Abstract
A thermostable quorum-quenching lactonase from Geobacillus kaustophilus HTA426 (GI: 56420041) was used as an initial template for in vitro directed evolution experiments. This enzyme belongs to the phosphotriesterase-like lactonase (PLL) group of enzymes within the amidohydrolase superfamily that hydrolyze N-acylhomoserine lactones (AHLs) that are involved in virulence pathways of quorum-sensing pathogenic bacteria. Here we have determined the N-butyryl-L-homoserine lactone-liganded structure of the catalytically inactive D266N mutant of this enzyme to a resolution of 1.6 Å. Using a tunable, bioluminescence-based quorum-quenching molecular circuit, the catalytic efficiency was enhanced, and the AHL substrate range increased through two point mutations on the loops at the C-terminal ends of the third and seventh β-strands. This E101N/R230I mutant had an increased value of k(cat)/K(m) of 72-fold toward 3-oxo-N-dodecanoyl-L-homoserine lactone. The evolved mutant also exhibited lactonase activity toward N-butyryl-L-homoserine lactone, an AHL that was previously not hydrolyzed by the wild-type enzyme. Both the purified wild-type and mutant enzymes contain a mixture of zinc and iron and are colored purple and brown, respectively, at high concentrations. The origin of this coloration is suggested to be because of a charge transfer complex involving the β-cation and Tyr-99 within the enzyme active site. Modulation of the charge transfer complex alters the lactonase activity of the mutant enzymes and is reflected in enzyme coloration changes. We attribute the observed enhancement in catalytic reactivity of the evolved enzyme to favorable modulations of the active site architecture toward productive geometries required for chemical catalysis.
Highlights
The amidohydrolase superfamily of enzymes comprises members that catalyze hydrolytic reactions on a broad range of substrates bearing ester or amide functional groups with carbon or phosphorus centers [1]
Because GKL is isolated from the thermophile G. kaustophilus and we are interested in using this template to develop antivirulence biomolecules for use in the human body, all activity assays were conducted at the physiological temperature of 37 °C
Expression of the inactive D266N GKL mutant (Asp-266 is absolutely conserved in phosphotriesterase-like lactonases (PLLs) and in phosphotriesterases and is located at the end of the eight -strand; protein yields for the D266N mutant were similar to wild-type GKL, and no lactonase activity was detected toward the various acylhomoserine lactones (AHLs) substrates) in the biosensor did not result in quenching of bioluminescence
Summary
Materials—The substrates C4-HSL, N-hexanoyl-DL-homoserine lactone (C6-HSL), N-(3-oxo-hexanoyl)-L-homoserine lactone (3-oxo-C6-HSL), N-octanoyl-DL-homoserine lactone (C8-HSL), N-(3-oxo-octanoyl)-L-homoserine lactone (3-oxoC8-HSL), N-decanoyl-DL-homoserine lactone, ␥-nonalactone, ␦-nonalactone, and paraoxon were purchased from Sigma. 3-oxo-C12-HSL was purchased from Lier Chemical Co. (Sichuan, China). This previous bioassay utilized an isopropyl D-thiogalactopyranoside-inducible high-copy expression plasmid that contributed to significant levels of false positives during the directed evolution process. Construction of Site-specific and Random GKL Mutants— The site-directed single A54T, E101G, D214G, R230C, D266N, and D266A mutants and the various double and triple mutants of GKL were constructed using the QuikChange kit (Stratagene), verified by sequencing, expressed in the BL21(DE3) E. coli cells, and purified as previously described for the wild-type protein These mutants were subcloned into the modified pBAD33 vector for quorum-quenching bioassays as previously described. The double site-specific random library at positions Glu-101 and Arg-230 was obtained by first constructing the Glu-101 library using the DECEMBER 24, 2010 VOLUME 285 NUMBER 52
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