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...
The role of the functional architecture of the human acetylcholinesterase (HuAChE) active centre in accommodating the non-covalent inhibitors tacrine and huperzine A, or the carbamates pyridostigmine and physostigmine, was analysed using 16 mutants of residues lining the active-centre gorge. Despite the structural diversity of the ligands, certain common properties of the complexes could be observed: (a) replacement of aromatic residues Tyr133, Tyr337 and especially Trp86, resulted in pronounced changes in stability of all the complexes examined; (b) effects due to replacements of the five other aromatic residues along the active-centre gorge, such as the acyl pocket (Phe295, Phe297) or at the peripheral anionic site (Tyr124, Trp286, Tyr341) were relatively small; (c) effects due to substitution of the carboxylic residues in the gorge (Glu202, Glu450) were moderate. These results and molecular modelling indicate that the aromatic side chains of residues Trp86, Tyr133 and Tyr337 form together a continuous 'aromatic patch' lining the wall of the active-centre gorge, allowing for the accommodation of the different ligands via multiple modes of interaction. Studies with HuAChE mutants carrying replacements at positions 86, 133 and 337 indicate that the orientations of huperzine A and tacrine in the HuAChE complexes in solution are significantly different from those observed in X-ray structures of the corresponding complexes with Torpedo californica AChE (TcAChE). These discrepancies may be explained in terms of structural differences between the complexes of HuAChE and TcAChE or, more likely, by the enhanced flexibility of the AChE active-centre gorge in solution as compared with the crystalline state.
In a search for novel attenuated vaccine candidates for use against Yersinia pestis, the causative agent of plague, a signature-tagged mutagenesis strategy was used and optimized for a subcutaneously infected mouse model. A library of tagged mutants of the virulent Y. pestis Kimberley53 strain was generated. Screening of 300 mutants through two consecutive cycles resulted in selection of 16 mutant strains that were undetectable in spleens 48 h postinfection. Each of these mutants was evaluated in vivo by assays for competition against the wild-type strain and for virulence following inoculation of 100 CFU (equivalent to 100 50% lethal doses [LD 50 ] of the wild type). A wide spectrum of attenuation was obtained, ranging from avirulent mutants exhibiting competition indices of 10 ؊5 to 10 ؊7 to virulent mutants exhibiting a delay in the mean time to death or mutants indistinguishable from the wild type in the two assays. Characterization of the phenotypes and genotypes of the selected mutants led to identification of virulence-associated genes coding for factors involved in global bacterial physiology (e.g., purH, purK, dnaE, and greA) or for hypothetical polypeptides, as well as for the virulence regulator gene lcrF. One of the avirulent mutant strains (LD 50 , >10 7 CFU) was found to be disrupted in the pcm locus, which is presumably involved in the bacterial response to environmental stress. This Kimberley53pcm mutant was superior to the EV76 live vaccine strain because it induced 10-to 100-fold-higher antibody titers to the protective V and F1 antigens and because it conferred efficacious protective immunity.The three pathogenic Yersinia species, Yersinia pestis, Yersinia pseudotuberculosis, and Yersinia enterocolitica, are closely related but differ in the mode of infection. Both Y. enterocolitica and Y. pseudotuberculosis are fecal-oral pathogens that cause invasive gastrointestinal diseases. On the other hand, infection with Y. pestis, the causative agent of plague, which is transmitted either by an infected-flea bite or as an inhaled aerosol, culminates in a fatal disease. Most of the documented Y. pestis virulence factors are encoded by the 70-kb plasmid common to all three Yersinia pathogenic species (5,12,15,16,36). Only a few virulence factors that are unique to Y. pestis are known to reside on the strain-specific plasmids (pMT1 and pPCP1) (35). The pMT1 virulence plasmid (19,26,34) harbors, in addition to the sequences encoding the known virulence factors murine toxin and fraction 1 (F1) capsular antigen, sequences encoding several hypothetical proteins whose relevance to Y. pestis pathogenesis remains to be determined. Moreover, the recently completed genome sequences of two Y. pestis strains, CO92 and KIM (14, 34), revealed the dynamic nature of the genome, the presence of many pseudogenes, and the existence of genes encoding hypothetical proteins residing in several putative pathogenicity islands, whose effects on Y. pestis pathogenicity remain to be carefully studied (14,34).During the last deca...
Acetylcholinesterases (AChEs) are characterized by a high net negative charge and by an uneven surface charge distribution, giving rise to a negative electrostatic potential extending over most of the molecular surface. To evaluate the contribution of these electrostatic properties to the catalytic efficiency, 20 single‐ and multiple‐site mutants of human AChE were generated by replacing up to seven acidic residues, vicinal to the rim of the active‐center gorge (Glu84, Glu285, Glu292, Asp349, Glu358, Glu389 and Asp390), by neutral amino acids. Progressive simulated replacement of these charged residues results in a gradual decrease of the negative electrostatic potential which is essentially eliminated by neutralizing six or seven charges. In marked contrast to the shrinking of the electrostatic potential, the corresponding mutations had no significant effect on the apparent bimolecular rate constants of hydrolysis for charged and non‐charged substrates, or on the Ki value for a charged active center inhibitor. Moreover, the kcat values for all 20 mutants are essentially identical to that of the wild type enzyme, and the apparent bimolecular rate constants show a moderate dependence on the ionic strength, which is invariant for all the enzymes examined. These findings suggest that the surface electrostatic properties of AChE do not contribute to the catalytic rate, that this rate is probably not diffusion‐controlled and that long‐range electrostatic interactions play no role in stabilization of the transition states of the catalytic process.
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