Identification of larval-stage antigens of ascaris suum recognized with immune sera from pigs

Recombinant subunit vaccines for soil-transmitted helminths

Soil-transmitted helminths (STHs) collectively infect one fourth of all human beings, and the majority of livestock in the developing world. These gastrointestinal nematodes are the most important parasites on earth with regard to their prevalence in humans and livestock. Current anthelmintic drugs are losing their efficacies due to increasing drug resistance, particularly in STHs of livestock and drug treatment is often followed by rapid reinfection due to failure of the immune system to develop a protective response. Vaccines against STHs offer what drugs cannot accomplish alone. Because such vaccines would have to be produced on such a large scale, and be cost effective, recombinant subunit vaccines that include a minimum number of proteins produced in relatively simple and inexpensive expression systems are required. Here, we summarize all of the previous studies pertaining to recombinant subunit vaccines for STHs of humans and livestock with the goal of both informing the public of just how critical these parasites are, and to help guide future developments. We also discuss several key areas of vaccine development, which we believe to be critical for developing more potent recombinant subunit vaccines with broad-spectrum protection.

In vitro culture of Parascaris equorum larvae and initial investigation of parasite excretory-secretory products

Currently, diagnosis of Parascaris equorum infection in equids is limited to patent infections. The goals of this study were to culture P. equorum larvae in vitro and identify excretory-secretory (ES) products for prepatent diagnostic testing. Parascaris equorum L2/L3 larvae were hatched and cultured for up to 3 weeks for ES product collection. Fifth stage (L5) P. equorum were also cultured for ES product collection. Examination of ES fractions by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) and silver stain revealed L2/L3 products ranging from 12-94 kDa and L5 products ranging from 12-189 kDa. Western blot analyses were conducted using polyclonal antibodies produced against P. equorum or Baylisascaris procyonis L2/L3 ES products, sera from rabbits inoculated with B. procyonis or Toxocara canis eggs, and sera from animals naturally infected with P. equorum or T. canis. Western blot results indicated parasite antigens migrating at 19 and 34 kDa may be useful for specifically detecting P. equorum infections.

Molecular cloning and partial characterization of a nematode-specific 24 kDa protein fromAscaris suum

The cloning and molecular characterization of a cDNA encodingAscaris suum24 kDa antigen (As24) are described. The cDNA sequence consists of 853 bp with an open reading frame coding for a protein of 147 amino acids with an inferred signal peptide of 19 amino acids. The predicted molecular mass and pI were 16 kDa and 8·35 respectively. The endogenous protein in adultA. suumwas 24 kDa with the expected pI. A search of the public databases revealed over 50% homology with proteins from filarial parasites but not to other known proteins, suggesting that As24 is a nematode-specific protein. Immunohistochemical studies using polyclonal antibodies raised againstEscherichia coli-expressed recombinant As24 demonstrated that the endogenous As24 proteins were intensely localized in unembryonated eggs within the uterus, uterine and gut epithelium, muscle tissues and in the hypodermis of an adult femaleA. suum. Endogenous As24 was expressed throughoutA. suumdevelopment and was detected in the excretory/secretory products by immunoblot analysis. Importantly, a homologous protein(s) was detected inAscarisfrom human andToxocara canisfrom dog, suggesting that As24 is a nematode-specific protein.

Cloning and characterisation of a highly immunoreactive 37 kDa antigen with multi-immunoglobulin domains from the swine roundworm Ascaris suum

Antigens from larval stages of Ascaris suum have been shown to induce protection against challenge infection with infective A. suum eggs. We previously identified several antigens that reacted strongly with serum from pigs inoculated with infective eggs containing L3. In this study, we isolated an antigen with a molecular mass of 37 kDa and a pI of 4.8 (As37) from A. suum infective eggs using two-dimensional electrophoresis, and obtained a full-length cDNA by reverse transcription-polymerase chain reaction using primers designed based on the internal amino acid sequence of As37. The cDNA sequence consisted of 1,540 bp coding for a protein of 321 amino acids with a complex domain organisation. Simple modular architecture research tool (SMART) analysis indicated that As37 contains three immunoglobulin domains, indicating that it is a member of immunoglobulin superfamily (IgSF). A homology search of GenBank showed that As37 has significant similarity to Caenorhabditis elegans DIM-1 protein and has low similarity to part of the multi-repeat Ig domain from nematode twitchin and mammalian skeleton muscle titin, and to members of the IgSF at the amino acid sequence level. Localisation analysis revealed that antibodies to Escherichia coli-expressed recombinant As37 (rAs37) bound to muscle cells and the hypodermis. The antibodies identified a 37 kDa native antigen in human and dog roundworms, suggesting that there are As37 homologues in ascarid nematodes. Sera from mice, rabbits and pigs immunised with A. suum infective eggs reacted with rAs37 in immunoblot analyses. The potential use of rAs37 for protection against A. suum infection is discussed.

Lung-stage protein profile and antigenic relationship between Ascaris lumbricoides and Ascaris suum

The protein profile and antigenic properties of lung-stage larvae of Ascaris lumbricoides and A. suum were studied using 2-dimensional electrophoresis and immunoblot analysis, respectively. The protein profiles of the 2 parasites were identical except for the presence of only 1 major protein spot specific for each. There was a complete cross-reactivity between the 2 parasites at the immunological level, and no specific antigen was recognized using specific antibody raised against the 2 parasites in rabbits.