ZOONOTIC PARASITES AFFECTING FOOD SAFETY AND PUBLIC HEALTH
Location: Environmental Microbial and Food Safety Laboratory
Project Number: 1245-32000-089-00
Start Date: Dec 20, 2010
End Date: Dec 19, 2015
Improve food safety by reducing contamination of fresh produce by improving detection and determining the sources and reducing transmission of protozoan parasites infectious for humans.
Objective 1: Improve detection methods for Cryptosporidium, Giardia, and other zoonotic parasites.
a) Develop new immunofluorescence and aptamer technologies applicable to detection of zoonotic parasites on fresh fruits and vegetables and in irrigation water and produce washwater.
b) Determine effective washing agents and methods for recovering contaminating parasites from the surface of fresh produce.
c) Develop a protocol using amplified fragment length polymorphism analysis (AFLP) to simultaneously detect multiple infectious organisms thereby reducing the need for multiple testing.
Objective 2: Develop prevention and treatment strategies against zoonotic cryptosporidiosis and giardiasis.
a) Test anti-viral drugs against virus found inside Cryptosporidium parvum stages to inhibit virus and parasite replication.
b)Test probiotics in mouse models for prevention of cryptosporidiosis.
Objective 3: Elucidate the epidemiology of zoonotic Cryptosporidium, Giardia, Blastocystis and Microsporidia by identifying unique and emerging genotypes using molecular tools.
a) Determine subtypes of Blastocystis and Microsporidia found in food animals that match pathogenic subtypes in humans.
b) Identify emerging zoonotic genotypes and subgenotypes of Cryptosporidium and Giardia with potential to be foodborne pathogens from samples of irrigation water and from manure spread on crop fields.
To improve detection methods for zoonotic parasites, studies will develop new immunofluorescence and aptamer technologies applicable to detection of the zoonotic parasites Cryptosporidium oocysts and Giardia cysts on fresh fruits and vegetables and in irrigation water and produce washwater by tagging pathogen-specific antibodies/aptamers with fluorophores with minimal interference from autofluorescing vegetal tissue and other waterborne particles to increase sensitivity, and thereby detection of the parasite eluted from or located on fresh produce. Determine the most effective washing agents and methods for recovering contaminating parasites from the surface of fresh produce including tetrasodium pyrophosphate, 1M Hepes at pH 5.5, 1 M sodium bicarbonate at pH 6.0, 1 M glycine at pH5.5, and 1% lauryl sulfate, and then combine those most effective reagents and test their efficacy. Develop a protocol using amplified fragment length polymorphism analysis (AFLP) to simultaneously detect multiple contamination with Cryptosporidium, G. duodenalis, Blastocystis, and E. bieneusi. Test antiviral drug inhibitors of RNA-dependent RNA polymerase (RdRp) against virus found inside Cryptosporidium parvum stages to inhibit virus and parasite replication using in vitro cell culture methodology. Test probiotics Lactobacillus casei (L. casei) and Bifidobacterium lactis (B. lactis) in mouse models for prevention of cryptosporidiosis and giardiasis. Determine subtypes of Blastocystis and Microsporidia found in food animals that match pathogenic subtypes in humans using DNA samples now held frozen in our inventory from dairy and beef cattle (pre- and post-weaned calves, heifers, and adults) from more than 20 states of the U.S., from sheep (lambs and ewes), as well as from pigs, horses, dogs, cats and alpacas.