Abstract

Generating immunogenic, nontoxic forms of bacterial toxins (toxoids) is a potentially important application of recombinant DNA technology. The current project has two major goals: (1) to generate an effective recombinant toxoid of Pseudomonas aeruginosa exotoxin A (ETA), and (2) to provide a model system for generating toxoids by mutagenizing active- site residues for cloned toxins. We have used photoaffinity labelling to identify glutamic acid-553 (Glu-553, or E553) as a crucial active- site residue of ETA and employed oligonucleotide-directed mutagenesis to delete this residue or replace it with other amino acids. In continuing these studies we will focus on ETA-E553X, a candidate toxoid formed by specifically deleting Glu-553. We will develop improved methods for producing ETA-E553X and other cloned recombinant antigens in quantity in P. aeruginosa, and perform a more thorough characterization of the biological and biochemical properties of ETA-E553X. This mutant toxin will be subjected to phase 1 safety and immunogenicity trials in humans, and will be used to prepare protein-polysaccharide conjugates with various P. aeruginosa polysaccharide components. We will also generate and characterize other candidate recombinant toxoids of ETA. These studies may have important applications in controlling P. aeruginosa infections; and lessons learned about toxoid construction by mutagenizing active-site residues could be widely applicable.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI022848-07
Application #
3134440
Study Section
Bacteriology and Mycology Subcommittee 2 (BM)
Project Start
1986-07-01
Project End
1994-06-30
Budget Start
1992-07-01
Budget End
1993-06-30
Support Year
7
Fiscal Year
1992
Total Cost
Indirect Cost

  Institution

Name
Harvard University
Department
Type
Schools of Medicine
DUNS #
082359691
City
Boston
State
MA
Country
United States
Zip Code
02115

  Publications

Gupta, R K; Collier, R J; Rappuoli, R et al. (1997) Differences in the immunogenicity of native and formalinized cross reacting material (CRM197) of diphtheria toxin in mice and guinea pigs and their implications on the development and control of diphtheria vaccine based on CRMs. Vaccine 15:1341-3
Blanke, S R; Milne, J C; Benson, E L et al. (1996) Fused polycationic peptide mediates delivery of diphtheria toxin A chain to the cytosol in the presence of anthrax protective antigen. Proc Natl Acad Sci U S A 93:8437-42
Oh, K J; Zhan, H; Cui, C et al. (1996) Organization of diphtheria toxin T domain in bilayers: a site-directed spin labeling study. Science 273:810-2
Ballard, J D; Collier, R J; Starnbach, M N (1996) Anthrax toxin-mediated delivery of a cytotoxic T-cell epitope in vivo. Proc Natl Acad Sci U S A 93:12531-4
Marsischky, G T; Wilson, B A; Collier, R J (1995) Role of glutamic acid 988 of human poly-ADP-ribose polymerase in polymer formation. Evidence for active site similarities to the ADP-ribosylating toxins. J Biol Chem 270:3247-54
Milne, J C; Blanke, S R; Hanna, P C et al. (1995) Protective antigen-binding domain of anthrax lethal factor mediates translocation of a heterologous protein fused to its amino- or carboxy-terminus. Mol Microbiol 15:661-6
Zhan, H; Oh, K J; Shin, Y K et al. (1995) Interaction of the isolated transmembrane domain of diphtheria toxin with membranes. Biochemistry 34:4856-63
Mindell, J A; Zhan, H; Huynh, P D et al. (1994) Reaction of diphtheria toxin channels with sulfhydryl-specific reagents: observation of chemical reactions at the single molecule level. Proc Natl Acad Sci U S A 91:5272-6
Blanke, S R; Huang, K; Collier, R J (1994) Active-site mutations of diphtheria toxin: role of tyrosine-65 in NAD binding and ADP-ribosylation. Biochemistry 33:15494-500
Lu, G; de Vetten, N C; Sehnke, P C et al. (1994) A single Arabidopsis GF14 isoform possesses biochemical characteristics of diverse 14-3-3 homologues. Plant Mol Biol 25:659-67

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