Towards the Creation of a Transgenic Possum Parasite

<p>The brushtail possum. Trichosurus vulpecula, is New Zealand's most serious vertebrate pest; possums destroy native flora and fauna and are vectors of bovine Tb. Conventional control is considered to be unsustainable and, in the long term, biological control is seen as the only solution to reducing possum numbers. The aim of this project is to contribute to the development of a self-disseminating vector that will spread a control molecule throughout the possum population reducing fecundity or increasing mortality. The possum-specific parasite Parastrongyloides trichosuri has considerable potential a-s such a vector. A protein from P. trichosuri specifically, was found to be antigenic in possums. The antibodies to this protein were purified from positive possum serum and used to detect the antigen on the surface of infective larvae but not in the excretory/secretory products of either larvae or adults. The protein was isolated from crude infective larvae and found to show homology to the heat-shock 70 family of proteins. Genomic DNA was extracted, an oligonucleotide probe made and a genomic library screened for the Hsp70 gene. Several positive clones were found and DNA isolated and sequenced from one such clone. Five kilo bases of unambiguous sequence was obtained in which was an open reading frame of 2 kb. Theoretical translation of this gave a protein of 64 amino acids with 80% homology to the Hsp70A protein of C. elegans. The region upstream of the ATG initiator codon was amplified and 1.3 kb of the putative promoter region was cloned into a vector containing the gfp:lacZ reporter genes. This construct was microinjected, first into C. elegans to demonstrate promoter function, and then into both tree-living and parasitic adults of P. trichosuri. Reporter gene expression was shown in the progeny of microinjected parasitic adults. RNA was made from infective P. trichosuri larvae, reverse transcribed and the coding sequence for the PtHsp70 protein cloned into an expression vector and expressed in E. coli, The recombinant protein pattern had a similar pattern of trypsin digestion products as the native protein, as shown by MALDI-TOF mass spectrometry, but it was immunologically distinct from the native protein. The culmination of this project was the generation of a transgenic P trichosuri, the first vertebrate endoparasitic nematode to be heritably transformed. This is a necessary step in the development of a self-disseminating vector to be used in the biocontrol of possums.</p>

Towards the Creation of a Transgenic Possum Parasite

<p>The brushtail possum. Trichosurus vulpecula, is New Zealand's most serious vertebrate pest; possums destroy native flora and fauna and are vectors of bovine Tb. Conventional control is considered to be unsustainable and, in the long term, biological control is seen as the only solution to reducing possum numbers. The aim of this project is to contribute to the development of a self-disseminating vector that will spread a control molecule throughout the possum population reducing fecundity or increasing mortality. The possum-specific parasite Parastrongyloides trichosuri has considerable potential a-s such a vector. A protein from P. trichosuri specifically, was found to be antigenic in possums. The antibodies to this protein were purified from positive possum serum and used to detect the antigen on the surface of infective larvae but not in the excretory/secretory products of either larvae or adults. The protein was isolated from crude infective larvae and found to show homology to the heat-shock 70 family of proteins. Genomic DNA was extracted, an oligonucleotide probe made and a genomic library screened for the Hsp70 gene. Several positive clones were found and DNA isolated and sequenced from one such clone. Five kilo bases of unambiguous sequence was obtained in which was an open reading frame of 2 kb. Theoretical translation of this gave a protein of 64 amino acids with 80% homology to the Hsp70A protein of C. elegans. The region upstream of the ATG initiator codon was amplified and 1.3 kb of the putative promoter region was cloned into a vector containing the gfp:lacZ reporter genes. This construct was microinjected, first into C. elegans to demonstrate promoter function, and then into both tree-living and parasitic adults of P. trichosuri. Reporter gene expression was shown in the progeny of microinjected parasitic adults. RNA was made from infective P. trichosuri larvae, reverse transcribed and the coding sequence for the PtHsp70 protein cloned into an expression vector and expressed in E. coli, The recombinant protein pattern had a similar pattern of trypsin digestion products as the native protein, as shown by MALDI-TOF mass spectrometry, but it was immunologically distinct from the native protein. The culmination of this project was the generation of a transgenic P trichosuri, the first vertebrate endoparasitic nematode to be heritably transformed. This is a necessary step in the development of a self-disseminating vector to be used in the biocontrol of possums.</p>

Chemotactic and temperature-dependent responses of the Strongyloidoidea superfamily of nematodes

Host-seeking behaviour and how a parasite identifies the correct host to infect remains a poorly understood area of parasitology. What is currently known is that host sensation and seeking behaviour is formed from a complex mixture of chemo-, thermo- and mechanosensory behaviours, of which chemosensation is the best studied. Previous studies of olfaction in parasitic nematodes suggested that this behaviour appears to be more closely related to target host and infection mode than phylogeny. However, there has not yet been a study comparing the chemotactic and temperature-dependent behaviours of very closely related parasitic and non-parasitic nematodes. To this end, we examined the temperature-dependent and chemotactic responses of the Strongyloidoidea superfamily of nematodes. We found differences in temperature response between the different species and within infective larvae. Chemotactic responses were highly divergent, with different attraction profiles between all species studied. When examining direct stimulation with fur, we found that it was insufficient to cause an attractive response. Overall, our results support the notion that olfactory sensation is more closely related to lifestyle and host range than phylogeny, and that multiple cues are required to initiate host-seeking behaviour.

Predicting Parasite Dynamics in Mixed-Use Trans-Himalayan Pastures to Underpin Management of Cross-Transmission Between Livestock and Bharal

The complexities of multi-use landscapes require sophisticated approaches to addressing disease transmission risks. We explored gastro-intestinal nematode (GINs) infections in the North India Trans-Himalayas through a socio-ecological lens, integrating parasite transmission modelling with field surveys and local knowledge, and evaluated the likely effectiveness of potential interventions. Bharal (blue sheep; Pseudois nayaur), a native wild herbivore, and livestock share pasture year-round and livestock commonly show signs of GINs infection. While both wild and domestic ungulates had GINs infections, egg counts indicated significantly higher parasite burdens in bharal than livestock. However, due to higher livestock densities, they contributed more to the total count of eggs and infective larvae on pasture. Herders also reported health issues in their sheep and goats consistent with parasite infections. Model simulations suggested that pasture infectivity in this system is governed by historical pasture use and gradually accumulated larval development during the summer, with no distinct short-term flashpoints for transmission. The most effective intervention was consequently predicted to be early-season parasite suppression in livestock using temperature in spring as a cue. A 1-month pause in egg output from livestock could lead to a reduction in total annual availability of infective larvae on pasture of 76%, potentially benefitting the health of both livestock and bharal. Modelling suggested that climate change over the past 33 years has led to no overall change in GINs transmission potential, but an increase in the relative influence of temperature over precipitation in driving pasture infectivity. Our study provides a transferable multi-pronged approach to investigating disease transmission, in order to support herders' livelihoods and conserve wild ungulates.

Anthelminthic effects of extracts of indigenous browses from mid rift valley of Ethiopia

This study was conducted to evaluate the potential anthelminthic properties of extracts of leaves of indigenous browses (Acacia seyal, Acacia senegal, Acacia tortilis, Millettia ferruginea, and Vernonia amygadalina) based on three in vitro assays. Acetone extracts of browses at different concentrations (75 to 1200 μg/ml, for egg and larvae and 100mg/ml for an adult) were tested on three developmental stages of Haemonchus contortus (eggs, infective larvae, and adult worms) using egg hatch assay (EHA), larval migration inhibition assay (LMIA) and adult worm motility inhibition assay (AMIA). Significant effects were obtained with all five browses but differences were observed depending on the parasitic stages. The effects of five browse extracts on egg hatching were concentration-dependent, the highest (P<0.05) egg hatch inhibition rate was observed at 1200 μg/ml concentration for all browses. All extracts had a higher effect (P<0.01) than that of the negative control, phosphate buffer saline (PBS). In contrast, no concentration-response relationship was found for infective larvae and adult worms, although more potent effects were observed with the highest concentrations. The LMI rate (70%) induced by Vernonia amygadalina extract, at a concentration of 300 μg/ml, was the highest (P<0.05) of all other browses, even at higher concentrations. The highest LMI rate (62%) induced by Acacia senegal extract at higher concentration, was lower than that of LMI rate (70%) induced by Vernonia amygadalina, at 300 μg/ml concentration. Vernonia amygadalina was found to be highly and rapidly effective against adult worms inducing the highest mortality rate (90%) as soon as 4 hrs after incubation. Overall, the in vitro results suggest that these five browses do possess anti-parasitic properties and Vernonia amygadalina showed the most effective anti-parasitic property. These effects remain to be confirmed through in vivo study.

Effectiveness of a novel orally administered combination drug product containing milbemycin oxime and lotilaner (Credelio® Plus) for the treatment of larval and immature adult stages of Ancylostoma caninum in experimentally infected dogs

Background The hookworm, Ancylostoma caninum, is a common and important zoonotic intestinal nematode parasite that infects dogs globally. Both the immature and adult stages of A. caninum ingest large volumes of blood during the feeding process and can cause severe anemia and death in young dogs, even before patent infections can be diagnosed using routine faecal examination methods. Thus, effective treatment of any pre-patent stages of immature hookworms can reduce or eliminate the risk of clinical disease in infected dogs and additionally reduce environmental contamination of eggs and infective larvae. Two randomized, blinded, GCP-compliant, pivotal laboratory dose confirmation studies were conducted to evaluate the effectiveness and safety of a new novel combination of lotilaner and milbemycin oxime tablets (Credelio Plus®) administered orally to dogs experimentally infected with immature (L4 and immature adult [L5]) stages of A. caninum. Methods Treatments using the intended global commercial tablet formulation of Credelio Plus were administered in a time frame relative to inoculation with infective larvae so that effectiveness could be assessed against each specific immature stage of A. caninum. In each study, dogs were randomized to one of six (study 1) or four (study 2) treatment groups. Each treatment group contained 8 (study 1) or 10 (study 2) dogs that had been experimentally inoculated with infective A. caninum larvae on day 0 and were dosed once on day 7 or day 11. Enrolled subjects were administered placebo tablets, Credelio Plus tablets, or lotilaner mono tablets to provide minimum dosages of 0.75 mg/kg of milbemycin oxime and 20 mg/kg of lotilaner. All dogs were necropsied 5 days after their respective treatment. All nematodes recovered from the gastrointestinal tract at necropsy were counted by species and stage. Results For both dose confirmation studies and based on geometric mean worm counts, efficacy of Credelio Plus was ≥ 97.3% against L4 larval stage of A. caninum and ≥ 98.7% against immature adult (L5) A. caninum. Conclusions These studies demonstrated that the orally administered Credelio Plus combination tablet was highly efficacious in treating immature (L4 and immature adult [L5]) stages of A. caninum in experimentally infected dogs.