Abstract
Carnitine palmitoyltransferase I catalyzes the conversion of long-chain acyl-CoA to acylcarnitines in the presence of l-carnitine. To determine the role of the conserved arginine and tryptophan residues on catalytic activity in the liver isoform of carnitine palmitoyltransferase I (L-CPTI), we separately mutated five conserved arginines and two tryptophans to alanine. Substitution of arginine residues 388, 451, and 606 with alanine resulted in loss of 88, 82, and 93% of L-CPTI activity, respectively. Mutants R601A and R655A showed less than 2% of the wild type L-CPTI activity. A change of tryptophan 391 and 452 to alanine resulted in 50 and 93% loss in carnitine palmitoyltransferase activity, respectively. The mutations caused decreases in catalytic efficiency of 80-98%. The residual activity in the mutant L-CPTIs was sensitive to malonyl-CoA inhibition. Mutants R388A, R451A, R606A, W391A, and W452A had no effect on the K(m) values for carnitine or palmitoyl-CoA. However, these mutations decreased the V(max) values for both substrates by 10-40-fold, suggesting that the main effect of the mutations was to decrease the stability of the enzyme-substrate complex. We suggest that conserved arginine and tryptophan residues in L-CPTI contribute to the stabilization of the enzyme-substrate complex by charge neutralization and hydrophobic interactions. The predicted secondary structure of the 100-amino acid residue region of L-CPTI, containing arginines 388 and 451 and tryptophans 391 and 452, consists of four alpha-helices similar to the known three-dimensional structure of the acyl-CoA-binding protein. We predict that this 100-amino acid residue region constitutes the putative palmitoyl-CoA-binding site in L-CPTI.
Highlights
Transport of long-chain fatty acids from the cytoplasm to the mitochondrial matrix involves the conversion of their acyl-CoA derivatives to acylcarnitines, translocation across the inner mitochondrial membrane, and reconversion to acyl-CoA [1, 2]
The site-directed mutagenesis study described here is aimed at elucidating the function of several strictly conserved basic and aromatic amino acid residues found at the proximity of the active site of liver isoform of carnitine palmitoyltransferase I (L-Carnitine palmitoyltransferase I (CPTI))
Earlier chemical modification studies with CoA-metabolizing enzymes suggested that adjacent arginine and tryptophan residues located at the active site might be involved in CoA binding [20, 21]
Summary
Transport of long-chain fatty acids from the cytoplasm to the mitochondrial matrix involves the conversion of their acyl-CoA derivatives to acylcarnitines, translocation across the inner mitochondrial membrane, and reconversion to acyl-CoA [1, 2]. Treatment of isolated mitochondria from the yeast strains expressing L-CPTI and CPTII with N-bromosuccinimide, a tryptophan-specific reagent, resulted in loss of 50 and 59% of L-CPTI and CPTII activity, respectively, indicating that conserved tryptophan residue(s) may be very important for L-CPTI activity.
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