The occurrence of the second moult of Ascaris lumbricoides and Ascaris suum

Maung M. 1978. The occurrence of the second moult of Ascaris lumbricoides and Ascaris suum. International Journal for Parasitology 8: 371–378. Eggs of Ascaris lumbricoides and A. suum were cultured at 28°C and observed daily. Larvae were released by pressure, by artificial hatching with CO₂, and by natural hatching after infection of laboratory mice. The early stages of development in the egg were observed to comprise two moults, one occurring immediately after the other. Both moults were initiated within the egg, but the time of completion of the second moult varied considerably, and in some instances was not completed until the larvae reached the liver of experimentally infected animals.     

Value of the specific distinction between Ascaris lumbricoïdes linné 1758 and Ascaris suum Goeze 1782

Ansel M. and Thibaut M. 1973. Value of the specific distinction between Ascaris lumbricoïdes Linné 1758 and Ascaris suum Goeze 1782. International Journal for Parasitology3: 317–319. Study by scanning electron microscopy of heads of Ascaris lumbricoides Linné 1758 and Ascaris suum Goeze 1782 showed typical distinctive characteristics between these two species. There are differences in the appearance of the rows of denticules and the shapes of the lips.     

Effects of plumbagin on development of the parasitic nematodes Haemonchus contortus and Ascaris suum

1. Plumbagin (5-hydroxy,2-methyl-l,4-napthoquinone) inhibited the motility and survival of Haemonchus contonus first-stage larvae (L1) with an ed₅₀ of 1 μg/ml, but was less effective in preventing the development of H. contortus to infective third-stage larvae in a faecal slurry assay.2. Of the structural analogs tested, plumbagin was the most potent in preventing development of L1 followed in decreasing order of potency by 1,4-napthoquinone, 5-hydroxy-1,4-napthoquinone (juglone) and 1,2-napthoquinone.3. Plumbagin had a biphasic effect on development of the fourth-stage Ascaris suum larvae that caused an increase in growth at low concentrations but was lethal at higher doses.4. Plumbagin and 1,2-napthoquinone partially inhibited embryonation of A. suum eggs.     

Development of nested multiplex polymerase chain reaction (PCR) assay for the detection of Toxocara canis, Toxocara cati and Ascaris suum contamination in meat and organ meats

Ascarid Larva Migrans Syndrome (ascarid LMS) is a clinical syndrome in humans, caused by the migration of animal roundworm larvae such as Toxocara canis, Toxocara cati and Ascaris suum. Humans may acquire infection by ingesting embryonated eggs, or infective larvae of these parasites in contaminated meat and organ meats. To detect these pathogenic contaminations, a novel nested multiplex PCR system was developed. Our novel nested multiplex PCR assay showed specific amplification of T. canis, T. cati and Ascaris spp. Detection limit of the nested multiplex PCR was tested with serial dilution of T. canis, T. cati or A. suum genomic DNA (gDNA) from 100?pg to 100 ag and found to be 10?fg, 1?fg and 100?fg, respectively. When larvae were spiked into chicken liver tissue, DNA of T. canis and A. suum was detected from the liver spiked with a single larva, while the assay required at least 2 larvae of T. cati. Moreover, the ascarid DNA was detected from the liver of mice infected with 100 and 300 eggs of T. canis, T. cati or A. suum. This nested multiplex PCR assay could be useful for the detection of contamination with ascarid larvae in meat and organ meats.     

Establishment of a serodiagnosis system for the detection of Toxocara spp. and Ascaris suum infection in chickens

Chickens are considered to act as paratenic hosts for agents, Toxocara canis, T. cati and Ascaris suum; which cause ascarid larva migrans syndrome (ascarid LMS) in humans. In addition, they are the definitive host for Ascaridia galli, considered not to be infective for humans. All ascarid parasites can have a high homology of antigenicity, leading to cross-reactivity in serodiagnostic assays. This study was conducted to establish a procedure for the serological detection of those roundworm infections in chickens.Twenty-five male Julia chickens were divided into five groups (n = 5); T. canis-, T. cati-, Ascaris suum- and Ascaridia galli-infected, and an uninfected control group. In Ascaris suum-soluble worm antigen preparation (As-SWAP) ELISA, all infected groups showed an elevation of anti-ascarid antibodies, indicating the usefulness of As-SWAP as a screening antigen for the detection of ascarid infections. For infecting species identification, T. canis-excretory/secretory (Tc-ES) and Ascaris suum-ES (As-ES) antigen ELISA were conducted by serial dilution sera. Toxocara spp.-infected sera showed stronger binding to Tc-ES than As-ES, while Ascaris suum and Ascaridia galli-infected sera bound to As-ES more strongly than Tc-ES. To discriminate between Ascaris suum and Ascaridia galli infection, sera were pre-incubated with Ascaridia galli-SWAP antigen and applied to Tc-ES and As-ES ELISAs. In this pre-adsorbed ES antigen ELISAs, only the Ascaris suum infected group showed positive binding to As-ES, resulting from the adsorption of cross-reactive antibodies in Ascaridia galli-infected sera. Finally, anti-Toxocara specific antibodies were confirmed by Tc-ES western blot (WB). Toxocara spp.-infected sera showed toxocariasis-specific band pattern in Tc-ES WB, while no specific band appeared on any strip incubated with Ascaris suum, Ascaridia galli-infected and uninfected sera.In conclusion, the serodiagnostic assays evaluated in this study are useful for the detection of ascarid infections in chickens.     

Effects of Disinfectants on Larval Development of Ascaris suum Eggs

The objective of this study was to evaluate the effects of several different commercial disinfectants on the embryogenic development of Ascaris suum eggs. A 1-ml aliquot of each disinfectant was mixed with approximately 40,000 decorticated or intact A. suum eggs in sterile tubes. After each treatment time (at 0.5, 1, 5, 10, 30, and 60 min), disinfectants were washed away, and egg suspensions were incubated at 25˚C in distilled water for development of larvae inside. At 3 weeks of incubation after exposure, ethanol, methanol, and chlorohexidin treatments did not affect the larval development of A. suum eggs, regardless of their concentration and treatment time. Among disinfectants tested in this study, 3% cresol, 0.2% sodium hypochlorite and 0.02% sodium hypochlorite delayed but not inactivated the embryonation of decorticated eggs at 3 weeks of incubation, because at 6 weeks of incubation, undeveloped eggs completed embryonation regardless of exposure time, except for 10% povidone iodine. When the albumin layer of A. suum eggs remained intact, however, even the 10% povidone iodine solution took at least 5 min to reasonably inactivate most eggs, but never completely kill them with even 60 min of exposure. This study demonstrated that the treatment of A. suum eggs with many commercially available disinfectants does not affect the embryonation. Although some disinfectants may delay or stop the embryonation of A. suum eggs, they can hardly kill them completely.     

Enzymes regulating glucosamine 6-phosphate synthesis in the zygote of Ascaris suum

Dubinský P., Rybo? M. and Tur?eková ?. 1985. Enzymes regulating glucosamine 6-phosphate synthesis in the zygote of Ascaris suum. International Journal for Parasitology15: 415–419. Formation of glucosamine 6-phosphate, a basic intermediate product of chitin synthesis in the zygote of Ascaris suum is catalyzed by glutamine-fructose-6-phosphate aminotransferase (EC 2.6.1.16). The highest activity of the enzyme was observed immediately after fertilization of mature oocytes. High enzyme activity also found in unfertilized oocytes indicates that formation of glucosamine 6-phosphate is catalyzed by enzymes that were present in the oocytes prior to their fertilization. In the Ascaris suum zygote, in contrast to the situation in other organisms, glucosaminephosphate isomerase (EC 5.3.1.10) plays no part in glucosamine 6-phosphate synthesis. The paper discusses possible participation of glucosaminephosphate isomerase in the resynthesis of fructose 6-phosphate from the surplus glucosamine 6-phosphate not utilized for chitin synthesis, and accordingly its involvement in the metabolism of the zygote.     

Unraveling Ascaris suum experimental infection in humans

Ascaris lumbricoides and Ascaris suum are two closely related parasites that infect humans and pigs. The zoonotic potential of A. suum has been a matter of debate for decades. Here we sought to investigate the potential human infection by A. suum and its immunological alterations. We orally infected five healthy human subjects with eggs embraced by A. suum. The infection was monitored for symptoms and possible respiratory changes, by an interdisciplinary health team. Parasitological, hematological analyses, serum immunoglobulin, cytokine profiles, and gene expression were evaluated during the infection. Our results show that A. suum is able to infect and complete the cycle in humans causing A. lumbricoides similar symptoms, including, cough, headache, diarrhea, respiratory discomfort and chest x-ray alterations coinciding with larvae migration in the lungs. We also observed activation of the immune system with production of IgM and IgG and a Th2/Th17 response with downregulation of genes related to Th1 and apoptosis. PCA (Principal componts analysis) show that infection with A. suum leads to a change in the immune landscape of the human host. Our data reinforce the zoonotic capacity of A. suum and bring a new perspective on the understanding of the immune response against this parasite.     

Ascaris suum: Oxidative phosphorylation in mitochondria from developing eggs and adult muscle

Respiration and the phosphorylating capability of mitochondria isolated from one-celled fertilized eggs, 10-day vermiform embryos, 21-day infective larvae, and adult body wall muscle from Ascaris suum were compared with that of rat liver mitochondria. Although oligomycin-sensitive ATPase and O₂ consumption/ mitochondrion in the presence of succinate and malate was lower in eggs than in liver, other properties such as respiratory control, ADP:O and P:O ratios at sites I, II, III, and the sensitivity of respiration to cyanide, azide, oligomycin, rotenone, and malonate were similar. In muscle mitochondria, the oligomycin-sensitive ATPase and O₂ consumption/ mitochondrion were sharply reduced, respiratory control was poor, and electron transport at sites II and III in particular was inefficiently coupled with phosphorylation. In addition, about 60% of the respiration was insensitive to cyanide or azide but sensitive to salicylhydroxamic acid. The results support earlier evidence that the free-living eggs of A. suum are aerobes. The adult parasite, while continuing to ferment actively in the presence of oxygen, nevertheless possesses one or more electron transport systems that are inefficiently coupled with aerobic phosphyorylations. The physiological significance of these systems has yet to be elucidated.     

Effects of Some Pesticides on Development of Ascaris suum Eggs

To evaluate the effects of pesticides to parasite eggs, Ascaris suum eggs were incubated with 5 different pesticides (1:1,500-1:2,000 dilutions of 2% emamectin benzoate, 5% spinetoram, 5% indoxacarb, 1% deltamethrin, and 5% flufenoxuron; all v/v) at 20℃ for 6 weeks, and microscopically evaluated the egg survival and development on a weekly basis. The survival rate of A. suum eggs incubated in normal saline (control eggs) was 90±3% at 6 weeks. However, the survival rates of eggs treated with pesticides were 75-85% at this time, thus significantly lower than the control value. Larval development in control eggs commenced at 3 weeks, and 73±3% of eggs had internal larvae at 6 weeks. Larvae were evident in pesticide-treated eggs at 3-4 weeks, and the proportions of eggs carrying larvae at 6 weeks (36±3%-54±3%) were significantly lower than that of the control group. Thus, pesticides tested at levels similar to those used in agricultural practices exhibited low-level ovicidal activity and delayed embryogenesis of A. suum eggs, although some differences were evident among the tested pesticides.     

Succinate dehydrogenase and fumarate reductase activity in Aspiculuris tetraptera and Ascaris suum and the effect of the anthelmintics cambendazole,thiabendazole, and levamisole

Comley John C. W. and Wright Spdenis J. 1981. Succinate dehydrogenase and fumarate reductase activity in Aspiculuris tetraptera and Ascaris suum and the effect of the anthelmintics cambendazole, thiabendazole, and levamisole. International Journal for Parasitology11: 79–84. Succinate dehydrogenase and fumarate reductase activities from a particulate fraction of A. tetraptera and a soluble extract of A. suum have been determined using spectrophotometric methods. Fumarate reductase activity in A. suum could only be detected anaerobically. Succinate dehydrogenase activity from A. suum was partially characterized and shown to exist in several multimolecular forms (isoenzymes). The in vitro effect of the anthelmintics cambendazole, thiabendazole and levamisole on succinate dehydrogenase and fumarate reductase activity from the above nematodes are described. Significant inhibition of fumarate reductase activity of both nematodes was only achieved using 5 mM levamisole and 1 mM thiabendazole. After in vivo anthelmintic treatment of A. tetraptera only thiabendazole significantly inhibited fumarate reductase. It is suggested that the succinate dehydro-ogenase-fumarate reductase complex in these nematodes is unlikely to be the primary site chemotherapeutic attack for any of the anthelmintics tested.     

Community Rates of IgG4 Antibodies to Ascaris Haemoglobin Reflect Changes in Community Egg Loads Following Mass Drug Administration

BackgroundConventional diagnostic methods for human ascariasis are based on the detection of Ascaris lumbricoides eggs in stool samples. However, studies of ascariasis in pigs have shown that the prevalence and the number of eggs detected in the stool do not correlate well with exposure of the herd to the parasite. On the other hand, an ELISA test measuring antibodies to Ascaris suum haemoglobin (AsHb) has been shown to be useful for estimating transmission intensity on pig farms. In this study, we further characterized the AsHb antigen and screened samples from a population-based study conducted in an area that is endemic for Ascaris lumbricoides in Indonesia to assess changes in AsHb antibody rates and levels in humans following mass drug administration (MDA).Conclusion/SignificanceIgG4 antibody levels to AsHb appear to reflect recent exposure to Ascaris. The antibody prevalence rate may be a useful indicator for Ascaris transmission intensity in communities that can be used to assess the impact of control measures on the force of transmission.     

Effects of mebendazole on the absorption of low molecular weight nutrients by Ascaris suum

Van Den Bossche H. and De Nollin S. 1973. Effects of mebendazole on the absorption of low molecular weight nutrients by Ascaris suum. International Journal for Parasitology3: 401–407. The effect of the anthelmintic drug, mebendazole, on the uptake and/or transport of glucose, fructose, 3-O-methylglucose, glycine, proline, methionine and palmitic acid was studied on in vitro incubated Ascaris suum. The experiments presented indicate that mebendazole inhibits the uptake and/or transport of glucose by A. suum. This inhibition is followed by a marked decrease in the glycogen content of the ascaris muscle. The addition of glucose to the incubation medium significantly enhanced the rate of uptake and/or transport of 3-O-methylglueose, glycine, methionine, proline and palmitic acid indicating that the absorption mechanisms depend on energy.Therefore, the inhibitory effect of mebendazole on the glucose uptake also results in a decreased uptake of 3-O-methylglucose and of the amino acids and fatty acid studied. The fructose uptake was not affected by the addition of glucose.Although mebendazole decreased the uptake of the hexoses and of the amino acids whether or not glucose was added, the uptake of palmitic acid was not affected when glucose was omitted from the medium. Mebendazole failed to exhibit an effect on the uptake, transport and/or utilization of glucose in rat.     

A method to evaluate relative ovicidal effects of soil microfungi on thick-shelled eggs of animal-parasitic nematodes

Thick-shelled eggs of animal-parasitic ascarid nematodes can survive and remain infective in the environment for years. The present study evaluated a simple in vitro method and evaluation scheme to assess the relative effect of two species of soil microfungi, Pochonia chlamydosporia Biotype 10 and Purpureocillium lilacinum Strain 251 (Ascomycota: Hypocreales), on the development and survival of eggs of faecal origin of three ascarid species, Ascaridia galli (chicken roundworm), Toxocara canis (canine roundworm) and Ascaris suum (pig roundworm). Ascarid eggs were embryonated on water agar with or without a fungus, and the resulting viability of the eggs was evaluated on days 7, 14, 21, 28, 35 and 42 post exposure (pe) by observing eggs in situ. On days 7–42 pe, P. chlamydosporia had reduced the viability of A. galli and T. canis eggs by 64–86% and 26–67%. Corresponding reductions for P. lilacinum Strain 251 were only 15–29% and 4–28%. In contrast, A. suum eggs were extremely resistant to both fungi (2–4% reduction). The differences in results are likely due to different morphologies and chemistry of the egg shell of the three ascarid species. The current in vitro method and evaluation criteria allow for a simple, repeatable and non-invasive evaluation of the ovicidal effects of microfungi. This study demonstrates that P. chlamydosporia Biotype 10 may be utilised as a biocontrol agent to reduce A. galli and T. canis egg contamination of the environment.     

Assessing the influence of the entomopathogenic nematode Heterorhabditis baujardi LPP7 (Rhabiditina) on embryogenesis and hatching of the plant-parasitic nematode Meloidogyne mayaguensis (Tylenchina)

Two assays were conducted to assess the influence of infective juveniles (IJs) of Heterorhabditis baujardi LPP7 on the embryogenesis and hatching of Meloidogyne mayaguensis. In the first assay, eggs were incubated in water alone or in the presence of infective juveniles, and completion of embryogenesis was evaluated 14 days later. In the second assay, unhatched second-stage juveniles were incubated in distilled water alone or in the presence of infective juveniles. Cumulative hatching was compared at various time intervals. Embryogenesis was not affected, whereas second-stage juveniles hatching was delayed probably because of the eggs permeability to noxious metabolites released by Photorhabdus luminescens, which is the bacterial symbiont of H. baujardi.     

Bacillus thuringiensis-derived Cry5B Has Potent Anthelmintic Activity against Ascaris suum

Ascaris suum and Ascaris lumbricoides are two closely related geo-helminth parasites that ubiquitously infect pigs and humans, respectively. Ascaris suum infection in pigs is considered a good model for A. lumbricoides infection in humans because of a similar biology and tissue migration to the intestines. Ascaris lumbricoides infections in children are associated with malnutrition, growth and cognitive stunting, immune defects, and, in extreme cases, life-threatening blockage of the digestive tract and aberrant migration into the bile duct and peritoneum. Similar effects can be seen with A. suum infections in pigs related to poor feed efficiency and performance. New strategies to control Ascaris infections are needed largely due to reduced treatment efficacies of current anthelmintics in the field, the threat of resistance development, and the general lack of new drug development for intestinal soil-transmitted helminths for humans and animals. Here we demonstrate for the first time that A. suum expresses the receptors for Bacillus thuringiensis crystal protein and novel anthelmintic Cry5B, which has been previously shown to intoxicate hookworms and which belongs to a class of proteins considered non-toxic to vertebrates. Cry5B is able to intoxicate A. suum larvae and adults and triggers the activation of the p38 mitogen-activated protein kinase pathway similar to that observed with other nematodes. Most importantly, two moderate doses of 20 mg/kg body weight (143 nM/kg) of Cry5B resulted in a near complete cure of intestinal A. suum infections in pigs. Taken together, these results demonstrate the excellent potential of Cry5B to treat Ascaris infections in pigs and in humans and for Cry5B to work effectively in the human gastrointestinal tract.     

Ascaris suum: aldolase I purification and immunologic study

Fructose-1,6-diphosphate d-glyceraldehyde-3-phosphate lyase (aldolase) (EC 4.1.2.13) from the body wall of Ascaris suum was purified 80-fold by a combination of salt precipitation and ion-exchange chromatography. A group of pigs was immunized with the purified aldolase preparation and was subsequently challenged with infective Ascaris larvae. The immunized animals showed clinical and histopathologic symptoms of acute sensitization reaction. Thrice as many larvae were found in the nonimmunized control pigs as compared to the immunized animals.     

Subcellular distribution of digestive enzymes in Ascaris suum intestine

Van den Bossche H. and Borgers M. 1973. Subcellular distribution of digestive enzymes in Ascaris intestine. International Journal for Parasitology3: 59–65. The microvilli of the intestinal cells of Ascaris suum resemble the microvilli of the mammalian intestine in respect to their morphologic structure; their behaviour to homogenization in the presence of a chelating agent; the presence of the disaccharide hydrolases, maltase, sucrase and trehalase and the presence of an enzyme which hydrolyses 5′-AMP at neutral pH. The microvilli of the Ascaris intestinal cells differ completely from those present in mammalian intestine in respect to the presence of non-specific phosphatases. The brush border fraction contains the bulk of acid phosphatase present in the intestinal cells. Although some pinocytotic vesicles have been observed only low endocytotic activity was found. We therefore suggest that the acid hydrolases found on the brush border membrane may be functionally related to extracellular digestion of macromolecules.     

Effect of ochratoxin A (OTA) on the activity of some enzymes in developing eggs of<Emphasis Type="Italic">Ascaris suum</Emphasis>

The studies focused on the effect of 1-ppm ochratoxin A solution on the activity of some enzymes during successive embryogenesis stages ofAscaris suum. As a result of OTA-affected incubation ofA suum eggs, inhibition of AcP reactions was observed throughout the embryonic development, reduction in of SDH and LDH activity during cleavage and gastrulation, and enhancement of the SDH and LDH activity was found in larvae. Moreover, inhibition of the processes of cleavage, gastrulation and organogenesis was recorded. The observed morphological and metabolic embryo disorders demonstrated teratogenic properties of the studied mycotoxin, and the presence of granules of various sizes in the developing eggs may indicate that OTA penetrated into the eggs.