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Title: Suicide inactivation of bacterial cystathionine gamma-synthase and methionine gamma-lyase during processing of L-propargylglycine. Author: Johnston M, Jankowski D, Marcotte P, Tanaka H, Esaki N, Soda K, Walsh C. Journal: Biochemistry; 1979 Oct 16; 18(21):4690-701. PubMed ID: 387077. Abstract: L-Propargylglycine, a naturally occurring gamma, delta-acetylenic alpha-amino acid, induces mechanism-based inactivation of two pyridoxal phosphate dependent enzymes of methionine metabolism: (1) cystathionine gamma-synthease, which catalyzes a gamma-replacement reaction in methionine biosynthesis, and (2) methionine gamma-lyase, which catalyzes a gamma-elimination reaction in methionine breakdown. Biphasic pseudo-first-order inactivation kinetics were observed for both enzymes. Complete inactivation is achieved with a minimum molar ratio ([propargylglycine]/[enzyme monomer]) of 4:1 for cystathionine gamma-synthase and of 8:1 for methionine gamma-lyase, consistent with a small number of turnovers per inactivation event. Partitioning ratios were determined directly from observed primary kinetic isotope effects. [alpha-2H]Propargylglycine displays kH/kD values of about 3 on inactivation half-times. [alpha-3H]-Propargylglycine gives release of tritium to solvent nominally stoichiometric with inactivation but, on correction for the calculated tritium isotope discrimination, partition ratios of four and six turnovers per monomer inactivated are indicated for cystathionine gamma-synthase and methionine gamma-lyase, respectively. The inactivation stoichiometry, using [alpha-14C]-propargylglycine, is four labels per tetramer of cystathionine gamma-synthase but usually only two labels per tetramer of methionine gamma-lyase (half-of-the-sites reactivity). Two-dimensional urea isoelectrofocusing/NaDodSO4 electrophoresis suggests (1) that both native enzymes are alpha 2 beta 2 tetramers where the subunits are distinguishable by charge but not by size and (2) that, while each subunit of a cystathionine gamma-synthase tetramer becomes modified by propargylglycine, only one alpha and one beta subunit may be labeled in an inactive alpha 2 beta 2 tetramer of methionine gamma-lyase. Steady-state spectroscopic analyses during inactivation indicated that modified cystathionine gamma-synthase may reprotonate C2 of the enzyme--inactivator adduct, so that the cofactor is still in the pyridoxaldimine oxidation state. Fully inactivated methionine gamma-lyase has lambda max values at 460 and 495 nm, which may represent conjugated pyridoximine paraquinoid that does not reprotonate at C2 of the bound adduct. Either species could arise from Michael-type addition of an enzymic nucleophile to an electrophilic 3,4-allenic paraquinoid intermediate, generated initially by propargylic rearrangement upon a 4,5-acetylenic pyridoximine structure, as originally proposed for propargylglycine inactivation of gamma-cystathionase [Abeles, R., & Walsh, C. (1973) J. Am. Chem. Soc. 95, 6124]. It is reasonable that cystathionine gamma-synthase is the major in vivo target for this natural acetylenic toxin, the growth-inhibitory effects of which are reversed by methionine.[Abstract] [Full Text] [Related] [New Search]