Alfio Comis

Stabilization of lethal and hemolytic activities of box jellyfish (Chironex fleckeri) venom.

The stability of both the lethal and hemolytic activities of box jellyfish (Chironex fleckeri) tentacle extract was assessed after various extraction procedures. Both activities were higher when no buffers or water were used during the initial extraction. Also, when the extract was first filtered through a Sep-pak C18 cartridge, the residual lethal titre, after incubation for 24 hr at room temperature, was increased 16-fold and hemolysis was increased 2.6-fold. Evidence for proteolytic activity in the extract was also obtained and monitored by size exclusion HPLC.

Direct immunization with synthetic peptidyl-polyamide resin: Comparison with antibody production from free peptide and conjugates with carrier proteins

An 11-amino acid residue peptidyl-linkage agent-polyamide resin complex was synthesized by the fluorenylmethyloxycarbonyl (Fmoc)-polyamide solid-phase system. Mice were immunized with the free peptide, peptidyl-resin and peptide coupled to the carrier proteins ovalbumin (Ova) and keyhole limpet haemocyanin (KLH). The immunogenicity of these materials was assessed by measurement of the capacity of the various antisera to bind the peptide in an enzyme-linked immunosorbent assay (ELISA). The peptidyl-resin exhibited enhanced immunogenicity compared to the free peptide. It is suggested that the time needed for screening for immunogenicity of large numbers of synthetic peptides thus be greatly shortened by using peptidyl-resins for immunization. This method eliminates laborious cleavage of peptide from resin, purification, coupling to carrier and the difficulties of handling peptides of low solubility.

Protection of monkeys against the lethal effects of male funnel-web spider (Atrax robustus) venom by immunization with a toxoid

A stable toxoid was prepared from robustoxin (the lethal polypeptide neurotoxin in the venom of the male funnel-web spider, Atrax robustus) by polymerization with glutaraldehyde. This material was non-toxic in new-born mice. Administration of the toxoid to three Macaca fascicularis monkeys (50-80 micrograms/kg s.c. at 14-day intervals for 8-12 weeks) produced no toxic effects; anti-robustoxin antibodies were detected in serum samples by immunodiffusion tests within 13-27 days. In vivo evidence of successful protection with the toxoid was obtained by challenging the monkeys with male A. robustus venom (50 micrograms/kg i.v.) under anaesthesia with pentobarbitone (one monkey), or with ketamine, halothane and nitrous oxide, 1-26 weeks after the last injection of the toxoid. Only minor respiratory, cardiovascular and skeletal motor disturbances were produced, and all monkeys recovered fully and uneventfully. Challenge with the same dose of venom in non-immunized or robustoxin N-terminal decapeptide ovalbumin conjugate-treated monkeys resulted in typical lethal neurotoxic effects, culminating in severe hypotension or death from circulatory and respiratory failure within 280 min.

An endogenous antitoxin to the lethal venom of the funnel web spider, Atrax robustus, in rabbit sera

1. An endogenous antitoxin fraction was isolated from non-immune rabbit sera by affinity chromatography with robustoxin bound to the solid support. 2. Robustoxin is the sole lethal toxin in the venom of the male funnel web spider, Atrax robustus. 3. The fraction was found to contain IgG and IgM immunoglobulins. 4. This fraction prevented or reversed the lethal actions of the crude venom in newborn mice, in mouse phrenic nerve-hemidiaphragm preparations, and in anaesthetized monkeys. 5. The antitoxin fraction is of potential value in the therapy of human envenomation by A. robustus.

Immunization with a synthetic robustoxin derivative lacking disulphide bridges protects against a potentially lethal challenge with funnel-web spider (Atrax robustus) venom

The venom of male Atrax robustus spiders is potentially lethal to primates. These spiders have been responsible for a number of human deaths. Robustoxin is the lethal toxin in the venom. It is a highly cross-linked polypeptide that has 42 amino acid residues and four disulphide bridges. If these bridges are broken, the resulting polypeptide is nontoxic. Robustoxin was chemically synthesized with all of its eight cysteine residues protected with acetamidomethyl groups in order to avoid formation of disulphide bridges. The resulting derivative was co-polymerized with keyhole limpet haemocyanin. Two Macaca fascicularis monkeys were immunized with this conjugate. The monkeys were challenged, under anaesthesia, with a potentially lethal dose of male A. robustus crude venom. Both monkeys showed some minor symptoms of intoxication but recovered fully with no adverse after-effects. Immunization with the same immunogen, in the absence of keyhole limpet haemocyanin, did not protect a third monkey. The N-terminal 23 amino acid peptide derived from the sequence of robustoxin was synthesized and conjugated with ovalbumin. A fourth monkey was immunized with this conjugate. However, it was not protected against challenge. The implications of these results for the preparation of synthetic peptide vaccines are discussed.