Tadeusz J. Wiktor

Bio: Tadeusz J. Wiktor is an academic researcher from Wistar Institute. The author has contributed to research in topics: Rabies virus & Virus. The author has an hindex of 34, co-authored 60 publications receiving 4191 citations. Previous affiliations of Tadeusz J. Wiktor include Children's Hospital of Philadelphia & Haffkine Institute.

Characterization of an antigenic determinant of the glycoprotein that correlates with pathogenicity of rabies virus

Abstract: The pathogenicity of fixed rabies virus strains for adult mice depends on the presence of an antigenic determinant on the viral glycoprotein. Two virus-neutralizing monoclonal antibodies have been used to identify this determinant. All pathogenic strains of fixed rabies virus bind to these antibodies and are neutralized by them, whereas nonpathogenic strains fail to react with these monoclonal antibodies and are not neutralized by them. Antigenic variants of the rabies virus with altered glycoprotein were selected by growing virus in the presence of one monoclonal antibody, 194-2. All variants that lost their ability to react with this antibody and an additional antibody, 248-8, were found to be nonpathogenic for adult mice. Analysis of tryptic peptides of the glycoproteins of pathogenic parent virus and nonpathogenic variants and the amino acid sequence of a specific variant tryptic peptide revealed that the change in pathogenicity corresponded to an amino acid substitution at position 333 of the glycoprotein molecule. The nucleotide sequence of the nonpathogenic variant glycoprotein gene contained a base change that confirmed the single amino acid substitution in the tryptic peptide replacing arginine-333 in the parental glycoprotein. We conclude that arginine-333 is essential for the integrity of an antigenic determinant and for the ability of rabies viruses to produce lethal infection in adult mice.

Protection from rabies by a vaccinia virus recombinant containing the rabies virus glycoprotein gene

Abstract: Inoculation of rabbits and mice with a vaccinia-rabies glycoprotein recombinant (V-RG) virus resulted in rapid induction of high concentrations of rabies virus-neutralizing antibodies and protection from severe intracerebral challenge with several strains of rabies virus. Protection from virus challenge also was achieved against the rabies-related Duvenhage virus but not against the Mokola virus. Effective immunization by V-RG depended on the expression of a rabies glycoprotein that registered proline rather than leucine as the eighth amino acid from its NH2 terminus (V-RGpro8). A minimum dose required for effective immunization of mice was 10(4) plaque-forming units of V-RGpro8 virus. beta-propiolactone-inactivated preparations of V-RGpro8 virus also induced high levels of rabies virus-neutralizing antibody and protected mice against intracerebral challenge with street rabies virus. V-RGpro8 virus was highly effective in priming mice to generate a secondary rabies virus-specific cytotoxic T-lymphocyte response following culture of lymphocytes with either ERA or PM strains of rabies virus.

Antigenic Properties of Rabies Virus Components

Abstract: The envelope glycoprotein of rabies virus was shown to be the antigen responsible for the induction of virus neutralizing (VN) antibody formation and for the protection of animals against subsequent challenge with rabies virus. Preparation of two other envelope proteins and of the nucleocapsid protein, derived from disrupted virions, induced the formation of only low levels of VN antibody and protection of animals against rabies, which could be explained by the amount of residual glycoprotein present in these preparations. Purified preparations of free viral nucleocapsid, isolated from infected cells, did not induce VN antibody formation, but elicited, in immunized animals, the formation of antibodies demonstrable by complement fixation or fluorescent antibody tests.

Oral immunization and protection of raccoons (Procyon lotor) with a vaccinia-rabies glycoprotein recombinant virus vaccine.

Abstract: Animal rabies control has been frustrated by the existence of multiple wildlife reservoirs and the lack of efficacious oral vaccines. In this investigation, raccoons fed a vaccinia-rabies glycoprotein recombinant virus in a sponge bait developed rabies virus-neutralizing antibody (0.6-54.0 units) and resisted street rabies virus infection 28 and 205 days after feeding. Additional raccoons immunized by oral infusion with attenuated antigenic variants of rabies virus strains CVS-11 and ERA failed to develop rabies virus-neutralizing antibody. This work demonstrates the feasibility of a recombinant virus vaccine containing the rabies glycoprotein gene for immunization of raccoons, and possibly other wildlife, to obtain long-term protection against rabies.

Antigenic sites on the CVS rabies virus glycoprotein: analysis with monoclonal antibodies.

Abstract: Antigenic variation in the glycoprotein of rabies (CVS-11) virus was studied. Neutralization-resistant variant viruses were isolated in vitro at high frequency (10(-4) to 10(-5)) in the presence of anti-glycoprotein monoclonal antibody. Analysis of these variants identified at least three functionally independent antigenic sites, based on the grouping of variants that were no longer neutralized by one or more of a panel of 24 monoclonal antibodies. Competition radioimmunoassay suggested that one of these three antigenic sites was topologically distinct, with the other two in close proximity. In addition, it was shown that most (but not all) neutralization-resistant variants failed to bind the relevant monoclonal antibody. Viruses with altered antigenicity were shown to accumulate in virus stocks following several passages in vitro in the absence of antibody. In addition, variants were isolated in vivo following treatment of mice with monoclonal antibody.

Rapid evolution of RNA genomes

Abstract: RNA viruses show high mutation frequencies partly because of a lack of the proofreading enzymes that assure fidelity of DNA replication. This high mutation frequency is coupled with high rates of replication reflected in rates of RNA genome evolution which can be more than a millionfold greater than the rates of the DNA chromosome evolution of their hosts. There are some disease implications for the DNA-based biosphere of this rapidly evolving RNA biosphere.

Vaccinia virus expression vector: coexpression of beta-galactosidase provides visual screening of recombinant virus plaques.

Abstract: We constructed a plasmid coexpression vector that directs the insertion of a foreign gene of interest together with the Escherichia coli beta-galactosidase (beta gal) gene into the thymidine kinase (TK) locus of the vaccinia virus genome. Tissue culture cells that had been infected with vaccinia virus were transfected with a plasmid vector containing a foreign gene. TK- recombinants could be selected by a plaque assay on TK- cells in the presence of 5-bromodeoxyuridine and distinguished from spontaneous TK- mutants by the addition of a beta-gal indicator to the agarose overlay. Plaques that expressed beta-gal stained dark blue within several hours at 37 degrees C. Alternatively, TK- selection could be eliminated, and recombinant plaques could be readily identified solely by their blue color. The reverse procedure, in which the starting virus expresses beta-gal (i.e., forms blue plaques) and the desired recombinant has deleted the entire beta-gal gene (i.e., forms white plaques), is another alternative. Each protocol was tested by constructing vaccinia virus recombinants that express hepatitis B virus surface antigen.

A sequence pattern common to T cell epitopes.

Abstract: An analysis of the known cytotoxic and helper T cell epitopes has revealed similarity within their primary sequences These similar motifs, characteristic of the known determinants, have been incorporated into predictive templates that have been used successfully to define eight helper and three cytotoxic epitopes in four different proteins When the defined epitopes are segregated by restriction element, allele specific subpatterns emerge centering around the general pattern The presence of similarities argues that the binding of peptide antigens to class I and class II is similar in nature In addition, these motifs can be used to predict accurately areas within proteins capable of being recognized by individual MHC class I and class II molecules

Laboratory Techniques in Rabies

Abstract: Laboratory techniques in rabies , Laboratory techniques in rabies , مرکز فناوری اطلاعات و اطلاع رسانی کشاورزی

Genetically engineered poxviruses for recombinant gene expression, vaccination, and safety

Abstract: Vaccinia virus, no longer required for immunization against smallpox, now serves as a unique vector for expressing genes within the cytoplasm of mammalian cells. As a research tool, recombinant vaccinia viruses are used to synthesize and analyze the structure-function relationships of proteins, determine the targets of humoral and cell-mediated immunity, and investigate the types of immune response needed for protection against specific infectious diseases and cancer. The vaccine potential of recombinant vaccinia virus has been realized in the form of an effective oral wild-life rabies vaccine, although no product for humans has been licensed. A genetically altered vaccinia virus that is unable to replicate in mammalian cells and produces diminished cytopathic effects retains the capacity for high-level gene expression and immunogenicity while promising exceptional safety for laboratory workers and potential vaccine recipients.