Anti-anti-idiotypic (Ab3) antibodies that bind progesterone-11alpha-bovine serum albumin differ in their combining sites from antibodies raised directly against the antigen

Structural analysis and in vivo administration of an anti-idiotypic antibody against mAb 2F5

Anti-idiotypic antibody (Ab2) 3H6 is directed against the human monoclonal antibody 2F5, which is one of a few neutralising antibodies against HIV-1. Since the binding epitope of 2F5 is cryptic and no neutralising immune response could be elicited by several potential vaccines comprising this region, Ab2/3H6 represents a potent vaccine candidate for active immunisation. Here we describe the molecular features of Ab2/3H6 after changing the antigen binding specificity by single point mutations in the complementarity-determining region 3 of the Ab2/3H6 heavy chain. The resulting Ab2/3H6 mutants were compared in several experimental settings to the wild type Ab2/3H6 Fab fragment. Moreover, we report about an immunisation study with Ab2/3H6 Fab variants, which elicited a specific 2F5-like humoral immune response in BALB/c mice.

Efficacy of an anti-fertility vaccine based on mammalian gonadotrophin releasing hormone (GnRH-I)—a histological comparison in male animals

A N-terminal modified gonadotrophin releasing hormone (GnRH-I, tetanus toxoid-CHWSYGLRPG-NH2) conjugate was evaluated histologically in a number of male animal species (mice, dogs and sheep). The immunogen has previously been shown to be highly effective in rats, by suppressing both steroidogenesis and spermatogenesis. However, cross-species efficacy of peptide vaccines is known to be highly variable. Therefore, a comparative evaluation of reproductive tissues from animals immunized against this immunogen adsorbed onto an alum-based adjuvant was made. The sheep and dogs were chosen, as use of anti-fertility vaccines in these species is important in farming and veterinary practice. Changes in testicular size were measured during the immunization period and the greatest alteration (attributed to gonadal atrophy) was observed in the rat. Following euthanasia, the testicular tissue was evaluated for spermatogenesis. The most susceptible species to GnRH-I ablation was the rat, which showed significant (P < 0.0001) arrest in spermatogenesis compared with untreated controls. Testicular sections taken from treated animals were completely devoid of spermatozoa or spermatids, in comparison with 94% of the untreated controls showing evidence of spermatogenesis. The immunized mice and rams also showed significant arrest (P < 0.0001). There was a 30-45% decrease in spermatogenesis and total azoospermia was not apparent. However, the least responsive were the dogs, which showed little significant variation compared to untreated animals and only a 5% decrease in activity. A comparison of the specific IgG response to GnRH-I indicated that in sheep and dogs the response was not maintained, unlike in rodents, suggesting that suppression of fertility may be due to differences in immune responses in different animal species.

Homology of ab1 and ab3 monoclonal antibodies that neutralize Semliki Forest virus

A noninternal image monoclonal antiidiotypic antibody (ab2 mAb), designated 1.13A321, that had proved its efficacy as vaccine against infection with Semliki Forest virus (SFV) in BALB/c mice, was used as immunogen to generate a panel of SFV-neutralizing monoclonal anti-anti-idiotypic antibodies (ab3 mAbs) to compare them genetically with ab1 mAb 1.13 (IgG2a). There are various studies that compare ab1 and ab3 mAbs but none that compare virus-neutralizing ab1 and ab3 mAbs. Five SFV-neutralizing ab3 MAbs, all IgG1, were obtained. The Vh gene (36-60), the D gene (Sp2), and the J gene (Jh2) encoding the heavy chain variable regions of all six mAbs, were similar and showed a high homology in the nucleotide sequence. The CDR3 amino acid sequences of four of five ab3 mAbs were identical to that of mAb1. One ab3 differed one amino acid in the CDR3 region. The results suggest that a strict selection criterion (virus neutralization) is sufficient to reach complete homology in the CDR3 region of mAb3. Future experiments are focused on selection of synthetic peptides in the CDR3 region as neutralizing mini-antibodies.