Multifunctional Role of His159in the Catalytic Reaction of Serine Palmitoyltransferase

摘要

Serine palmitoyltransferase (SPT) belongs to the fold type I family of the pyridoxal 5′-phosphate (PLP)-dependent enzyme and forms 3-ketodihydrosphingosine (KDS) from l-serine and palmitoyl-CoA. Like other α-oxamine synthase subfamily enzymes, SPT is different from most of the fold type I enzymes in that its re face of the PLP-Lys aldimine is occupied by a His residue (His¹⁵⁹) instead of an aromatic amino acid residue. His¹⁵⁹ was changed into alanine or aromatic amino acid residues to examine its role during catalysis. All mutant SPTs formed the PLP-l-serine aldimine with dissociation constants several 10-fold higher than that of the wild type SPT and catalyzed the abortive transamination of l-serine. These results indicate that His¹⁵⁹ is not only the anchoring site for l-serine but regulates the α-deprotonation of l-serine by fixing the conformation of the PLP-l-serine aldimine to prevent unwanted side reactions. Only H159A SPT retained activity and showed a prominent 505-nm absorption band of the quinonoid species during catalysis. Global analysis of the time-resolved spectra suggested the presence of the two quinonoid intermediates, the first formed from the PLP-l-serine aldimine and the second from the PLP-KDS aldimine. Accumulation of these quinonoid intermediates indicated that His¹⁵⁹ promotes both the Claisen-type condensation as an acid catalyst and the protonation at Cα of the second quinonoid to form the PLP-KDS aldimine. These results, combined with the previous model building study (Ikushiro, H., Fujii, S., Shiraiwa, Y., and Hayashi, H. (2008) J. Biol. Chem. 283, 7542–7553), lead us to propose a novel mechanism, in which His¹⁵⁹ plays multiple roles by exploiting the stereochemistry of Dunathan's conjecture.