Moshe Leitner scite author profile

Amino acids located within and around the ‘active site gorge’ of human acetylcholinesterase (AChE) were substituted. Replacement of W86 yielded inactive enzyme molecules, consistent with its proposed involvement in binding of the choline moiety in the active center. A decrease in affinity to propidium and a concomitant loss of substrate inhibition was observed in D74G, D74N, D74K and W286A mutants, supporting the idea that the site for substrate inhibition and the peripheral anionic site overlap. Mutations of amino acids neighboring the active center (E202, Y337 and F338) resulted in a decrease in the catalytic and the apparent bimolecular rate constants. A decrease in affinity to edrophonium was observed in D74, E202, Y337 and to a lesser extent in F338 and Y341 mutants. E202, Y337 and Y341 mutants were not inhibited efficiently by high substrate concentrations. We propose that binding of acetylcholine, on the surface of AChE, may trigger sequence of conformational changes extending from the peripheral anionic site through W286 to D74, at the entrance of the ‘gorge’, and down to the catalytic center (through Y341 to F338 and Y337). These changes, especially in Y337, could block the entrance/exit of the catalytic center and reduce the catalytic efficiency of AChE.

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Attenuated Nontoxinogenic and Nonencapsulated Recombinant Bacillus anthracis Spore Vaccines Protect against Anthrax

Cohen

et al. 2000

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Several highly attenuated spore-forming nontoxinogenic and nonencapsulated Bacillus anthracis vaccines differing in levels of expression of recombinant protective antigen (rPA) were constructed. Biochemical analyses (including electrospray mass spectroscopy and N terminus amino acid sequencing) as well as biological and immunological tests demonstrated that the rPA retains the characteristics of native PA. A single immunization of guinea pigs with 5 ؋ 10 7 spores of one of these recombinant strains, MASC-10, expressing high levels of rPA (>100 g/ml) from a constitutive heterologous promoter induced high titers of neutralizing anti-PA antibodies. This immune response was long lasting (at least 12 months) and provided protection against a lethal challenge of virulent (Vollum) anthrax spores. The recombinant B. anthracis spore vaccine appears to be more efficacious than the vegetative cell vaccine. Furthermore, while results clearly suggest a direct correlation between the level of expression of PA and the potency of the vaccine, they also suggest that some B. anthracis spore-associated antigen(s) may contribute in a significant manner to protective immunity.The etiological agent of anthrax disease in animals and humans is the spore-forming bacterium Bacillus anthracis. The major factors of virulence of B. anthracis are located on two plasmids, pXO1 and pXO2. pXO2 encodes a poly-D-glutamic acid capsule (19, 41), while pXO1 encodes two binary exotoxins, the lethal toxin (LT) and the edema toxin (ET) (43,46,61). These two toxins are composed of three different proteins: protective antigen (PA), edema factor (EF), and lethal factor (LF) (for a review, see reference 36). PA is the common receptor binding domain of the toxins and can interact with the two different effector domains, EF and LF, to mediate their entry into target cells (14). EF is a calmodulin-dependent adenylate cyclase (37) responsible for the edema seen at the site of infection in experimental animals (17). The LF is a metalloprotease (34) recently shown to cleave the amino termini of the mitogen-activated protein kinase kinases 1 and 2, which results in their inactivation (13). It remains to be determined whether these are the main physiological substrates for the LT activity in vivo (5,22).Two types of anthrax vaccines are licensed for use in humans: the spores of the toxigenic, nonencapsulated B. anthracis STI-1 strain (55) and the cell-free PA-based vaccines consisting of aluminum hydroxide-adsorbed supernatant material from cultures of the toxigenic, nonencapsulated B. anthracis strain V770-NPI-R (49) or alum-precipitated culture filtrate from the Sterne strain (6). The use of the live attenuated STI-1 occasionally results in general and local adverse responses, observed both after primary application and revaccination, and the frequency of responses increases with the number of vaccinations (58). Furthermore, it was reported that the STI-1 vaccine has a relatively low immunogenicity (reviewed by Stepanov et al. in reference 58). To increase the i...

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Dissection of the human acetylcholinesterase active center determinants of substrate specificity. Identification of residues constituting the anionic site, the hydrophobic site, and the acyl pocket

Ordentlich

Barak

Kronman

et al. 1993

Journal of Biological Chemistry

305

146

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Production and secretion of high levels of recombinant human acetylcholinesterase in cultured cell lines: microheterogeneity of the catalytic subunit

Kronman

Velan

Gozes

et al. 1992

Gene

126

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N-glycosylation of human acetylcholinesterase: effects on activity, stability and biosynthesis

Velan

Kronman

Ordentlich

et al. 1993

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The role of N-glycosylation in the function of human acetylcholinesterase (HuAChE) was examined by site-directed mutagenesis (Asn to Gln substitution) of the three potential N-glycosylation sites Asn-265, Asn-350 and Asn-464. Analysis of HuAChE mutants, defective in a single or multiple N-glycosylation sites, by expression in transiently or stably transfected human embryonal 293 kidney cells suggests the following. (a) All three AChE glycosylation signals are utilized, but not all the secreted molecules are fully glycosylated. (b) Glycosylation at all sites is important for effective biosynthesis and secretion; extracellular AChE levels in mutants defective in one, two or all three sites amounted to 20-30%, 2-4% and about 0.5% of wild-type level respectively. (c) Some glycosylation mutants display impaired stability, as reflected by increased susceptibility to heat inactivation; substitution of Asn-464 has the most pronounced effect on thermostability. (d) Abrogation of N-glycosylation has no detectable effect on the enzyme activity of HuAChE; all glycosylation mutants, including the triple mutant, hydrolyse acetylthiocholine efficiently, displaying Km, kcat. and kcat./Km values similar to those of the wild-type enzyme. (e) In most mutants, inhibition profiles with edrophonium and bisquaternary ammonium ligands are identical with those of wild-type enzyme; the Asn-350 mutants, however, exhibit a slight decrease in their affinity towards these ligands. (f) Elimination of oligosaccharide side chains has no detectable effect on the surface-related 'peripheral-site' functions; like the wild-type enzyme, all mutants were inhibited by propidium and by increased concentrations of acetylthiocholine.

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Moshe Leitner

Substrate inhibition of acetylcholinesterase: residues affecting signal transduction from the surface to the catalytic center.

Attenuated Nontoxinogenic and Nonencapsulated Recombinant Bacillus anthracis Spore Vaccines Protect against Anthrax

Dissection of the human acetylcholinesterase active center determinants of substrate specificity. Identification of residues constituting the anionic site, the hydrophobic site, and the acyl pocket

Production and secretion of high levels of recombinant human acetylcholinesterase in cultured cell lines: microheterogeneity of the catalytic subunit

N-glycosylation of human acetylcholinesterase: effects on activity, stability and biosynthesis

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