spacer PROBING THE SUBSTRATE SPECIFICITY OF THE INTRACELLULAR BRAIN PLATELET-ACTIVATING FACTOR ACETYLHYDROLASE
Primary citation
Title Probing the Substrate Specificity of the Intracellular Brain Platelet-Activating Factor Acetylhydrolase
Authors Ho, Y.S.search; Sheffield, P.J.search; Masuyama, J.search; Arai, H.search; Li, J.search; Aoki, J.search; Inoue, K.search; Derewenda, U.search; Derewenda, Z.S.search
Journal PROTEIN ENG.search vol:12, pag:693-700 (1999), Identifiers: PubMed ID (10469831)search DOI (10.1093/protein/12.8.693)
Abstract Platelet-activating factor acetylhydrolases (PAF-AHs) are unique PLA2s which hydrolyze the sn-2 ester linkage in PAF-like phospholipids with a marked preference for very short acyl chains, typically acetyl. The recent solution of the crystal structure of the alpha(1) catalytic subunit of isoform Ib of bovine brain intracellular PAF-AH at 1.7 A resolution paved the way for a detailed examination of the molecular basis of substrate specificity in this enzyme. The crystal structure suggests that the side chains of Thr103, Leu48 and Leu194 are involved in substrate recognition. Three single site mutants (L48A, T103S and L194A) were overexpressed and their structures were solved to 2.3 A resolution or better by X-ray diffraction methods. Enzyme kinetics showed that, compared with wild-type protein, all three mutants have higher relative activity against phospholipids with sn-2 acyl chains longer than an acetyl. However, for each of the mutants we observed an unexpected and substantial reduction in the V(max) of the reaction. These results are consistent with the model in which residues Leu48, Thr103 and Leu194 indeed contribute to substrate specificity and in addition suggest that the integrity of the specificity pocket is critical for the expression of full catalytic function, thus conferring very high substrate selectivity on the enzyme.
MeSH terms 1-Alkyl-2-acetylglycerophosphocholine Esterasesearch, Animalssearch, Brain Chemistrysearch, Cattlesearch, Molecular Sequence Datasearch, Mutationsearch, Phospholipases Asearch, Platelet Activating Factorsearch, Protein Conformationsearch, Structure-Activity Relationshipsearch, Substrate Specificitysearch
Other entries described in this publication 1bwq, 1bwr
Secondary citations
Title Brain Acetylhydrolase that Inactivates Platelet-Activating Factor is a G-Protein-Like Trimer
Authors Ho, Y.S.search; Swenson, L.search; Derewenda, U.search; Serre, L.search; Wei, Y.search; Dauter, Z.search; Hattori, M.search; Adachi, T.search; Aoki, J.search; Arai, H.search; Inoue, K.search; Derewenda, Z.S.search
Journal NATUREsearch vol:385, pag:89 (1997)
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