FABP) gene-ablated mice. H-FABP gene ablation reduced total heart fatty acid uptake 40 and 52% for [1- 14 C]16:0 and [1- 14 C]20:4 n -6 compared with controls, respectively. Similarly, the amount of fatty acid found in the aqueous fraction was reduced 40 and 52% for [1- 14 C]16:0 and [1- 14 C]20:4 n -6, respectively. Less [1- 14 C]16:0 entered the triacylglycerol pool, with significant redistribution of fatty acid between the triacylglycerol pool and the total phospholipid pool. Less [1- 14 C]20:4 n -6 entered each lipid pool measured, but these changes did not alter the distribution of tracer among these pools. In gene-ablated mice, significantly more [1- 14 C]16:0 was targeted to choline and ethanolamine glycerophospholipids, whereas more [1- 14 C]20:4 n -6 was targeted to the phosphatidylinositol (PtdIns) pool. H-FABP gene ablation significantly increased PtdIns mass 1.4-fold but reduced PtdIns 20:4 n -6 mass 30%. Consistent with a reported effect of FABP on plasmalogen mass, ethanolamine plasmalogen mass was reduced 30% in gene-ablated mice. Further, 20:4 n -6 mass was reduced in each of the three other major phospholipid classes, suggesting H-FABP has a role in maintaining steady-state 20:4 n -6 mass in heart. In summary, H-FABP was important for heart fatty acid uptake and targeting of fatty acids to specific heart lipid pools as well as for maintenance of phospholipid pool mass and acyl chain composition.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.M314263200