The Search for a New-Generation Human Anthrax Vaccine

Abstract

Anthrax is a disease primarily of herbivores, but humans can become infected through contact with infected animals or animal products. The etiological agent, Bacillus anthracis, possesses two primary virulence factors: a poly-D-glumatic acid capsule and an exotoxic mixture of three proteins: protective antigen (PA), edema factor (EF), and lethal factor (LF). None of the three proteins individually possesses demonstrable toxic activity; however, intravenous injection of PA + LF kills mice, rats, and guinea pigs, whereas intradermal injection of PA + EF produces edematous lesions in the skin of guinea pigs and rabbits. The combination of PA + LF is termed lethal toxin, whereas PA + EF is referred to as edema-producing toxin. The conventional designation for mixtures of all three components is anthrax toxin. The genes encoding PA, EF, and LF are located on a 174-kilobase (kb) plasmid, pXO1; the genes responsible for capsule synthesis are on a 91 kb plasmid, pXO2. In the United States, the currently licensed human vaccine against anthrax (designated here as MDPH-PA) consists of aluminum hydroxide-absorbed, supernatant material, primarily PA (11), from fermenter cultures of another toxinogenic, nonencapsulated strain, V770-Np1-R. Immunization with MDPH-PA requires a series of six doses within 18 mo, followed by yearly boosters. Immunization occasionally results in local pain and inflammation, and there is some evidence indicating that MDPH-PA may have diminished efficacy against certain virulent strains of B. The need for an improved human vaccine against anthrax is apparent.

Document Details

Document Type

Technical Report

Publication Date

Nov 19, 1987

Accession Number

ADA190178

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