Recombinant Bacteria Expressing Oligosaccharide Receptor Mimics For Prevention Of Enteric Infections
Funder
National Health and Medical Research Council
Funding Amount
$451,056.00
Summary
Gastrointestinal infectious diseases kill more than 3 million people each year. The principal microbial pathogens responsible for these infections are known to exploit oligosaccharides on the surface of host cells as receptors for ahesins or toxins. We have developed (and patented) a novel anti-infective strategy, based on mimicry of oligosaccharide receptors for toxins and adhesins produced by enteric pathogens on the surface of harmless carrier bacteria. Oral administration of such recombinant ....Gastrointestinal infectious diseases kill more than 3 million people each year. The principal microbial pathogens responsible for these infections are known to exploit oligosaccharides on the surface of host cells as receptors for ahesins or toxins. We have developed (and patented) a novel anti-infective strategy, based on mimicry of oligosaccharide receptors for toxins and adhesins produced by enteric pathogens on the surface of harmless carrier bacteria. Oral administration of such recombinant probiotics has the potential to prevent enteric infections by binding and neutralizing toxins in the gut lumen and by blocking adherence of the pathogen to intestinal epithelial cells. As a prototypic example, we have developed a bacterium capable of preventing the serious consequences of Shiga toxigenic Escherichia coli (STEC) infections; this agent binds Shiga toxin with very high efficiency and is 100% protective in animal models. The strategy has very broad applications, however, and receptors for virtually any pathogen can be mimicked by expression of appropriate glycosyl transferases in a suitable harmless host bacterium. This proposal involves extension of our existing work to develop therapeutic agents for other important life threatening diarrhoeal diseases including cholera, travellers' diarrhoea, dysentery, antibiotic-associated colitis, rotavirus, etc.Read moreRead less
Development Of Novel Reagents For The Point-of-care(field) Diagnosis &differentiation Of The Malaria Parasites, Plasmodi
Funder
National Health and Medical Research Council
Funding Amount
$117,000.00
Summary
Malaria is a major global health problem. 500 million people become infected with malaria parasites every year and 2-3 million people die each year from the disease. Rapid diagnosis of the disease is needed to allow correct treatment protocols. Increasingly protein-based immunochromatographic tests are being employed for the diagnosis of malaria as they offer significant advantages over classical thick smear tests, which require trained personnel and laboratory facilities. We propose to develop ....Malaria is a major global health problem. 500 million people become infected with malaria parasites every year and 2-3 million people die each year from the disease. Rapid diagnosis of the disease is needed to allow correct treatment protocols. Increasingly protein-based immunochromatographic tests are being employed for the diagnosis of malaria as they offer significant advantages over classical thick smear tests, which require trained personnel and laboratory facilities. We propose to develop a protein-based malaria diagnostic that has the ability to distinguish the two major human pathogens, P.falciparum and P. vivax.Read moreRead less
Pre-clinical Development Of A Chemically Synthetic Anti-toxic Vaccine Against Malaria
Funder
National Health and Medical Research Council
Funding Amount
$165,000.00
Summary
Plasmodium falciparum malaria infects 5-10% of the global population (400 million clinical cases) and kills two million people annually1. As such it ranks along with HIV and TB as the most serious infectious disease of humanity. It is widely accepted that an efficacious vaccine is required to afford protection against malarial fatalities. The induction of broad-ranging sterilizing immunity is not considered a likely objective for anti-malarial vaccines. Instead, reduction in morbidity and mortal ....Plasmodium falciparum malaria infects 5-10% of the global population (400 million clinical cases) and kills two million people annually1. As such it ranks along with HIV and TB as the most serious infectious disease of humanity. It is widely accepted that an efficacious vaccine is required to afford protection against malarial fatalities. The induction of broad-ranging sterilizing immunity is not considered a likely objective for anti-malarial vaccines. Instead, reduction in morbidity and mortality is the realistic aim of malaria vaccine strategies. Traditional approaches seek to provide this clinical protection indirectly, by killing the parasite or by reducing parasite multiplication. To this end, current anti-malarial vaccines candidates seek to confer on the host parasiticidal immune mechanisms, which have as their target antigenic proteins expressed on the surface of the different stages of the parasite. No malaria vaccine is yet on the market. There exist several potentially competitive leads in late-stage pre-clinical-early stage clinical development, particularly recombinant proteins. The US Navy MUSTDO-25 DNA vaccines are not living up to their promise. Most leading “vaccine candidates” are polymorphic alleles. There are significant prospects for vaccine-induced selection of breakthrough variants. Multiple alleles may also prove cost-prohibitive for vaccine development. The novelty and uniqueness of this approach have contributed to the acceptance of this study for publication by Nature. The aims of this proposal are four-fold: i) to further rationalize the target through chemical synthesis of intermediates and partial structures; (ii) to examine antigenicity and immunogenicity in large experimental mammals, and undertake epitope mapping of human anti-GPI IgG responses; (iii) to obtain preliminary safety data in these animals; and (iv) to undertake a vaccine trial in a simian malaria model. We envisage objectives (i)-(iii) will take 12 months. Objective (iv) will proceed in the six months thereafter.Read moreRead less