The aim of the proposed study is to investigate whether anti- idiotypic antibodies directed to T cells specific for defined epitopes of a viral protein have merit as vaccines. A murine rabies virus infection will be used as a model system. Initially major T helper cell epitopes of the rabies virus nucleoprotein which has been shown to induce protective immunity to a lethal rabies virus infection will be determined using panels of synthetic peptides. T cell clones to epitopes that are recognized by a significant proportion of rabies virus specific T cells of different genetic backgrounds will be generated, characterized and used to induce antibodies in syngeneic mice. Monoclonal antibodies will be established, their specificity will be identified by binding studies, immunoprecipitation and/or Western blot analysis. Antibodies that specifically bind to idiotopes expressed on the receptor of rabies virus-specific T cells will be used to determine if T cells carry recurrent, dominant idiotopes and if such idiotopes are associated with a given epitope specificity. This will be tested by using a panel of rabies virus-specific T cell clones of different H-2 haplotypes directed to the same or distinct epitopes of the viral nucleoprotein. Anti-idiotypic antibodies especially those which have been identify to recognize public (dominant) idiotopes on virus-specific T cells will be tested initially in vitro for functional activities (i.e. inhibition of an antigen induced T cell response or stimulation of a T cell response in absence of antigen). In vivo the antibodies will be tested for: 1. Induction of a rabies virus-specific T and B cell response in adult mice; 2. Induction of long-term immunological memory to rabies virus; 3. Induction of protective immunity against a subsequent lethal challenge with rabies virus; and 4. Induction of immunity vs. tolerance in neonates. Some of the in vivo studies (induction of T and B cells, protective immunity) will be extended to other species (rabbits and raccoons) to test the efficacy of anti-idiotype vaccines across species barriers.

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI027435-05
Application #
2063844
Study Section
Experimental Virology Study Section (EVR)
Project Start
1989-06-01
Project End
1994-12-31
Budget Start
1993-06-01
Budget End
1994-12-31
Support Year
5
Fiscal Year
1993
Total Cost
Indirect Cost
Name
Wistar Institute
Department
Type
DUNS #
042250712
City
Philadelphia
State
PA
Country
United States
Zip Code
19104
Xiang, Z; Ertl, H C (1995) Manipulation of the immune response to a plasmid-encoded viral antigen by coinoculation with plasmids expressing cytokines. Immunity 2:129-35
Otvos Jr, L; Krivulka, G R; Urge, L et al. (1995) Comparison of the effects of amino acid substitutions and beta-N- vs. alpha-O-glycosylation on the T-cell stimulatory activity and conformation of an epitope on the rabies virus glycoprotein. Biochim Biophys Acta 1267:55-64
Wojczyk, B; Shakin-Eshleman, S H; Doms, R W et al. (1995) Stable secretion of a soluble, oligomeric form of rabies virus glycoprotein: influence of N-glycan processing on secretion. Biochemistry 34:2599-609
Xiang, Z Q; Ertl, H C (1994) A simple method to test the ability of individual viral proteins to induce immune responses. J Virol Methods 47:103-16
Otvos Jr, L; Urge, L; Xiang, Z Q et al. (1994) Glycosylation of synthetic T helper cell epitopic peptides influences their antigenic potency and conformation in a sugar location-specific manner. Biochim Biophys Acta 1224:68-76
Xiang, Z Q; Spitalnik, S; Tran, M et al. (1994) Vaccination with a plasmid vector carrying the rabies virus glycoprotein gene induces protective immunity against rabies virus. Virology 199:132-40
Ertl, H C; Dietzschold, B; Otvos Jr, L (1991) T helper cell epitope of rabies virus nucleoprotein defined by tri- and tetrapeptides. Eur J Immunol 21:1-10
Otvos Jr, L; Wroblewski, K; Kollat, E et al. (1989) Coupling strategies in solid-phase synthesis of glycopeptides. Pept Res 2:362-6