HBsAg-vectored DNA vaccines elicit concomitant protective responses to multiple CTL epitopes relevant in human disease.

Vaccines capable of controlling neoplastic and infectious diseases which depend on the cellular immune response for their resolution, have proven difficult to develop. We, and others, have previously demonstrated that the potent immunogenicity of hepatitis B surface antigen (HBsAg), the already- licensed human vaccine for hepatitis B infection, may be exploited to deliver foreign antigens for cytotoxic T-lymphocyte (CTL) induction. In this study we demonstrate that recombinant (r) HBsAg DNA delivering a CTL polyepitope appended at the C' terminus elicits concomitant responses to multiple epitopes restricted through a diversity of MHC class I haplotypes, which are relevant in a number of human diseases. We show that the rHBsAg DNA vaccine elicits concomitant protection against neoplastic and infectious disease. These studies vindicate the use of HBsAg as a powerful vector to deliver CTL responses to foreign antigens, and have implications for a multi-disease vaccine applicable to the HLA-polymorphic human population

Molecular analysis of Australian Newcastle disease virus isolates

The results presented demonstrate that outbreaks of virulent Newcastle disease in Australia arose from the emergence of virulent virus from an endemic avirulent quasispecies. Environmental selection pressures, or industrial practices, led to the emergence of this species and its dominance in several distinct ourbreaks from 1998-2002

An evaluation of the action of thioesterases on the surface of wool

The thioesterase activity of palmitoyl protein thioesterase (PPT1) and six commercial lipases was measured against the synthetic substrates, S-palmitoyl-N-acetylcysteamine (Ac-Cym-Pal) and S-(18-methyleicosanoyl)-N-acetylcysteamine (Ac-Cym-18-MEA). PPT1 showed good activity against Ac-Cym-Pal but relatively low activity against the longer chain substrate, Ac-Cym-18-MEA. The highest activity was given by Lipolase 100L type EX (Novozyme) and Lipoprotein Lipase (Sigma) with greater than 90% hydrolysis of Ac-Cym-18-MEA within 10 min at pH 7.4. Other lipases to show high levels of thioesterase activity include Lipex 100L (Novozyme), Lipomod 34P (Biocatalysts) and Lipozyme CALB L (Novozyme). Chemical analysis of wool fibre and fabric treated with the above enzymes under optimal conditions showed that there was no hydrolysis of 18-MEA or other covalently bound fatty acids from the fibre surface. No change in the wettability of the fabric surface was observed following enzyme treatments. Scanning electron micrographs of the fabric treated with the most active enzyme, Lipolase 100L type EX, revealed that the surface of the fibres appeared to have a coating that was not removed by extensive extraction. Reasons for the inability of PPT1 and the other esterases to hydrolyse 18-MEA from the wool fibre surface are discussed

Characterisation of an Australian bat lyssavirus variant isolated from an insectivorous bat

In 1996 a variant lyssavirus was isolated from an insectivorous bat (yellow bellied, sheath tail bat*/Saccolaimus flaviventris ) in Australia. The nucleocapsid protein (N), matrix protein (M), phosphoprotein (P), glycoprotein (G) and polymerase (L) genes of the Australian bat lyssavirus (ABL) insectivorous isolate were compared with that previously described from a frugivorous bat (Pteropus sp.), and showed sequence divergence at both the nucleotide and amino acid sequence level of 20% and 4/12%, respectively. Comparison of deduced protein sequences of ABL isolates from Pteropus and insectivorous bats, showed that viral isolates were homologous and varied by only a few percent. However, these viruses separated into two distinct clades; those isolated from Pteropus or those from Saccolaimus flaviventris bats, when comparisons were made at the nucleotide level. Nucleoprotein sequence comparisons also showed insectivorous isolates to be of the same putative genotype (genotype 7) as that isolated from frugivorous bats. Immediately after the isolation of ABL from an insectivorous bat, the first human case of ABL infection was identified. PCR and sequence analysis done on cerebrospinal fluid, brain and virus isolated from fresh brain tissue of this human case, was consistent with this infection originating from an insectivorous bat. Monoclonal antibody profiling studies of the virus isolated from the human brain tissues supported this conclusion. Sequence comparisons done on the nucleocapsid (N) gene of insectivorous or frugivorous bats showed no geographic associations between isolates but did delineate between the variants of ABL in Australia

Viability of Pseudomonas aeruginosa in cough aerosols generated by persons with cystic fibrosis

This is the author’s version of a work that was submitted/accepted for pub-lication in the following source

Analysis of Newcastle diseases virus quasispecies and factors affecting the emergence of virulent virus

Genome sequence analysis of a number of avirulent field isolates of Newcastle disease virus revealed the presence of viruses (within their quasispecies) that contained virulent FO sequences. Detection of these virulent sequences below the -1 % level, using standard cloning and sequence analysis, proved difficult, and thus a more sensitive reverse-transcription realtime PCR procedure was developed to detect both virulent and avirulent NDV FO sequences. Reverse-transcription real-time PCR analysis of the quasispecies of a number of Newcastle disease virus field isolates, revealed variable ratios (approximately 1:4-1 :4,000) of virulent to avirulent viral FO sequences. Since the ratios of these sequences generally remained constant in the quasispecies population during replication, factors that could affect the balance of virulent to avirulent sequences during viral infection of birds were investigated. It was shown both in vitro and in vivo that virulent virus present in the quasi species did not emerge from the "avirulent background" unless a direct selection pressure was placed on the quasispecies, either by growth conditions or by transient immunosuppression. The effect of a prior infection of the host by infectious bronchitis virus or infectious bursal disease virus on the subsequent emergence of virulent Newcastle disease virus was examined