Molecular Basis of the Interaction between Plasma Platelet-activating Factor Acetylhydrolase and Low Density Lipoprotein
Autor: | Stephen M. Prescott, Sally P.A. McCormick, Stephen G. Young, Thomas M. McIntyre, Darius Vaitkus, Patrick W. Gray, Larry W. Tjoelker, Diana M. Stafforini |
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Rok vydání: | 1999 |
Předmět: |
PAF acetylhydrolase
Apolipoprotein B Mice Transgenic Biochemistry Phospholipases A Mice chemistry.chemical_compound Animals Humans Tyrosine Molecular Biology chemistry.chemical_classification biology Catabolism Mutagenesis Cell Biology respiratory system 1-Alkyl-2-acetylglycerophosphocholine Esterase Recombinant Proteins Lipoproteins LDL Enzyme chemistry Low-density lipoprotein Mutagenesis Site-Directed biology.protein lipids (amino acids peptides and proteins) Protein Binding |
Zdroj: | Journal of Biological Chemistry. 274:7018-7024 |
ISSN: | 0021-9258 |
DOI: | 10.1074/jbc.274.11.7018 |
Popis: | The platelet-activating factor acetylhydrolases are enzymes that were initially characterized by their ability to hydrolyze platelet-activating factor (PAF). In human plasma, PAF acetylhydrolase (EC 3.1.1.47) circulates in a complex with low density lipoproteins (LDL) and high density lipoproteins (HDL). This association defines the physical state of PAF acetylhydrolase, confers a long half-life, and is a major determinant of its catalytic efficiency in vivo. The lipoprotein–associated enzyme accounts for all of the PAF hydrolysis in plasma but only two-thirds of the protein mass. To characterize the enzyme–lipoprotein interaction, we employed site-directed mutagenesis techniques. Two domains within the primary sequence of human PAF acetylhydrolase, tyrosine 205 and residues 115 and 116, were important for its binding to LDL. Mutation or deletion of those sequences prevented the association of the enzyme with lipoproteins. When residues 115 and 116 from human PAF acetylhydrolase were introduced into mouse PAF acetylhydrolase (which normally does not associate with LDL), the mutant mouse PAF acetylhydrolase associated with lipoproteins. To analyze the role of apolipoprotein (apo) B100 in the formation of the PAF acetylhydrolase–LDL complex, we tested the ability of PAF acetylhydrolase to bind to lipoproteins containing truncated forms of apoB. These studies indicated that the carboxyl terminus of apoB plays a key role in the association of PAF acetylhydrolase with LDL. These data on the molecular basis of the PAF acetylhydrolase–LDL association provide a new level of understanding regarding the pathway for the catabolism of PAF in human blood. |
Databáze: | OpenAIRE |
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