A novel tetrameric gp350 as a potential Epstein–Barr virus vaccine

Infectious mononucleosis and B-cell transformation in response to infection with Epstein–Barr virus (EBV) is dependent upon binding of the EBV envelope glycoprotein gp350 to CD21 on B-cells. Gp350-specific antibody comprises most of the EBV neutralizing activity in the serum of infected patients, making this protein a promising target antigen for a prophylactic EBV vaccine. We describe a novel, tetrameric gp350-based vaccine that exhibits markedly enhanced immunogenicity relative to its monomeric counterpart. Plasmid DNA was constructed for synthesis, within transfected CHO cells, of a tetrameric, truncated (a.a. 1–470) gp350 protein (gp350^1–470). Tetrameric gp350^1–470 induced ∼20-fold higher serum titers of gp350^1–470-specific IgG and >19-fold enhancements in neutralizing titers at the highest dose, and was >25-fold more immunogenic on a per-weight basis than monomeric gp350^1–470. Further, epidermal immunization with plasmid DNA encoding gp350^1–470 tetramer induced 8-fold higher serum titers of gp350^1–470-specific IgG relative to monomer. Tetrameric gp350^1–470 binding to human CD21 was >24-fold more efficient on a per-weight basis than monomer, but neither tetramer nor monomer mediated polyclonal human B-cell activation. Finally, the introduction of strong, universal tetanus toxoid (TT)-specific CD4+ T-cell epitopes into the tetrameric gp350^1–470 had no effect on the gp350^1–470-specific IgG response in naïve mice, and resulted in suppressed gp350^1–470-specific IgG responses in TT-primed mice. Collectively, these data suggest that tetrameric gp350^1–470 is a potentially promising candidate for testing as a prophylactic EBV vaccine, and that protein multimerization, using the approach described herein, is likely to be clinically relevant for enhancing the immunogenicity of other proteins of vaccine interest.     

Isolation and characterisation of 16 microsatellite markers for the endangered Gould’s long-eared bat (Nyctophilus gouldi) and cross-amplification in the lesser long-eared bat (N. geoffroyi)

Sixteen microsatellite markers were developed for use on two species of long-eared bats (Nyctophilus). 454 pyrosequencing of genomic DNA was conducted on N. gouldi which is listed as endangered in South Australia. Fifteen loci successfully amplified on N. gouldi while nine cross-amplified for use on N. geoffroyi. Two populations from south-eastern Australia were genotyped for each species, comprising 91 individuals for N. gouldi and 70 individuals for N. geoffroyi. There was no evidence of linkage disequilibrium and all loci displayed Hardy–Weinberg equilibrium except Nyg19 and Nyg39 which displayed evidence of null alleles in both N. geoffroyi populations. These markers will prove valuable in assessing connectivity between endangered populations of N. gouldi, and facilitate a comparative investigation into the impacts of habitat fragmentation on two vespertilionids.     

Why MSM in Rural South African Communities Should be an HIV Prevention Research Priority

Research into HIV and men who have sex with men’s (MSM) health in South Africa has been largely confined to the metropolitan centres. Only two studies were located making reference to MSM in rural contexts or same-sex behaviors among men in the same. There is growing recognition in South Africa that MSM are not only disproportionately affected by HIV and have been underserved by the country’s national response, but that they contribute significantly to sustaining the high number of new infections recorded each year. We argue that to meet the objectives of the country’s national strategic plan for HIV, STI and TB it is important we know how these behaviours may be contributing to the sustained rural HIV epidemic in the youngest age groups and determine what constitutes appropriate and feasible programmatic response that can be implemented in the country’s public sector health services.     

Hydrogen peroxide is essential for estrogen-deficiency bone loss and osteoclast formation

We recently found that estrogen deficiency leads to a lowering of thiol antioxidant defenses in rodent bone. Moreover, administration of agents that increase the concentration in bone of glutathione, the main intracellular antioxidant, prevented estrogen-deficiency bone loss, whereas depletion of glutathione by buthionine sulfoximine administration provoked substantial bone loss. To analyze further the mechanism by which antioxidant defenses modulate bone loss, we have now compared expression of the known antioxidant enzymes in osteoclasts. We found that glutathione peroxidase 1 (Gpx), the enzyme primarily responsible for the intracellular degradation of hydrogen peroxide, is overwhelmingly the predominant antioxidant enzyme expressed by osteoclasts and that its expression was increased in bone marrow macrophages by receptor activator of nuclear factor-kappaB ligand (RANKL) and in osteoclasts by 17beta-estradiol. We therefore tested the effect of overexpression of Gpx in osteoclasts by stable transfection of RAW 264.7 (RAW) cells, which are capable of osteoclastic differentiation in response to RANKL, with a Gpx-expression construct. Osteoclast formation was abolished. The Gpx expression construct also suppressed RANKL-induced nuclear factor-kappaB activation and increased resistance to oxidation of dihydrodichlorofluorescein by exogenous hydrogen peroxide. We therefore tested the role of hydrogen peroxide in the loss of bone caused by estrogen deficiency by administering pegylated catalase to mice. We found that catalase prevented ovariectomy-induced bone loss. These results suggest that hydrogen peroxide is the reactive oxygen species responsible for signaling the bone loss of estrogen deficiency.