Your search keyword '"Ascaris suum growth & development"' showing total 79 results

1. Galectin-2 suppresses nematode development by binding to the invertebrate-specific galactoseβ1-4fucose glyco-epitope.

Author

Takeuchi T, Tamura M, Ishiwata K, Hamasaki M, Hamano S, Arata Y, and Hatanaka T

Subjects

Animals, Ascaris suum growth & development, Ascaris suum metabolism, Binding Sites, Biomphalaria, Caenorhabditis elegans metabolism, Disaccharides metabolism, Epitopes metabolism, Galectin 2 chemistry, HeLa Cells, Humans, Mice, Mice, Inbred ICR, Caenorhabditis elegans growth & development, Disaccharides chemistry, Epitopes chemistry, Galectin 2 metabolism

Abstract

Galactoseβ1-4Fucose (GalFuc) is a unique disaccharide found in invertebrates including nematodes. A fungal galectin CGL2 suppresses nematode development by recognizing the galactoseβ1-4fucose epitope. The Caenorhabditis elegans galectin LEC-6 recognizes it as an endogenous ligand and the Glu67 residue of LEC-6 is responsible for this interaction. We found that mammalian galectin-2 (Gal-2) also has a comparable glutamate residue, Glu52. In the present study, we investigated the potential nematode-suppressing activity of Gal-2 using C. elegans as a model and focusing on Gal-2 binding to the GalFuc epitope. Gal-2 suppressed C. elegans development whereas its E52D mutant (Glu52 substituted by Asp), galectin-1 and galectin-3 had little effect on C. elegans growth. Lectin-staining using fluorescently-labeled Gal-2 revealed that, like CGL2, it specifically binds to the C. elegans intestine. Natural C. elegans glycoconjugates were specifically bound by immobilized Gal-2. Western blotting with anti-GalFuc antibody showed that the bound glycoconjugates had the GalFuc epitope. Frontal affinity chromatography with pyridylamine-labeled C. elegans N-glycans disclosed that Gal-2 (but not its E52D mutant) recognizes the GalFuc epitope. Gal-2 also binds to the GalFuc-bearing glycoconjugates of Ascaris and the GalFuc epitope is present in the parasitic nematodes Nippostrongylus brasiliensis and Brugia pahangi. These results indicate that Gal-2 suppresses C. elegans development by binding to its GalFuc epitope. The findings also imply that Gal-2 may prevent infestations of various parasitic nematodes bearing the GalFuc epitope., (© The Author(s) 2019. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2019

2. Effect of reagents used during detection and quantification of Ascaris suum in environmental samples on egg viability.

Author

Amoah ID, Reddy P, and Stenström TA

Subjects

Animals, Ascaris suum growth & development, Indicators and Reagents analysis, Parasite Egg Count, Ascaris suum isolation & purification, Ovum growth & development, Parasitology methods, Soil parasitology, Water parasitology

Abstract

Soil-transmitted helminths (STHs) are a major health concern globally. Infection is mostly through contact with contaminated water, food or soil. Therefore to break the cycle of viable transmission STH eggs must be quantitatively detected in the environment. The effect of different reagents on the viability of Ascaris suum eggs during laboratory detection and quantification was assessed and different incubation solutions compared. Sulphuric acid gave a slightly higher recovery percentage of viable eggs (91.2%) than distilled water (90.0%) and 0.5% formalin (87.6%), although the difference was not statistically significant (p > 0.05). Acetoacetic acid, ethyl acetate, ammonium bicarbonate, zinc sulphate, magnesium sulphate and Tween 80, are reagents widely used in test protocols for the detection and quantification of STH eggs. Eggs were exposed to these reagents for different time durations. Acetoacetic acid resulted in the highest loss of viability (3.4 ± 0.7% viable), while magnesium sulphate resulted in the least effect (88.5 ± 1.2% viable). In conclusion the use of the selected reagents in the detection of these eggs was found to affect the viability of exposed eggs, especially during prolonged exposures. Therefore we recommended that eggs be exposed for ≤5 minutes, to reduce the risk of viability loss.

Published

2017

3. Viability assessment of Ascaris suum eggs stained with fluorescent dyes using digital colorimetric analysis.

Author

Włodarczyk M, Zdybel J, Próchniak M, Osiński Z, Karamon J, Kłapeć T, and Cencek T

Subjects

Animals, Annexins, Computers, Flow Cytometry, Fluorescein-5-isothiocyanate, Ovum growth & development, Software, Ascaris suum growth & development, Colorimetry methods, Fluorescent Dyes

Abstract

The aim of the study was to develop a method for the colorimetric evaluation of nematode eggs using appropriate instruments. The materials for the study were live and dead (inactivated) eggs of the Ascaris suum. Viability of the eggs was assessed using four different kits for fluorescent staining (for each technique, a series of photos were taken). Images of stained eggs were analysed using graphic software with RGB (red-green-blue) function. The viability of the eggs was assessed according to the relative positions of the distributions of colour intensities of live or dead eggs - distributions area's overlap index (DAOI), and distributions area's separation index (DASI) were calculated. Computer analysis of the intensity of green colour was not satisfactory. However, analysis of images in the spectrum of red colour proved useful for the effective differentiation between live or dead eggs. The best parameters were observed using the Annexin V FITC Apoptosis Detection Kit (DASI = 41 and 67). The investigation confirmed the usefulness of fluorescent dyes used in conjunction with digital analysis for the assessment of the viability of A. suum eggs. The use of computer software allowed a better objectivity of the assessment, especially in the case of doubtful staining., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

4. Differential Chromosomal Localization of Centromeric Histone CENP-A Contributes to Nematode Programmed DNA Elimination.

Author

Kang Y, Wang J, Neff A, Kratzer S, Kimura H, and Davis RE

Subjects

Animals, Ascaris suum growth & development, Ascaris suum metabolism, Autoantigens metabolism, Centromere ultrastructure, Centromere Protein A, Chromatin metabolism, Chromatin ultrastructure, Chromosomal Proteins, Non-Histone metabolism, Chromosome Mapping, Chromosome Segregation, Embryo, Nonmammalian, Gene Expression, Helminth Proteins metabolism, Kinetochores metabolism, Kinetochores ultrastructure, Microtubules metabolism, Microtubules ultrastructure, Ascaris suum genetics, Autoantigens genetics, Centromere metabolism, Chromosomal Proteins, Non-Histone genetics, Genome, Helminth, Helminth Proteins genetics, Mitosis

Abstract

The stability of the genome is paramount to organisms. However, diverse eukaryotes carry out programmed DNA elimination in which portions or entire chromsomes are lost in early development or during sex determination. During early development of the parasitic nematode, Ascaris suum, 13% of the genome is eliminated. How different genomic segments are reproducibly retained or discarded is unknown. Here, we show that centromeric histone CENP-A localization plays a key role in this process. We show that Ascaris chromosomes are holocentric during germline mitoses, with CENP-A distributed along their length. Prior to DNA elimination in the four-cell embryo, CENP-A is significantly diminished in chromosome regions that will be lost. This leads to the absence of kinetochores and microtubule attachment sites necessary for chromosome segregation, resulting in loss of these regions upon mitosis. Our data suggest that changes in CENP-A localization specify which portions of chromosomes will be lost during programmed DNA elimination., (Copyright © 2016 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2016

5. Effects of some pesticides on development of Ascaris suum eggs.

Author

Yu YM, Kim JW, Na WS, Youn YN, Choi IW, and Lee YH

Subjects

Animals, Ascaris suum growth & development, Female, Larva drug effects, Larva growth & development, Microscopy, Survival Analysis, Temperature, Time, Zygote growth & development, Ascaris suum drug effects, Pesticides pharmacology, Zygote drug effects

Abstract

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.

Published

2014

6. Viability of Ascaris suum eggs in stored raw and separated liquid slurry.

Author

Katakam KK, Roepstorff A, Popovic O, Kyvsgaard NC, Thamsborg SM, and Dalsgaard A

Subjects

Ammonia analysis, Animals, Hydrogen-Ion Concentration, Manure analysis, Microbial Viability, Parasite Egg Count, Swine, Temperature, Waste Disposal, Fluid methods, Ascaris suum growth & development, Eggs analysis, Manure parasitology

Abstract

Separation of pig slurry into solid and liquid fractions is gaining importance as a way to manage increasing volumes of slurry. In contrast to solid manure and slurry, little is known about pathogen survival in separated liquid slurry. The viability of Ascaris suum eggs, a conservative indicator of fecal pollution, and its association with ammonia was investigated in separated liquid slurry in comparison with raw slurry. For this purpose nylon bags with 6000 eggs each were placed in 1 litre bottles containing one of the two fractions for 308 days at 5 °C or 25 °C. Initial analysis of helminth eggs in the separated liquid slurry revealed 47 Ascaris eggs per gramme. At 25 °C, egg viability declined to zero with a similar trend in both raw slurry and the separated liquid slurry by day 308, a time when at 5 °C 88% and 42% of the eggs were still viable in separated liquid slurry and raw slurry, respectively. The poorer survival at 25 °C was correlated with high ammonia contents in the range of 7.9-22.4 mM in raw slurry and 7.3-23.2 mM in liquid slurry compared to 3.2-9.5 mM in raw slurry and 2.6-9.5 mM in liquid slurry stored at 5 °C. The study demonstrates that at 5 °C, A. suum eggs have a higher viability in separated liquid slurry as compared to raw slurry. The hygiene aspect of this needs to be further investigated when separated liquid slurry is used to fertilize pastures or crops.

Published

2013

7. Cloning and characterization of hypoxia-inducible factor-1 subunits from Ascaris suum - a parasitic nematode highly adapted to changes of oxygen conditions during its life cycle.

Author

Goto M, Amino H, Nakajima M, Tsuji N, Sakamoto K, and Kita K

Subjects

Amino Acid Sequence, Animals, Aryl Hydrocarbon Receptor Nuclear Translocator metabolism, Ascaris suum genetics, Cloning, Molecular, DNA, Complementary, DNA, Helminth genetics, Electron Transport Complex II genetics, Electron Transport Complex II metabolism, Female, Flavoproteins genetics, Flavoproteins metabolism, Gene Expression Regulation, Hypoxia-Inducible Factor 1, alpha Subunit metabolism, Molecular Sequence Data, Oxidoreductases genetics, Oxidoreductases metabolism, RNA, Messenger genetics, RNA, Messenger metabolism, Real-Time Polymerase Chain Reaction, Sequence Analysis, DNA, Transcription Factors genetics, Transcription Factors metabolism, Two-Hybrid System Techniques, Aryl Hydrocarbon Receptor Nuclear Translocator genetics, Ascaris suum growth & development, Hypoxia-Inducible Factor 1, alpha Subunit genetics, Life Cycle Stages, Oxygen metabolism

Abstract

The parasitic nematode Ascaris suum successfully adapts to a significant decrease in oxygen availability during its life cycle by altering its metabolic system dramatically. However, little is known about the regulatory mechanisms of adaptation to hypoxic environments in A. suum. In multicellular organisms, hypoxia-inducible factor-1 (HIF-1), a heterodimeric transcription factor composed of HIF-1α and HIF-1β subunits, is a master regulator of genes involved in adaptation to hypoxia. In the present study, cDNAs encoding HIF-1α and HIF-1β were cloned from A. suum and characterized. The full-length A. suum hif-1α and hif-1β cDNAs contain open reading frames encoding proteins with 832 and 436 amino acids, respectively. In the deduced amino acid sequences of A. suum HIF-1α and HIF-1β, functional domains essential for DNA-binding, dimerization, and oxygen-dependent prolyl hydroxylation were conserved. The interaction between A. suum HIF-1α and HIF-1β was confirmed by the yeast two-hybrid assay. Both A. suum hif-1α and hif-1β mRNAs were expressed at all stages examined (fertilized eggs, third-stage larvae, lung-stage larvae, young adult worms, and adult muscle tissue), and most abundantly in the aerobic free-living third-stage larvae, followed by a gradual decrease after infection of the host. hif-1 mRNA transcription was not sensitive to the oxygen environment in either third-stage larvae or adult worms (muscle tissue), and was regulated in a stage-specific manner. High expression of hif-1 mRNAs in third-stage larvae suggests its contribution to pre-adaptation to a hypoxic environment after infection of their host. Sequence analysis of 5'-upstream regions of mitochondrial complex II (succinate-ubiquinone reductase/quinol-fumarate reductase) genes, which show stage-specific expression and play an important role in oxygen adaptation during the life cycle, revealed that all subunits except for the adult-type flavoprotein subunit (Fp) possess putative hypoxia-responsive elements (HREs), suggesting that they are hif-1 target genes., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2013

8. Effect of temperature on embryonation of Ascaris suum eggs in an environmental chamber.

Author

Kim MK, Pyo KH, Hwang YS, Park KH, Hwang IG, Chai JY, and Shin EH

Subjects

Animals, Ascaris suum growth & development, Culture Media, Eggs radiation effects, Humidity, Larva growth & development, Larva radiation effects, Silicon Dioxide, Temperature, Ascaris suum embryology, Ascaris suum radiation effects

Abstract

The influence of temperature on the development and embryonation of Ascaris suum eggs was studied using coarse sand medium in an environmental chamber with 50% humidity. The time required for development and embryonation of eggs was examined under 3 different temperature conditions, 5°C, 25°C, and 35°C. A. suum eggs did not develop over 1 month at the temperature of 5°C. However, other temperature conditions, 25°C and 35°C, induced egg development to the 8-cell-stage at days 5-6 after incubation. All eggs examined developed to the 8-cell stage at day 6 after incubation in the sand medium at 25°C. The higher temperature, 35°C, slightly accelerated the A. suum egg development compared to 25°C, and the development to the 8-cell stage occurred within day 5 after incubation. The formation of larvae in A. suum eggs at temperatures of 35° and 25°C appeared at days 17 and 19 after incubation, respectively. These findings show that 35° condition shortens the time for the development of A. suum eggs to the 8-cell-stage in comparison to 25°C, and suggest the possibility of accelerated transmission of this parasite, resulting from global warming and ecosystem changes.

Published

2012

9. Changes in cyclic nucleotides, locomotory behavior, and body length produced by novel endogenous neuropeptides in the parasitic nematode Ascaris suum.

Author

Reinitz CA, Pleva AE, and Stretton AO

Subjects

Animals, Ascariasis parasitology, Ascaris suum genetics, Body Size, Female, Helminth Proteins genetics, Helminth Proteins metabolism, Locomotion, Neuropeptides genetics, Swine, Ascariasis veterinary, Ascaris suum growth & development, Ascaris suum physiology, Cyclic AMP metabolism, Cyclic GMP metabolism, Neuropeptides metabolism, Swine Diseases parasitology

Abstract

Recent technical advances have rapidly advanced the discovery of novel peptides, as well as the transcripts that encode them, in the parasitic nematode Ascaris suum. Here we report that many of these novel peptides produce profound and varied effects on locomotory behavior and levels of cyclic nucleotides in A. suum. We investigated the effects of 31 endogenous neuropeptides encoded by transcripts afp-1, afp-2, afp-4, afp-6, afp-7, and afp-9-14 (afp: Ascaris FMRFamide-like Precursor protein) on cyclic nucleotide levels, body length and locomotory behavior. Worms were induced to generate anteriorly propagating waveforms, peptides were injected into the pseudocoelomic cavity, and changes in the specific activity (nmol/mg protein) of second messengers cAMP (3'5' cyclic adenosine monophosphate) and cGMP (3'5' cyclic guanosine monophosphate) were determined. Many of these neuropeptides changed the levels of cAMP (both increases and decreases were found), whereas few neuropeptides changed the level of cGMP. A subset of the peptides that lowered cAMP was investigated for effects on the locomotory waveform and on body length. Injection of AF19, or AF34 (afp-13), AF9 (afp-14), AF26 or AF41 (afp-11) caused immediate paralysis and cessation of propagating body waveforms. These neuropeptides also significantly increased body length. In contrast, injection of AF15 (afp-9) reduced the body length, and decreased the amplitude of waves in the body waveform. AF30 (afp-10) produced worms with tight ventral coils. Although injection of neuropeptides encoded by afp-1 (AF3, AF4, AF10 or AF13) produced an increased number of exaggerated body waves, there were no effects on either cAMP or cGMP. By injecting peptides into behaving A. suum, we have provided an initial screen of the effects of novel peptides on several behavioral and biochemical parameters., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2011

10. Validation of ethnoveterinary medicinal treatments.

Author

Lans C

Subjects

Animals, Ascariasis parasitology, Ascariasis therapy, Reproducibility of Results, Swine, Swine Diseases parasitology, Ascariasis veterinary, Ascaris suum growth & development, Dietary Supplements standards, Phytotherapy veterinary, Swine Diseases therapy

Published

2011

11. The role of Intelectin-2 in resistance to Ascaris suum lung larval burdens in susceptible and resistant mouse strains.

Author

Dold C, Pemberton AD, Stafford P, Holland CV, and Behnke JM

Subjects

Animals, Ascariasis immunology, Ascaris suum growth & development, Ascaris suum pathogenicity, Chimera genetics, Chimera parasitology, Crosses, Genetic, Disease Models, Animal, Disease Susceptibility, Female, Gene Dosage genetics, Immunity, Innate, Larva growth & development, Larva immunology, Larva pathogenicity, Lectins physiology, Male, Mice, Mice, Inbred C57BL, Mice, Inbred CBA, Pilot Projects, Random Allocation, Sex Factors, Ascariasis parasitology, Ascaris suum immunology, Lectins genetics, Lung parasitology

Abstract

The underlying mechanism of predisposition to Ascaris infection is not yet understood but host genetics are thought to play a fundamental role. We investigated the association between the Intelectin-2 gene and resistance in F2 mice derived from mouse strains known to be susceptible and resistant to infection. Ascaris larvae were isolated from murine lungs and the number of copies of the Intelectin-2 gene was determined in F2 mice. Intelectin-2 gene copy number was not significantly linked to larval burden. In a pilot experiment, the response to infection in parental mice of both sexes was observed in order to address the suitability of female F2 mice. No overall significant sex effect was detected. However, a divergence in resistance/susceptibility status was observed between male and, female hybrid offspring. The responsiveness to Ascaris in mice is likely to be controlled by multiple genes and, despite a unique absence from the susceptible C57BL/6j strain, the Intelectin-2 gene does not play a significant role in resistance. The observed intra-strain variation in larval burden requires further investigation but we hypothesize that it stems from social/dominance hierarchies created by the presence of female mice and possibly subsequent hormonal perturbations that modify the intensity of the immune response.

Published

2011

12. Ascaris suum: RNAi mediated silencing of enolase gene expression in infective larvae.

Author

Chen N, Xu MJ, Nisbet AJ, Huang CQ, Lin RQ, Yuan ZG, Song HQ, and Zhu XQ

Subjects

Animals, Ascariasis parasitology, Ascaris suum growth & development, Female, Larva enzymology, Larva genetics, Larva growth & development, Liver parasitology, Lung parasitology, Male, Mice, Mice, Inbred BALB C, Phenotype, Phosphopyruvate Hydratase metabolism, RNA, Messenger metabolism, Reverse Transcriptase Polymerase Chain Reaction, Specific Pathogen-Free Organisms, Swine, Ascaris suum enzymology, Ascaris suum genetics, Gene Expression Regulation, Enzymologic genetics, Phosphopyruvate Hydratase genetics, RNA Interference

Abstract

Ascaris suum is an important parasite of pigs that causes tremendous economic losses globally to agriculture and animal husbandry annually. RNA interference (RNAi) technology has been described as a successful and useful approach for the elucidation of gene function in parasitic nematodes. In the present study, RNAi was used to silence the expression of a gene encoding enolase in A. suum by soaking infective larvae in double-stranded RNA derived from an EST (representing As-enol-1) selected from an A. suum infective larvae-specific cDNA library. The mRNA levels of RNAi-treated larvae were examined by Reverse-Transcription PCR (RT-PCR) analysis. The survival of RNAi-treated larvae was compared with larvae treated with dsRNA-free culture medium. The effect of enolase depletion on the development of A. suum larvae was assessed by infecting BALB/c mice with RNAi-treated larvae. The results showed that enolase gene expression was silenced completely and the survival rate of the RNAi-treated nematodes was reduced by 20.11% (P<0.01) after soaking for 72 h. Although no significant difference was detected in the numbers of larvae recovered from the liver and lungs of infected mice 4 days post infection, RNAi knockdown of the A. suum enolase mRNA led to significant shorter larvae, indicating that loss of enolase expression may cause delays in larval development., (Copyright © 2010 Elsevier Inc. All rights reserved.)

Published

2011

13. RNAi-mediated silencing of a novel Ascaris suum gene expression in infective larvae.

Author

Xu MJ, Chen N, Song HQ, Lin RQ, Huang CQ, Yuan ZG, and Zhu XQ

Subjects

Animals, Ascariasis parasitology, Ascaris suum drug effects, Ascaris suum pathogenicity, Disease Models, Animal, Larva genetics, Liver parasitology, Lung parasitology, Mice, Anthelmintics metabolism, Ascaris suum genetics, Ascaris suum growth & development, Biological Products metabolism, Gene Expression, Gene Silencing, RNA, Small Interfering metabolism

Abstract

In the present study, the potential of RNA interference (RNAi) as a gene silencing tool and the resultant effects on Ascaris suum larval development was examined by targeting a gene (represented by the EST 06G09) specifically expressed in the infective larvae of A. suum. BALB/c mice were infected with RNAi-treated larvae. The results showed that the target gene was silenced after soaking for 72 h, and the survival rate of the RNAi-treated larvae was reduced by 17.25% (P<0.01). A significant difference (P<0.05) was detected in the numbers of larvae collected from the livers and lungs of infected mice 4 days after infection with untreated larvae (164.29 ± 21.51) and RNAi-treated larvae (71.43 ± 14.35). Significant differences (P<0.01) were also found in the body length and width between untreated larvae (480 ± 105.77 μm for length and 23.93 ± 3.72 μm for width) and RNAi-treated larvae (400.57 ± 71.31 μm for length and 20.20 ± 2.43 μm for width). These results show that the gene represented by EST 06G09 may play a role in the development of A. suum larvae.

Published

2010

14. Genetic influence on the kinetics and associated pathology of the early stage (intestinal-hepatic) migration of Ascaris suum in mice.

Author

Dold C, Cassidy JP, Stafford P, Behnke JM, and Holland CV

Subjects

Animals, Ascariasis parasitology, Ascaris suum growth & development, Ascaris suum physiology, Disease Susceptibility, Humans, Kinetics, Larva physiology, Lung parasitology, Lung pathology, Lung Diseases parasitology, Mice, Mice, Inbred C57BL, Mice, Inbred CBA, Movement, Time Factors, Ascariasis genetics, Ascariasis pathology, Ascaris suum pathogenicity, Disease Models, Animal, Intestines parasitology, Liver parasitology

Abstract

The generative mechanism(s) of aggregation and predisposition to Ascaris lumbricoides and A. suum infections in their host population are currently unknown and difficult to elucidate in humans and pigs for ethical/logistical reasons. A recently developed, optimized murine model based on 2 inbred strains, putatively susceptible (C57BL/6j) and resistant (CBA/Ca) to infection, was exploited to elucidate further the basis of the contrasting parasite burdens, most evident at the pulmonary stage. We explored the kinetics of early infection, focusing on the composite lobes of the liver and lung, over the first 8 days in an effort to achieve a more detailed understanding of the larval dispersal over time and the point at which worm burdens diverge. Larval recoveries showed a heterogenous distribution among the lobes of the lungs, being higher in the right lung of both strains, and in the susceptible strain larvae accumulating preferentially in 2 (caudal and middle) of the 4 lobes. Total larval burdens in these 2 lobes were largely responsible for the higher worm burdens in the susceptible strain. While total lung larval recoveries significantly differed between mouse strains, a difference in liver larval burdens was not observed. However, an earlier intense inflammatory response coupled with more rapid tissue repair in the hepatic lobes was observed in CBA/Ca mice, in contrast to C57BL/6j mice, and it is possible that these processes are responsible for restricting onward pulmonary larval migration in the resistant genotype.

Published

2010

15. Population dynamics of Ascaris suum in trickle-infected pigs.

Author

Nejsum P, Thamsborg SM, Petersen HH, Kringel H, Fredholm M, and Roepstorff A

Subjects

Animals, Antibodies, Helminth blood, Ascariasis parasitology, Ascaris suum immunology, Feces parasitology, Female, Host-Parasite Interactions, Immunoglobulin A blood, Immunoglobulin G blood, Intestine, Small parasitology, Liver pathology, Lung parasitology, Male, Parasite Egg Count veterinary, Population Dynamics, Random Allocation, Specific Pathogen-Free Organisms, Swine, Ascariasis veterinary, Ascaris suum growth & development, Swine Diseases parasitology

Abstract

The population dynamics of Ascaris suum was studied by long-term exposure of pigs to infective eggs. The pigs were experimentally inoculated with 25 A. suum eggs/kg/day, and 7, 8, and 8 pigs were necropsied at weeks 4, 8, and 14 postinoculation (PI), respectively. Despite the fact that the pigs were continuously reinfected, dramatic reductions in numbers of liver lesions (white spots) and migrating lung larvae were observed as a function of time. However, even at the end of the study, a few larvae were able to complete migration, but these larvae seemed unable to mature in the small intestine. Thus, the adult worm population seemed to consist of worms from the first part of the exposure period. The noticeable decrease in number of white spots suggests that the level of exposure is not reflected in the number of white spots in the late phase of a continuous infection. The serum levels of A. suum L3-specific IgG1 and IgA were significantly elevated by week 4 PI, after which the antibody levels declined. The population dynamics and parasite regulating mechanisms are discussed for A. suum in pigs as well as for the closely related species A. lumbricoides in humans.

Published

2009

16. Change of subunit composition of mitochondrial complex II (succinate-ubiquinone reductase/quinol-fumarate reductase) in Ascaris suum during the migration in the experimental host.

Author

Iwata F, Shinjyo N, Amino H, Sakamoto K, Islam MK, Tsuji N, and Kita K

Subjects

Animal Migration physiology, Animals, Antibodies, Helminth analysis, Antibodies, Helminth metabolism, Ascariasis enzymology, Ascaris suum growth & development, Ascaris suum physiology, Blotting, Western, Electron Transport Complex II analysis, Electron Transport Complex II chemistry, Electrophoresis, Polyacrylamide Gel, Larva enzymology, Larva physiology, Oxidoreductases analysis, Oxidoreductases metabolism, Protein Subunits analysis, Protein Subunits metabolism, Quinones analysis, Rabbits, Ascariasis parasitology, Ascaris suum enzymology, Electron Transport Complex II metabolism, Mitochondria, Muscle enzymology

Abstract

The mitochondrial metabolic pathway of the parasitic nematode Ascaris suum changes dramatically during its life cycle, to adapt to changes in the environmental oxygen concentration. We previously showed that A. suum mitochondria express stage-specific isoforms of complex II (succinate-ubiquinone reductase: SQR/quinol-fumarate reductase: QFR). The flavoprotein (Fp) and small subunit of cytochrome b (CybS) in adult complex II differ from those of infective third stage larval (L3) complex II. However, there is no difference in the iron-sulfur cluster (Ip) or the large subunit of cytochrome b (CybL) between adult and L3 isoforms of complex II. In the present study, to clarify the changes that occur in the respiratory chain of A. suum larvae during their migration in the host, we examined enzymatic activity, quinone content and complex II subunit composition in mitochondria of lung stage L3 (LL3) A. suum larvae. LL3 mitochondria showed higher QFR activity ( approximately 160 nmol/min/mg) than mitochondria of A. suum at other stages (L3: approximately 80 nmol/min/mg; adult: approximately 70 nmol/min/mg). Ubiquinone content in LL3 mitochondria was more abundant than rhodoquinone ( approximately 1.8 nmol/mg versus approximately 0.9 nmol/mg). Interestingly, the results of two-dimensional bule-native/sodium dodecyl sulfate polyacrylamide gel electrophoresis analyses showed that LL3 mitochondria contained larval Fp (Fp(L)) and adult Fp (Fp(A)) at a ratio of 1:0.56, and that most LL3 CybS subunits were of the adult form (CybS(A)). This clearly indicates that the rearrangement of complex II begins with a change in the isoform of the anchor CybS subunit, followed by a similar change in the Fp subunit.

Published

2008

17. Ascaris suum cytochrome b5, an adult-specific secretory protein reducing oxygen-avid ferric hemoglobin.

Author

Hashimoto M, Takamiya S, Yokota T, Nakajima Y, Yamakura F, Sugio S, and Aoki T

Subjects

Anaerobiosis, Animals, Body Fluids enzymology, Cytochromes b5 metabolism, Ferrous Compounds metabolism, Humans, Oxidation-Reduction, Protein Binding, Ascaris suum enzymology, Ascaris suum growth & development, Cytochromes b5 chemistry, Cytochromes b5 physiology, Ferric Compounds metabolism, Methemoglobin metabolism, Oxygen metabolism

Abstract

The anaerobic parasitic nematode Ascaris suum has an oxygen-avid hemoglobin in the perienteric fluid, the biological function of which remains elusive. Here, we report that Ascaris cytochrome b5 is expressed specifically in the intestinal parasitic stage and is secreted into the perienteric fluid, thus co-localizing with Ascaris hemoglobin. We also found that cytochrome b5 reduces Ascaris non-functioning ferric methemoglobin more efficiently than mammalian methemoglobin. Furthermore, a computer graphics model of the electron transfer complex between Ascaris cytochrome b5 and Ascaris hemoglobin strongly suggested that these two proteins are physiological redox partners. Nitric oxide has been reported to react easily with oxygen captured in hemoglobin to form nitrate, but not toxic free radicals, which may result in production of methemoglobin for the cytochrome b5 to regenerate functional ferrous hemoglobin. Therefore, our findings suggest that Ascaris cytochrome b5 is a key redox partner of Ascaris hemoglobin, which acts as an antioxidant.

Published

2008

18. Helminths of wild boar in the isolated population close to the northern border of its habitat area.

Author

Järvis T, Kapel Ch, Moks E, Talvik H, and Mägi E

Subjects

Animals, Animals, Wild, Ascaris suum growth & development, Ascaris suum isolation & purification, Body Weight, Cost of Illness, Dicrocoelium growth & development, Dicrocoelium isolation & purification, Estonia epidemiology, Female, Helminthiasis, Animal parasitology, Lung parasitology, Male, Metastrongyloidea growth & development, Metastrongyloidea isolation & purification, Parasite Egg Count veterinary, Prevalence, Swine Diseases parasitology, Taenia growth & development, Taenia isolation & purification, Trichuris growth & development, Trichuris isolation & purification, Helminthiasis, Animal epidemiology, Sus scrofa parasitology, Swine Diseases epidemiology

Abstract

One hundred wild boars (Sus scrofa) from a geographically isolated population on the island Saaremaa of western Estonia were examined for visceral helminths. Seven helminth species, Metastrongylus pudendotectus, M. salmi, M. elongatus, Ascaris suum, Trichuris suis, Dicrocoelium dendriticum and Taenia hydatigena larva, were found. The predominant helminths discovered were lung nematodes (prevalence 82%, mean intensity 96.2 per animal). A significant negative correlation was observed between the weight of wild boars and the number of lungworms and helminth species. The number of helminth species found in the wild boar population on the island was lower compared to that of the adjacent mainland.

Published

2007

19. [Effects of some species of hydrocoles on the development of ascarid eggs].

Author

Nefedova EM, Solovykh GN, Nikitina LP, Riabtseva EA, and Minakova VV

Subjects

Animals, Ascaris suum drug effects, Biological Products metabolism, Biological Products pharmacology, Embryonic Development, Muramidase metabolism, Muramidase pharmacology, Species Specificity, Time Factors, Ascaris suum growth & development, Eukaryota metabolism, Ovum growth & development, Unio metabolism

Abstract

The study established that aquatic plants differently affected the development of ascarid eggs. Some species of algae exerted a damaging effect on ascarid eggs only at early stages of embryogenesis while others did at its late stages, but some species did not produce any noticeable effect on the development of the eggs. A great difference was found in the development of ascarid eggs in different seasons. Gas exchange conditions were ascertained to affect the development of ascarid eggs. Analysis of the effect of egg lysozyme versus mollusk one on ascarid embryogenesis demonstrated that the latter had a more pronounced antiparasitic activity.

Published

2007

20. A real-time PCR method for quantifying viable ascaris eggs using the first internally transcribed spacer region of ribosomal DNA.

Author

Pecson BM, Barrios JA, Johnson DR, and Nelson KL

Subjects

Animals, Ascaris suum isolation & purification, DNA Primers, DNA, Helminth analysis, Polymerase Chain Reaction standards, RNA, Helminth genetics, RNA, Ribosomal genetics, Ascaris suum growth & development, DNA, Ribosomal Spacer analysis, Ovum growth & development, Parasite Egg Count, Polymerase Chain Reaction methods

Abstract

Worldwide, 1.4 billion people are infected with the intestinal worm Ascaris lumbricoides. As a result, Ascaris eggs are commonly found in wastewater and sludges. The current microscopy method for detecting viable Ascaris eggs is time- and labor-intensive. The goal of this study was to develop a real-time quantitative PCR (qPCR) method to determine the levels of total and viable Ascaris eggs in laboratory solutions using the first internally transcribed spacer (ITS-1) region of ribosomal DNA (rDNA) and rRNA. ITS-1 rDNA levels were proportional to Ascaris egg cell numbers, increasing as eggs developed from single cells to mature larvae and ultimately reaching a constant level per egg. Treatments causing >99% inactivation (high heat, moderate heat, ammonia, and UV) eliminated this increase in ITS-1 rDNA levels and caused decreases that were dependent on the treatment type. By taking advantage of this difference in ITS-1 rDNA level between viable, larvated eggs and inactivated, single-celled eggs, qPCR results were used to develop inactivation profiles for the different treatments. No statistical difference from the standard microscopy method was found in 75% of the samples (12 of 16). ITS-1 rRNA was detected only in samples containing viable eggs, but the levels were more variable than rDNA levels and ITS-1 rRNA could not be used for quantification. The detection limit of the rDNA-based method was approximately one larvated egg or 90 single-celled eggs; the detection limit for the rRNA-based method was several orders of magnitude higher. The rDNA qPCR method is promising for both research and regulatory applications.

Published

2006

21. [The time of development of ascarid eggs in the soil of the Central Chernozem zone (in case of the Kursk Region)].

Author

Tokareva MK and Malysheva NS

Subjects

Animals, Female, Parasite Egg Count, Russia, Seasons, Ascariasis prevention & control, Ascaris suum growth & development, Ecosystem, Soil parasitology

Published

2006

22. Effect of piperazine (diethylenediamine) on the moulting, proteome expression and pyrophosphatase activity of Ascaris suum lung-stage larvae.

Author

Islam MK, Miyoshi T, Yamada M, Alim MA, Huang X, Motobu M, and Tsuji N

Subjects

Animals, Ascaris suum enzymology, Ascaris suum genetics, Ascaris suum growth & development, Electrophoresis, Gel, Two-Dimensional, Female, Gene Expression Regulation, Enzymologic drug effects, Helminth Proteins metabolism, Immunoblotting, Larva drug effects, Larva enzymology, Larva genetics, Larva growth & development, Male, Microscopy, Electron, Transmission, Piperazine, Proteome biosynthesis, Pyrophosphatases antagonists & inhibitors, Anthelmintics pharmacology, Ascaris suum drug effects, Molting drug effects, Piperazines pharmacology, Proteome drug effects, Pyrophosphatases metabolism

Abstract

Piperazine (diethylenediamine) is an anthelmintic widely used against animal and bird ascariasis. In this study, we show that treatment with piperazine blocks Ascaris suum larval moulting and development processes and affects larval proteome expression profiles. A. suum lung-stage L3 (LL3) obtained from an infected rabbit's lungs were cultured in RPMI medium in the presence of increasing concentrations of piperazine sulfate (Pzes). Our results showed that Pzes potently inhibited moulting of A. suum LL3 in a dose-dependent manner and that moulting was completely blocked (100%) at 50mM concentrations. We then examined the changes in A. suum LL3 proteome expression patterns following Pzes exposure using two-dimensional (2D) electrophoresis. Pzes exposure inhibited expression of at least 16 major protein spots in unmoulted LL3 out of more than 200 visible protein spots resolved on 2D gels prepared from moulted larvae (i.e., lung-stage L4). Pzes exposure also inhibited expression of 13 immunogenic protein spots in unmoulted LL3. More importantly, Pzes exposure inhibited activity of a moulting-specific enzyme, inorganic pyrophosphatase of A. suum (AsPPase), by 26%. Expression of native AsPPase was also reduced following Pzes exposure as detected by immunoblotting and immunofluorescent staining. Transmission electron microscopy showed that Pzes interfered with growth and ecdysis of the cuticle and caused damage to gut tissues of the larvae. Our results suggest that A. suum LL3 may become a suitable model to screening new-class anthelmintics with antimoulting functions and that A. suum LL3-Pzes may serve as a useful tool for identification of moulting-specific potential proteins in Ascaris roundworms.

Published

2006

23. Early stages of Ascaris suum induce airway inflammation and hyperreactivity in a mouse model.

Author

Enobe CS, Araújo CA, Perini A, Martins MA, Macedo MS, and Macedo-Soares MF

Subjects

Anaphylaxis immunology, Animals, Antibodies, Helminth blood, Antibodies, Helminth immunology, Antibody Specificity, Ascaris suum growth & development, Bronchoalveolar Lavage methods, Eosinophil Peroxidase metabolism, Eosinophilia immunology, Eosinophilia parasitology, Female, Lung Diseases, Parasitic enzymology, Mice, Mice, Inbred BALB C, Rats, Rats, Wistar, Up-Regulation, Ascaris suum immunology, Bronchial Hyperreactivity immunology, Bronchial Hyperreactivity parasitology, Lung Diseases, Parasitic immunology, Lung Diseases, Parasitic parasitology

Abstract

The inflammatory and functional changes that occur in murine lung after infection with 2500 infective Ascaris suum eggs were studied in this work. A sequential influx of neutrophils, mononuclear cells and eosinophils occurred into airways concomitantly with migration of larvae from liver to the lungs. Histological analysis of the lung showed a severe intra-alveolar haemorrhage at the peak of larval migration (day 8) and the most intense inflammatory cell infiltrate on day 14. Ascaris L3 were found in alveolar spaces and inside bronchioles on day 8. The number of eosinophils was elevated in the blood on days 8 and 14. The peak of eosinophil influx into the lung was at day 14, as indicated by the high levels of eosinophil peroxidase activity, followed by their migration into the airways. The antibody response against egg and larval antigens consisted mainly of IgG1 and IgM, and also of IgE and anaphylactic IgG1, that cross-reacted with adult worm antigens. Total IgE levels were substantially elevated during the infection. Measurement of lung mechanical parameters showed airway hyperreactivity in infected mice. In conclusion, the murine model of A. suum infection mimics the Th2-induced parameters observed in pigs and humans and can be used to analyse the immunoregulatory properties of this helminth.

Published

2006

24. Inactivation of single-celled Ascaris suum eggs by low-pressure UV radiation.

Author

Brownell SA and Nelson KL

Subjects

Animals, Ascaris suum growth & development, Disinfection methods, Dose-Response Relationship, Radiation, Ovum growth & development, Parasite Egg Count, Radiography, Water parasitology, Ascaris suum radiation effects, Ovum cytology, Ovum diagnostic imaging, Ultraviolet Rays

Abstract

Intact and decorticated single-celled Ascaris suum eggs were exposed to UV radiation from low-pressure, germicidal lamps at fluences (doses) ranging from 0 to 8,000 J/m2 for intact eggs and from 0 to 500 J/m2 for decorticated eggs. With a UV fluence of 500 J/m2, 0.44-+/-0.20-log inactivation (mean+/-95% confidence interval) (63.7%) of intact eggs was observed, while a fluence of 4,000 J/m2 resulted in 2.23-+/-0.49-log inactivation (99.4%). (The maximum quantifiable inactivation was 2.5 log units.) Thus, according to the methods used here, Ascaris eggs are the most UV-resistant water-related pathogen identified to date. For the range of fluences recommended for disinfecting drinking water and wastewater (200 to 2,000 J/m2), from 0- to 1.5-log inactivation can be expected, although at typical fluences (less than 1,000 J/m2), the inactivation may be less than 1 log. When the eggs were decorticated (the outer egg shell layers were removed with sodium hypochlorite, leaving only the lipoprotein ascaroside layer) before exposure to UV, 1.80-+/-0.32-log reduction (98.4%) was achieved with a fluence of 500 J/m2, suggesting that the outer eggshell layers protected A. suum eggs from inactivation by UV radiation. This protection may have been due to UV absorption by proteins in the outer layers of the 3- to 4-microm-thick eggshell. Stirring alone (without UV exposure) also inactivated some of the Ascaris eggs (approximately 20% after 75 min), which complicated determination of the inactivation caused by UV radiation alone.

Published

2006

25. Cross-species RNAi: selected Ascaris suum dsRNAs can sterilize Caenorhabditis elegans.

Author

Gao G, Raikar S, Davenport B, Mutapcic L, Montgomery R, Kuzmin E, and Bennett KL

Subjects

Actins analysis, Actins genetics, Animals, Ascaris suum growth & development, Ascaris suum physiology, Blotting, Northern methods, Caenorhabditis elegans drug effects, Caenorhabditis elegans ultrastructure, Eukaryotic Initiation Factor-5 genetics, Infertility, RNA, Double-Stranded chemistry, RNA, Double-Stranded physiology, Ribosomal Proteins genetics, Ascaris suum genetics, Caenorhabditis elegans physiology, RNA Interference, RNA, Double-Stranded pharmacology

Published

2006

26. The development of a mouse model to explore resistance and susceptibility to early Ascaris suum infection.

Author

Lewis R, Behnke JM, Stafford P, and Holland CV

Subjects

Analysis of Variance, Animals, Ascariasis immunology, Ascaris suum growth & development, Ascaris suum isolation & purification, Body Size physiology, Disease Susceptibility veterinary, Intestine, Small parasitology, Liver parasitology, Lung parasitology, Male, Mice, Mice, Inbred BALB C, Mice, Inbred C57BL, Mice, Inbred Strains, Population Density, Time Factors, Ascariasis veterinary, Ascaris suum immunology, Disease Models, Animal

Abstract

Ascaris suum and Ascaris lumbricoides exhibit an over-dispersed frequency distribution in their host populations in both the adult and larval stages. The impact of host factors on this observed distribution is still poorly understood and difficult to investigate in the natural host populations. The use of a mouse model has been supported by the observations that the larval migratory pattern, in this host, mimics the pattern observed in the pig. We explored the extrinsic factors that might affect the quantitative recovery of larvae during this migration in order to standardize a model system facilitating accurate future assessment of host genetic variation on this phase of the infection. In Exp. 1 larvae accumulated in the livers of both C57BL/6j and BALB/c mice up to and including days 4-5 p.i. and then declined in both strains until day 9. Loss of larvae from the livers corresponded to arrival in the lungs and maximum accumulation on day 7 p.i. but recovery was considerably higher in C57BL/6j mice. It was concluded that day 7 recoveries gave the best indication of relative resistance/susceptibility to this parasite. In Exp. 2 A/J, BALB/c, CBA/Ca, C57BL/6j, C3H/HeN, DBA/2, NIH, SJL, and SWR mice were compared. C57BL/6j mice were identified as the most susceptible strain and CBA/Ca mice as having the most contrasting phenotype, but with a similar kinetic pattern of migration. Finally, in Exp. 3, a strong positive correlation between the size of the inoculum and the mean worm recovery from the lungs was found in CBA/Ca and C57BL/6j mice, but the difference between these strains was highly consistent, 66.6-80%, regardless of the initial dose. These results demonstrate that, using our protocols for infection and recovery, between-experiment variation in A. suum worm burdens is minimal, and that C57BL/6j mice are highly susceptible to infection compared to other strains. The mechanistic basis of this susceptibility in relation to the resistance of other strains is unknown, but the possibilities are reviewed.

Published

2006

27. A case of Ascaris suum visceral larva migrans diagnosed by using A. suum larval excretory-secretory (ES) antigen.

Author

Nakamura-Uchiyama F, Tokunaga Y, Suzuki A, Akao N, Hiromatsu K, Hitomi S, and Nawa Y

Subjects

Adult, Animals, Ascaris suum growth & development, Female, Humans, Immunoglobulin G blood, Larva immunology, Larva Migrans, Visceral parasitology, Antibodies, Helminth blood, Antigens, Helminth immunology, Ascaris suum immunology, Larva Migrans, Visceral diagnosis

Abstract

A 42-y-old female presented with common cold-like symptoms. Laboratory data showed mild liver dysfunction together with peripheral blood eosinophilia. She was suspected of having a helminthic infection, however parasite eggs or larvae were not detected by repeated stool examinations. Eventually she transpired to have a high IgG antibody titer against excretory-secretary (ES) antigen of Ascaris suum larvae, but not of Toxocara canis larvae, suggesting that she had been suffering from visceral larva migrans (VLM) caused by A. suum. Her sickness improved without any treatment. Current results clearly highlight the usefulness of ES antigens derived from larvae of A. suum for the fine discrimination of VLM caused by A. suum and by T. canis. Application of A. suum derived ES antigens as a diagnostic tool may reveal the distinctive clinical features of VLM caused by A. suum.

Published

2006

28. Population structure in Ascaris suum (Nematoda) among domestic swine in Denmark as measured by whole genome DNA fingerprinting.

Author

Nejsum P, Frydenberg J, Roepstorff A, and Parker ED Jr

Subjects

Animals, Ascaris suum growth & development, DNA, Helminth analysis, DNA, Helminth genetics, Denmark, Female, Genetics, Population methods, Male, Polymorphism, Restriction Fragment Length, Ascaris suum genetics, DNA Fingerprinting methods, Genome, Helminth genetics, Sus scrofa parasitology

Abstract

We here analyze the population structure in the pig roundworm, Ascaris suum, among domestic pigs in Denmark using a whole-genome DNA fingerprinting technique, "amplified fragment length polymorphism" (AFLP) analysis. With these data, we can extract absolute gene frequency variance components and G-statistics for 135 independent nucleotide polymorphisms. The average proportion of total variance partitioned between Jutland and Zealand is less than 3% of the total variance, implying no restriction in gene flow between worms from different regions in Denmark. The average gene frequency difference between two farms widely separated in Jutland represents 5% of the total genetic variance of these two farms combined. Conversely, worms from different hosts within these two farms are more subdivided, with an average of 12% of the total variance in gene frequencies within farms being distributed between hosts. This result implies substantial single generation inbreeding due to founder effects in the establishment of adult worms in single hosts. Absolute variance components extracted from the gene diversities also showed significant differences, with the among-host variance being greater that the between-farm and between-region values. This little geographical variation is discussed in relation to the hierarchic structure of the Danish swine production system. Comparison of our results with other studies on parasitic roundworms, suggests that patterns of host dispersal effectively control patterns of worm gene flow. Furthermore, the potential spread of anthelminth resistance among A. suum may thus be rapid, due to the flow of infected hosts within the domestic swine stocks in Denmark.

Published

2005

29. Molecular cloning and partial characterization of a nematode-specific 24 kDa protein from Ascaris suum.

Author

Islam MK, Miyoshi T, Yokomizo Y, and Tsuji N

Subjects

Amino Acid Sequence, Animals, Antibodies, Helminth, Antigens, Helminth chemistry, Antigens, Helminth genetics, Ascaris suum growth & development, Conserved Sequence, DNA, Complementary analysis, Female, Gene Expression Regulation, Developmental physiology, Male, Mice, Mice, Inbred BALB C, Molecular Sequence Data, Sequence Homology, Amino Acid, Antigens, Helminth analysis, Ascaris suum immunology

Abstract

The cloning and molecular characterization of a cDNA encoding Ascaris suum 24 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 adult A. suum was 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 against Escherichia 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 female A. suum. Endogenous As24 was expressed throughout A. suum development and was detected in the excretory/secretory products by immunoblot analysis. Importantly, a homologous protein(s) was detected in Ascaris from human and Toxocara canis from dog, suggesting that As24 is a nematode-specific protein.

Published

2005

30. Cross-reactions with Ascaris suum antigens of sera from mice infected with A. suum, Toxocara canis, and Angiostrongylus cantonensis.

Author

Fan CK and Su KE

Subjects

Angiostrongylus cantonensis growth & development, Animals, Antibodies, Helminth immunology, Ascaris suum growth & development, Cross Reactions, Enzyme-Linked Immunosorbent Assay, Female, Immunoglobulin G blood, Immunoglobulin G immunology, Mice, Mice, Inbred ICR, Strongylida Infections immunology, Toxocara canis growth & development, Toxocariasis immunology, Angiostrongylus cantonensis immunology, Antibodies, Helminth blood, Antigens, Helminth immunology, Ascaris suum immunology, Larva Migrans, Visceral diagnosis, Toxocara canis immunology

Abstract

Ascaris suum larval excretory-secretory (AsES) antigen and larval (AsLA) as well as adult somatic antigen (AsAA) which were thought to be possibly helpful in the diagnosis of visceral larva migrans (VLM) due to A. suum infection were investigated in the present study. Serum taken from mice orally inoculated with approximately 250 embryonated eggs of A. suum or Toxocara canis, or 40 third-stage larvae of Angiostrongylus cantonensis were assessed by enzyme-linked immunosorbent assay (ELISA) using the AsES antigen, AsLA or AsAA at 1, 2, 3, 4, 6 and 8 weeks post infection (WPI). The titer of serum IgG from mice infected with A. suum increased from 1 WPI and a peak at 4 WPI was observed when it reached approximately three times the level of uninfected control mice. Thereafter, it decreased gradually but remained high as found from 6 to 8 WPI. No cross-reactions of heterologous serum IgG against AsES antigen was observed, whereas heterologous serum IgM exhibited significant cross-reactions to AsES antigen. Cross-reactivities to AsLA and AsAA by heterologous serum IgG as well as IgM antibodies were also observed in the trial. Altogether, the AsES antigen apparently seemed to be superior to the other two somatic antigens when used in the diagnosis of A. suum-induced VLM with serum IgG as tested by ELISA. Moreover, it was the first report to test the possibly antigenic cross-reactivity between A. suum and A. cantonensis.

Published

2004

31. The proteome expression patterns in adult Ascaris suum under exposure to aerobic/anaerobic environments analyzed by two-dimensional electrophoresis.

Author

Islam MK, Miyoshi T, Yokomizo Y, and Tsuji N

Subjects

Aerobiosis, Amino Acid Sequence, Anaerobiosis, Animals, Ascaris suum genetics, Ascaris suum metabolism, Electrophoresis, Gel, Two-Dimensional, Female, Helminth Proteins chemistry, Male, Ascaris suum growth & development, Gene Expression Regulation, Helminth Proteins metabolism, Proteome

Abstract

We investigated the protein expression patterns (the proteome) in adult Ascaris suum under exposure to aerobic and anaerobic environments in vitro using two-dimensional polyacrylamide gel electrophoresis. Adult A. suum were cultured in RPMI-1640 in the absence of oxygen (anaerobic) or in its presence (aerobic), and whole worm extracts and their excretory-secretory (ES) products were prepared for protein analysis. More than 200 protein spots resolved in two-dimensional gels. A comparison of aerobic versus anaerobic cultures revealed two aerobic and three anaerobic specific spots differentially expressed in adult worm extracts. ES products released during aerobic/anaerobic cultures also exhibited one aerobic and seven anaerobic specific spots in two-dimensional maps. One of the anaerobic specific protein spot was analyzed for its internal amino acid sequence (1-LLAFELAPHGIR-12; 1-VNTVNPGAVD-10) and the protein was predicted to be a putative dehydrogenase. These findings suggest that the availability of oxygen or its absence in the environment may influence protein expression patterns in parasitic nematodes.

Published

2004

32. Presence of immunoglobulins and antigens in serum, lung and small intestine in Ascaris suum infected and immunised pigs.

Author

Frontera E, Roepstorff A, Serrano FJ, Gázquez A, Reina D, and Navarrete I

Subjects

Animals, Antibodies, Helminth blood, Antigens, Helminth immunology, Ascariasis blood, Ascariasis parasitology, Ascaris suum immunology, Cell Count veterinary, Enzyme-Linked Immunosorbent Assay veterinary, Immunization veterinary, Immunohistochemistry veterinary, Intestine, Small parasitology, Intestine, Small pathology, Lung parasitology, Lung pathology, Random Allocation, Swine, Swine Diseases blood, Ascariasis immunology, Ascariasis veterinary, Ascaris suum growth & development, Intestine, Small immunology, Lung immunology, Swine Diseases immunology, Swine Diseases parasitology

Abstract

The immunodetection of local Ascaris suum antigens and local and systemic antibodies were analysed in pigs reinfected with eggs or immunized with the 14, 42 and 97 kilodalton (kDa) fractions from A. suum. Twenty-one Iberian pigs were divided in 7 groups of 3 pigs. Groups 1 and 2 were uninfected and challenge control groups, respectively. Groups 3 and 4 were infected weekly with increasing doses of A. suum eggs and Group 4 was additionally treated with pyrantel pamoate. Groups 5, 6 and 7 were immunised with the 14, 42 or 97 kDa fractions from adult worms, respectively. Groups 2-7 were challenged with 10,000 infective eggs. Animals of Groups 3 and 4 showed a pulmonary granulomatous reaction with moderate number of eosinophils and leukocytes, while Groups 5-7 presented higher number of cells, especially in animals immunized with the 42 kDa fraction. These immunized groups presented abundant deposition of Ascaris body fluid (BF) and body wall (BW) antigens as well as the 14 and 42 kDa fractions in the pulmonary and intestinal tissues, while lower deposition of antigens was observed in animals of Groups 3 and 4. The immunized pigs of Groups 5 and 6 showed the highest systemic IgG titres in serum and these antibodies were negatively correlated with the number of larvae recovered in the lungs, suggesting that the IgG response may have a protective function against the ascariosis. The highest concentrations of IgA-bearing cells were observed in animals of Groups 3 and 4 compared to the immunised pigs (Groups 5-7), suggesting that local IgA production may be involved in the protection against migrating larvae. The main localisations of IgA-bearing cells were the bronchial and peribronchial areas of lungs and the lamina propia of duodenum. Low numbers of local IgG-bearing cells were observed in all animals and no IgM-bearing cells were detected in the local tissues.

Published

2004

33. The effect of low temperatures on the development of eggs of Ascaris suum Goeze, 1782.

Author

Dziekońska-Rynko J and Jabłonowski Z

Subjects

Animals, Freezing, Larva growth & development, Parasite Egg Count, Ascaris suum embryology, Ascaris suum growth & development, Cold Temperature, Temperature, Zygote growth & development

Abstract

Eggs of A. suum were kept at -10 and -20 degrees C for 12 weeks and subsequently incubated in a thermostat at 28 degrees C. During the incubation, their development was checked every 5 days. It was found that storage at low temperatures slows down their development and reduces the number of eggs successfully completing their embryogenesis.

Published

2004

34. Activity of hydrolases in the reproductive system and in consecutive stages of Ascaris suum development.

Author

Dziekońska-Rynko J

Subjects

Animals, Ascaris suum growth & development, Female, Hydrolases analysis, Larva enzymology, Parasite Egg Count, Ascaris suum enzymology, Hydrolases metabolism, Ovum enzymology, Urogenital System enzymology, Zygote enzymology

Abstract

The activity of hydrolases in the eggs isolated from the uterus of A. suum is in most cases similar to that in the reproductive system. The activity of hydrolases was low in the stages of cleavage and gastrulation, and it grew until the larva stage.

Published

2004

35. Full scale validation of helminth ova (Ascaris suum) inactivation by different sludge treatment processes.

Author

Paulsrud B, Gjerde B, and Lundar A

Subjects

Animals, Ascaris suum growth & development, Calcium Compounds, Norway, Oxides, Salmonella drug effects, Sewage microbiology, Temperature, Ascaris suum drug effects, Disinfectants pharmacology, Ovum drug effects, Sewage parasitology, Waste Disposal, Fluid methods

Abstract

The Norwegian sewage sludge regulation requires disinfection (hygienisation) of all sludges for land application, and one of the criteria is that disinfected sludge should not contain viable helminth ova. All disinfection processes have to be designed and operated in order to comply with this criterion, and four processes employed in Norway (thermophilic aerobic pre-treatment, pre-pasteurisation, thermal vacuum drying in membrane filter presses and lime treatment) have been tested in full scale by inserting semipermeable bags of Ascaris suum eggs into the processes for certain times. For lime treatment supplementary laboratory tests have been conducted. The paper presents the results of the experiments, and it could be concluded that all processes, except lime treatment, could be operated at less stringent time-temperature regimes than commonly experienced at Norwegian plants today.

Published

2004

36. A comparison of the susceptibility of growing mukota and large white pigs to infection with Ascaris suum.

Author

Zanga J, Chimonyo M, Kanengoni A, Dzama K, and Mukaratirwa S

Subjects

Alanine Transaminase blood, Alkaline Phosphatase blood, Animals, Ascariasis enzymology, Ascariasis parasitology, Aspartate Aminotransferases blood, Disease Susceptibility, Erythrocyte Count veterinary, Hematocrit veterinary, Hemoglobins metabolism, Liver enzymology, Swine, Swine Diseases blood, Swine Diseases enzymology, Weight Gain, Zimbabwe, Ascariasis veterinary, Ascaris suum growth & development, Swine Diseases parasitology

Abstract

The influence of A. suum infection on the haematology, liver-related serum enzymes, blood urea and live weight gain in Mukota and Large White (LW) weaner pigs was compared. Six pigs of each genotype were infected with a single dose of 4000 A. suum eggs per pig and another six were not. The pigs were kept for 100 days. Blood was collected daily for the first 7 days and also after 100 days. In the infected pigs, there was an increase (p<0.05) in alanine aminotransferase (ALT) activity in the LW but not in the Mukota pigs. Although the alkaline phosphatase (ALP) activity rose (p<0.05) in both infected and non-infected LW pigs from day 1 to day 3, the activity in the non-infected LW pigs then decreased, while that of the infected LW pigs remained elevated. The infected LW pigs had higher (p<0.05) levels of ALT, ALP and aspartate aminotransferase than their non-infected counterparts. Non-infected LW pigs tended to have higher (p<0.05) haematological parameters, daily weight gain and urea concentrations than infected LW pigs, but these differences were not significant. These preliminary findings suggest that more A. suum larvae reached the livers in the LW than in the Mukota pigs and that the latter may be more resistant to A. suum infection.

Published

2003

37. Parasite mitochondria as drug target: diversity and dynamic changes during the life cycle.

Author

Kita K, Nihei C, and Tomitsuka E

Subjects

Amino Acid Sequence, Animals, Ascaris suum growth & development, Ascaris suum metabolism, Energy Metabolism, Humans, Life Cycle Stages, Molecular Sequence Data, Multienzyme Complexes metabolism, Oxidoreductases chemistry, Oxidoreductases genetics, Oxidoreductases metabolism, Sequence Alignment, Sesquiterpenes chemistry, Sesquiterpenes pharmacology, Trypanosoma brucei brucei enzymology, Antiparasitic Agents pharmacology, Enzyme Inhibitors pharmacology, Mitochondria enzymology, Multienzyme Complexes antagonists & inhibitors, Oxidoreductases antagonists & inhibitors

Abstract

Parasites have developed a wide variety of physiological functions to survive within the specialized environments of the host. Regarding energy metabolism, which represents an essential factor for survival, parasites adapt low oxygen tension in host mammals using metabolic systems that differ substantially from those of the host. Most parasites do not use free oxygen available within the host, but employ systems other than oxidative phosphorylation for ATP synthesis. Furthermore, parasites display marked changes in mitochondrial morphology and components during the life cycle, and these represent very interesting elements of biological processes such as developmental control and environmental adaptation. The enzymes in parasite-specific pathways offer potential targets for chemotherapy. Cyanide-insensitive trypanosome alternative oxidase (TAO) is the terminal oxidase of the respiratory chain of long slender bloodstream forms of the African trypanosome, which causes sleeping sickness. Recently, the most potent inhibitor of TAO to date, ascofuranone, was isolated from the phytopathogenic fungus, Ascochyta visiae. The inhibitory mechanisms of ascofuranone have been revealed using recombinant enzyme. Parasite-specific respiratory systems are also found in helminths. The NADH-fumarate reductase system in mitochondria form a final step in the phosphoenolpyruvate carboxykinase (PEPCK)-succinate pathway, which plays an important role in anaerobic energy metabolism for the Ascaris suum adult. Enzymes in this system, such as NADH-rhodoquinone reductase (complex I) and rhodoquinol-fumarate reductase (complex II), form promising targets for chemotherapy. In fact, a specific inhibitor of nematode complex I, nafuredin, has been found in mass-screening using parasite mitochondria.

Published

2003

38. Inorganic pyrophosphatase in the roundworm Ascaris and its role in the development and molting process of the larval stage parasites.

Author

Islam MK, Miyoshi T, Kasuga-Aoki H, Isobe T, Arakawa T, Matsumoto Y, and Tsuji N

Subjects

Amino Acid Sequence, Animals, Ascaris suum cytology, Child, Enzyme Inhibitors metabolism, Female, Humans, Immunohistochemistry, Molecular Sequence Data, Phylogeny, Pyrophosphatases antagonists & inhibitors, Pyrophosphatases classification, Pyrophosphatases genetics, Recombinant Proteins genetics, Recombinant Proteins metabolism, Sequence Alignment, Sodium Fluoride metabolism, Ascaris suum enzymology, Ascaris suum growth & development, Molting physiology, Pyrophosphatases metabolism

Abstract

Inorganic pyrophosphatase (PPase) is an important enzyme that catalyzes the hydrolysis of inorganic pyrophosphate (PPi) into ortho-phosphate (Pi). We report here the molecular cloning and characterization of a gene encoding the soluble PPase of the roundworm Ascaris suum. The predicted A. suum PPase consists of 360 amino acids with a molecular mass of 40.6 kDa and a pI of 7.1. Amino acid sequence alignment and phylogenetic analysis indicates that the gene encodes a functional Family I soluble PPase containing features identical to those of prokaryotic, plant and animal/fungal soluble PPases. The Escherichia coli-expressed recombinant enzyme has a specific activity of 937 micro mol Pi.min-1.mg-1 protein corresponding to a kcat value of 638 s-1 at 55 degrees C. Its activity was strongly dependent on Mg2+ and was inhibited by Ca2+. Native PPases were expressed in all developmental stages of A. suum. A homolog was also detected in the most closely related human and dog roundworms A. lumbricoides and Toxocara canis, respectively. The enzyme was intensely localized in the body wall, gut epithelium, ovary and uterus of adult female worms. We observed that native PPase activity together with development and molting in vitro of A. suum L3 to L4 were efficiently inhibited in a dose-dependent manner by imidodiphosphate and sodium fluoride, which are potent inhibitor of both soluble- and membrane-bound H+-PPases. The studies provide evidence that the PPases are novel enzymes in the roundworm Ascaris, and may have crucial role in the development and molting process.

Published

2003

39. Ascaris suum: cDNA microarray analysis of 4th stage larvae (L4) during self-cure from the intestine.

Author

Morimoto M, Zarlenga D, Beard H, Alkharouf N, Matthews BF, and Urban JF Jr

Subjects

Animals, Ascariasis parasitology, Ascaris suum growth & development, Ascaris suum immunology, Female, Gene Expression Regulation, Ileum parasitology, Intestinal Diseases, Parasitic parasitology, Jejunum parasitology, Larva genetics, Larva growth & development, Larva immunology, Male, RNA, Messenger metabolism, Swine, Ascariasis veterinary, Ascaris suum genetics, Intestinal Diseases, Parasitic veterinary, Oligonucleotide Array Sequence Analysis veterinary, Swine Diseases parasitology

Abstract

There is spontaneous cure of a large portion of Ascaris suum 4th-stage larvae (L4) from the jejunum of infected pigs between 14 and 21 days after inoculation (DAI). Those L4 that remain in the jejunum continue to develop while those that have moved to the ileum are eventually expelled from the intestines. Although increases in intestinal mucosal mast cells and changes in local host immunity are coincidental with spontaneous cure, the population of L4 that continue to develop in the jejunum may counteract host protective mechanisms by the differential production of factors related to parasitism. To this end, a cDNA library was constructed from L4 isolated from pig jejunum at 21 DAI, and 93% of 1920 original clones containing a single amplicon in the range 400-1500 bp were verified by gel electrophoresis and printed onto glass slides for microarray analysis. Fluorescent probes were prepared from total RNA isolated from: (1) 3rd stage-larvae from lung at 7 DAI, (L3); (2) L4 from jejunum at 14 DAI (L4-14-J); (3) L4 from jejunum at 21 DAI (L4-21-J); (4) L4 from ileum at 21 DAI (L4-21-I, and; (5) adults (L5). Cy3-labeled L3, L4-14-J, L4-21-I and L5 cDNA, and Cy5-labeled L4-21-J cDNA were simultaneously used to screen the printed arrays containing the L4-21-J-derived cDNA library. Several clones showed consistent differential gene expression over two separate experiments and were grouped into 3 distinct transcription patterns. The data showed that sequences from muscle actin and myosin, ribosomal protein L11, glyceraldehyde-3-phosphate dehydrogenase and the flavoprotein subunit of succinate dehydrogenase were highly expressed in L4-21-J, but not in L4-21-I; as were a collection of un-annotated genes derived from a worm body wall-hypodermis library, and a testes germinal zone tissue library. These results suggest that only actively developing A. suum L4 are destined to parasitize the host and successfully neutralize host protective responses.

Published

2003

40. Isolation and characterization of the stage-specific cytochrome b small subunit (CybS) of Ascaris suum complex II from the aerobic respiratory chain of larval mitochondria.

Author

Amino H, Osanai A, Miyadera H, Shinjyo N, Tomitsuka E, Taka H, Mineki R, Murayama K, Takamiya S, Aoki T, Miyoshi H, Sakamoto K, Kojima S, and Kita K

Subjects

Aerobiosis, Amino Acid Sequence, Animals, Ascaris suum cytology, Cloning, Molecular, Cytochrome b Group genetics, Cytochrome b Group isolation & purification, Electron Transport, Kinetics, Larva enzymology, Molecular Sequence Data, Multienzyme Complexes metabolism, Peptide Mapping, Phylogeny, Sequence Alignment, Species Specificity, Ascaris suum enzymology, Ascaris suum growth & development, Cytochrome b Group chemistry, Cytochrome b Group metabolism, Mitochondria enzymology

Abstract

We recently reported that Ascaris suum mitochondria express stage-specific isoforms of complex II: the flavoprotein subunit and the small subunit of cytochrome b (CybS) of the larval complex II differ from those of adult enzyme, while two complex IIs share a common iron-sulfur cluster subunit (Ip). In the present study, A. suum larval complex II was highly purified to characterize the larval cytochrome b subunits in more detail. Peptide mass fingerprinting and N-terminal amino acid sequencing showed that the larval and adult cytochrome b (CybL) proteins are identical. In contrast, cDNA sequences revealed that the small subunit of larval cytochrome b (CybS(L)) is distinct from the adult CybS (CybS(A)). Furthermore, Northern analysis and immunoblotting showed stage-specific expression of CybS(L) and CybS(A) in larval and adult mitochondria, respectively. Enzymatic assays revealed that the ratio of rhodoquinol-fumarate reductase (RQFR) to succinate-ubiquinone reductase (SQR) activities and the K(m) values for quinones are almost identical for the adult and larval complex IIs, but that the fumarate reductase (FRD) activity is higher for the adult form than for the larval form. These results indicate that the adult and larval A. suum complex IIs have different properties than the complex II of the mammalian host and that the larval complex II is able to function as a RQFR. Such RQFR activity of the larval complex II would be essential for rapid adaptation to the dramatic change of oxygen availability during infection of the host.

Published

2003

41. Secretion of a novel developmentally regulated chitinase (family 19 glycosyl hydrolase) into the perivitelline fluid of the parasitic nematode, Ascaris suum.

Author

Geng J, Plenefisch J, Komuniecki PR, and Komuniecki R

Subjects

Amino Acid Sequence, Animals, Ascaris suum genetics, Ascaris suum growth & development, Caenorhabditis elegans enzymology, Caenorhabditis elegans genetics, Chitinases chemistry, Chitinases genetics, Cloning, Molecular, Helminth Proteins chemistry, Helminth Proteins genetics, Molecular Sequence Data, Recombinant Proteins genetics, Recombinant Proteins metabolism, Sequence Analysis, DNA, Ascaris suum enzymology, Chitinases metabolism, Gene Expression Regulation, Developmental, Helminth Proteins metabolism, Vitelline Membrane metabolism

Abstract

The early development of the parasitic nematode, Ascaris suum, occurs within a chitinous eggshell and an abundant chitinase (As-p50) has been identified in the perivitelline fluid (PVF) surrounding the infective larva prior to hatching. A cDNA encoding As-p50 was cloned, sequenced and the protein expressed in Escherichia coli. As-p50 is a member of glycosyl hydrolase family 19, previously identified only in plants, making the characterization of As-p50 the first family 19 glycosyl hydrolase from any animal species. As expected, the chitinase activity of recombinant As-p50 or isolated PVF was insensitive to allosamidin. As-p50 expression was developmentally regulated. As-p50 mRNA appeared between days 5 and 8 of development prior to the formation of the first-stage larva (L1). The As-p50 protein and chitinase activity appeared later between days 8 and 15 and remained at constant levels until hatching. GFP-promoter constructs of C08B6.4, the most closely related Caenorhabditis elegans As-p50 homologue, were expressed in hypodermal cells of 3-fold stage larvae and L1s with a timing similar to that of As-p50 and the fusion protein was secreted into the space between the hypodermis and the cuticle. Taken together, these results suggest that As-p50 is involved in the formation of the L1 cuticle and/or the initial molt; however, As-p50 may be multifunctional and also responsible for the digestion of the eggshell during hatching.

Published

2002

42. Alternative migration routes of Ascaris suum in the pig.

Author

Boes J, Slotved HC, Murrell KD, Eriksen L, Roepstorff A, Nansen P, and Agergaard N

Subjects

Animals, Ascariasis parasitology, Ascaris suum growth & development, Intestine, Small parasitology, Larva growth & development, Larva physiology, Liver parasitology, Lung parasitology, Swine parasitology, Ascariasis veterinary, Ascaris suum physiology, Swine Diseases parasitology

Abstract

Experiments were conducted to investigate possible alternative routes of extraintestinal migration of Ascaris suum larvae in the pig. Pigs were infected with A. suum via injection of newly hatched larvae into cecal veins (i.v.), into cecal lymph nodes (LN), or intraperitoneally (i.p.), and control animals were inoculated orally with infective eggs (p.o.). Two pigs per inoculation route were necropsied on days 1, 4, and 13 postinoculation. The numbers of liver lesions and the percentage of larvae recovered was considerably greater in pigs inoculated i.v. or p.o. on each necropsy day. However, irrespective of inoculation route, at least a proportion of larvae passed through the livers and were able to complete migration to the small intestine by day 13. The results indicate that larval penetration of the intestinal wall is not necessary for liver-lung migration and that passage through the liver may be favorable for migrating A. suum larvae, although a delayed arrival in the small intestine cannot be ruled out for larvae following alternative routes.

Published

2002

43. Electron-transfer complexes in Ascaris mitochondria.

Author

Kita K and Takamiya S

Subjects

Anaerobiosis physiology, Animals, Ascaris suum growth & development, Ascaris suum physiology, DNA, Mitochondrial genetics, DNA, Mitochondrial metabolism, Electron Transport genetics, Electron Transport physiology, Evolution, Molecular, Fatty Acid Desaturases metabolism, Life Cycle Stages physiology, Models, Biological, Models, Molecular, Oxidoreductases metabolism, Phosphoenolpyruvate Carboxykinase (ATP) metabolism, Succinic Acid metabolism, Ubiquinone physiology, Ascaris suum metabolism, Mitochondria metabolism, Oxidoreductases Acting on CH-CH Group Donors, Ubiquinone analogs & derivatives

Abstract

Parasites have developed a variety of physiological functions necessary for their survival within the specialized environment of the host. Using metabolic systems that are very different from those of the host, they can adapt to low oxygen tension present within the host animals. Most parasites do not use the oxygen available within the host to generate ATP, but rather employ anaerobic metabolic pathways. In addition, all parasites have a life cycle. In many cases, the parasite employs aerobic metabolism during its free-living stage outside the host. In such systems, parasite mitochondria play diverse roles. In particular, marked changes in the morphology and components of the mitochondria during the life cycle are very interesting elements of biological processes such as developmental control and environmental adaptation. Recent research on the respiratory chain of the parasitic helminth Ascaris suum has shown that the mitochondrial NADH-fumarate reductase system plays an important role in the anaerobic energy metabolism of adult parasites inhabiting hosts, as well as describing unique features of the developmental changes that occur during its life cycle.

Published

2002

44. Inactivation of viable Ascaris eggs by reagents during enumeration.

Author

Nelson KL and Darby JL

Subjects

Animals, Ascaris suum growth & development, Water Pollution, Ascaris suum isolation & purification, Ovum growth & development, Parasite Egg Count methods, Sewage parasitology

Abstract

Various reagents commonly used to enumerate viable helminth eggs from wastewater and sludge were evaluated for their potential to inactivate Ascaris eggs under typical laboratory conditions. Two methods were used to enumerate indigenous Ascaris eggs from sludge samples. All steps in the methods were the same except that in method I a phase extraction step with acid-alcohol (35% ethanol in 0.1 N H(2)SO(4)) and diethyl ether was used whereas in method II the extraction step was avoided by pouring the sample through a 38-microm-mesh stainless steel sieve that retained the eggs. The concentration of eggs and their viability were lower in the samples processed by method I than in the samples processed by method II by an average of 48 and 70%, respectively. A second set of experiments was performed using pure solutions of Ascaris suum eggs to elucidate the effect of the individual reagents and relevant combination of reagents on the eggs. The percentages of viable eggs in samples treated with acid-alcohol alone and in combination with diethyl ether or ethyl acetate were 52, 27, and 4%, respectively, whereas in the rest of the samples the viability was about 80%. Neither the acid nor the diethyl ether alone caused any decrease in egg viability. Thus, the observed inactivation was attributed primarily to the 35% ethanol content of the acid-alcohol solution. Inactivation of the eggs was prevented by limiting the direct exposure to the extraction reagents to 30 min and diluting the residual concentration of acid-alcohol in the sample by a factor of 100 before incubation. Also, the viability of the eggs was maintained if the acid-alcohol solution was replaced with an acetoacetic buffer. None of the reagents used for the flotation step of the sample cleaning procedure (ZnSO(4), MgSO(4), and NaCl) or during incubation (0.1 N H(2)SO(4) and 0.5% formalin) inactivated the Ascaris eggs under the conditions studied.

Published

2001

45. Ecological influences on transmission rates of Ascaris suum to pigs on pastures.

Author

Roepstorff A, Murrell KD, Boes J, and Petkevicius S

Subjects

Animals, Ascariasis transmission, Disease Reservoirs veterinary, Ecology, Feces parasitology, Female, Housing, Animal, Larva growth & development, Male, Parasite Egg Count veterinary, Random Allocation, Seasons, Soil parasitology, Specific Pathogen-Free Organisms, Swine, Swine Diseases parasitology, Ascariasis veterinary, Ascaris suum growth & development, Swine Diseases transmission

Abstract

A study was conducted to determine the distribution and transmission rate of Ascaris suum eggs and Oesophagostomum dentatum larvae in a pasture/pig house facility, which during the preceding summer was contaminated with helminth eggs by infected pigs. In May, four groups of 10 helminth naïve tracer pigs were exposed to fenced sections of the facility for 7 days and necropsied for parasite recovery 9-10 days later (trial 1). The highest rate of A. suum transmission (201 eggs per day) occurred in the pig house (A). On the pasture, egg transmission decreased with the distance from the house: 8 eggs per day in the feeding/dunging area (B); 1 egg per day on the nearest pasture (C); <1 egg per day on the distant pasture (D). Only a few O. dentatum infections were detected, indicating a poor ability of the infective larvae to overwinter. Soil analyses revealed that the highest percentage (5.8%) of embryonated A. suum eggs were in the house (A). Subsequently, the facility was recontaminated with A. suum eggs by infected pigs. A replicate trial 2 was conducted in the following May. A major finding was the complete reversal of egg distribution between the 2 years (trials 1 and 2). In contrast to previous results, the highest rates of transmission (569 and 480 eggs per day) occurred in pasture sections C and D, and the lowest transmission rates (192 and 64 eggs per day) were associated with the feeding/dunging sections and the house (B and A). Soil analyses again supported the tracer pig results, as the pasture sections had the highest concentrations of embryonated eggs. Detailed soil analysis also revealed a non-random, aggregated egg distribution pattern. The different results of the two trials may be due to the seasonal timing of egg deposition and tracer pig exposure. Many eggs deposited during the summer prior to trial 1 may have died rapidly due to high temperatures and dessication, especially when they were not protected by the house, while deposition in the autumn may have favored egg survival through lower temperatures, more moisture, and greater sequestration of eggs in the soil by rain and earthworms. The latter eggs may, however, not have become embryonated until turnout the next year. The results demonstrate that yearly rotations may not be sufficient in the control of parasites with long-lived eggs, such as A. suum, and that a pasture rotation scheme must include all areas, including housing.

Published

2001

46. Cuticular collagen synthesis by Ascaris suum during development from the third to fourth larval stage: identification of a potential chemotherapeutic agent with a novel mechanism of action.

Author

Rhoads ML, Fetterer RH, and Urban JF Jr

Subjects

Amino Acid Sequence, Animals, Ascariasis drug therapy, Ascaris suum growth & development, Collagen analysis, Collagenases chemistry, Cysteine Proteinase Inhibitors metabolism, Dipeptides metabolism, Electrophoresis, Polyacrylamide Gel, Helminth Proteins biosynthesis, Helminth Proteins metabolism, Ketones metabolism, Molecular Sequence Data, Sequence Analysis, Protein, Swine, Ascariasis veterinary, Ascaris suum metabolism, Collagen biosynthesis, Cysteine Proteinase Inhibitors pharmacology, Dipeptides pharmacology, Ketones pharmacology, Swine Diseases parasitology

Abstract

The dominant proteins released by Ascaris suum during development in vitro from the L3 to L4 stage were identified as collagenous cuticular proteins by sequence analysis and susceptibility to digestion by collagenase. Under reducing sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), the collagen proteins separated into 3 groups with molecular weights estimated at 32 kDa, 54-60 kDa, and 71-91 kDa. The 32-kDa protein represents monomeric collagen; the 54-60- and 71-91-kDa components represent dimeric and trimeric forms, respectively, polymerized by nonreducible cross-links. Furthermore, the release of these forms of collagen was developmentally regulated, as exemplified by a sequential temporal progression from monomeric to dimeric to trimeric forms in association with the in vitro transition from L3 to L4. The data suggest that collagen released in vitro during development of A. suum L3 to L4 reflects the increased translation of collagen gene products and their initial assembly into higher molecular weight molecules associated with the synthesis of the L4 cuticle. A biotinylated dipeptidyl fluoromethylketone cysteine protease inhibitor (Bio-phe-ala-FMK) bound specifically to the 32-kDa collagen and, to a lesser extent, to a 30-kDa protein; binding was dependent on the presence of dithiothreitol (DTT) and was prevented by iodoacetamide. Because cysteine residues play an essential role in the initial assembly of the collagen monomers into the higher molecular weight oligomers present in the mature nematode cuticle, inhibition of molting of A. suum L3 to L4 by the cysteine protease inhibitor Z-phe-ala-FMK might be due to its binding to thiol groups of collagen monomers during a critical phase of collagen assembly. Prevention of cystine cross-links during this critical period of cuticle assembly by peptide-FMK inhibitors may represent a potential control mechanism having a novel mechanism of action.

Published

2001

47. Release of hyaluronidase during in vitro development of Ascaris suum from the third to fourth larval stage.

Author

Rhoads ML, Fetterer RH, and Urban JF Jr

Subjects

Animals, Culture Media, Larva enzymology, Larva growth & development, Ascaris suum enzymology, Ascaris suum growth & development, Hyaluronoglucosaminidase metabolism

Abstract

An enzyme that degraded glycosaminoglycan hyaluronic acid was released during in vitro development of Ascaris suum L3 to L4. The enzyme did not hydrolyze glycosaminoglycan chondroitin sulfate A. One molecular form of hyaluronidase was detected, with a molecular weight estimated at 47.8 +/- 8.6 kDa by sucrose density gradient centrifugation and at 55.0 +/- 1.3 kDa by substrate SDS-PAGE zymography. Activity of the enzyme was optimal between pH 5.0 and 6.0, and was present at neutral pH. Hyaluronidase activity was not affected by 5 mM concentrations of cupric sulfate, zinc chloride, calcium chloride, manganese chloride or EDTA. In addition, NaCl had no effect on enzyme activity at concentrations of 0.2-1.0 M. The highest level of hyaluronidase was present in culture fluid collected between days 4 and 6 of in vitro culture, and this period corresponded with that of the highest rate of increase in the percentage of L4. The presence or absence of hyaluronic acid plays a key role in basic developmental processes of vertebrates and is regulated, in part, by hyaluronidases. Developmental processes occurring during the transition of A. suum L3 to L4 may likewise depend on hyaluronidase. In addition, the infection process of a number of organisms, including some nematodes, depends on hyaluronidase. A. suum may likewise utilize hyaluronidase to facilitate larval migration within the host.

Published

2001

48. Resistance against migrating ascaris suum larvae in pigs immunized with infective eggs or adult worm antigens.

Author

Serrano FJ, Reina D, Frontera E, Roepstorff A, and Navarrete

Subjects

Age Factors, Animals, Antinematodal Agents pharmacology, Ascariasis immunology, Ascariasis prevention & control, Ascaris suum growth & development, Female, Liver parasitology, Lung parasitology, Pyrantel Pamoate pharmacology, Random Allocation, Statistics, Nonparametric, Swine Diseases parasitology, Swine Diseases prevention & control, Antigens, Helminth immunology, Ascariasis veterinary, Ascaris suum immunology, Immunization veterinary, Ovum immunology, Swine Diseases immunology

Abstract

Resistance to Ascaris suum infections was investigated in 8- and 15-week-old Iberian pigs. Groups of 3 or 5 pigs were immunized weekly for 6 weeks with antigens of adult A. suum: a 97 kDa body wall (BW) fraction, a 42 kDa fraction of pseudocoelomic fluid (PF) or a 14 kDa PF-fraction; or were inoculated with increasing doses of infective eggs (500-20,000), with or without abbreviation by pyrantel pamoate. All immunized pigs and unimmunized control pigs, were challenged with 10,000 infective eggs 7 days after the last immunization. The number of liver lesions and lung larvae was substantially lower in the older pigs than in the younger ones 7 days after challenge, but the resistance in immunized pigs of both age groups was similar in comparison to the challenge controls of the same age. The highest degree of resistance against lung larvae was observed in pigs immunized with A. suum eggs (97-99%). The pigs immunized with the 14 kDa and 42 kDa PF-fractions were also well protected (67-93%), while no protection was produced by the 97 kDa BW fraction (0-49%). The reduction of white spots following immunization was less evident, with a maximum of 82% reduction in egg-inoculated young pigs.

Published

2001

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

Author

Kasug-Aoki H, Tsuji N, Suzuki K, Arakawa T, Matsumoto Y, and Isobe T

Subjects

Animals, Ascariasis blood, Ascariasis immunology, Ascariasis parasitology, Ascaris suum immunology, Blotting, Western veterinary, Electrophoresis, Polyacrylamide Gel veterinary, Female, Isoelectric Focusing veterinary, Male, Specific Pathogen-Free Organisms, Swine, Swine Diseases blood, Swine Diseases immunology, Antigens, Helminth analysis, Ascariasis veterinary, Ascaris suum growth & development, Swine Diseases parasitology

Abstract

Antigens were identified from the third-stage larvae (L3) and lung-stage larvae of Ascaris suum by two-dimensional immunoblot method with antisera obtained from pigs that received chemically abbreviated Ascaris suum larval infections. Forty-seven and 13 spots were recognized as antigens from the L3 and lung-stage larvae, respectively. Their apparent molecular weight ranged from 20 to 101 kDa and their isoelectric point from 3.6 to 8.0. The present study provides a framework for further molecular cloning of those antigens and consequently leads to the development of recombinant peptide vaccines against A. suum.

Published

2001

50. The effect of Ascaris trypsin inhibitor on proteolytic activity of lungs and kidneys of guinea pig with larval ascariosis and after ascarid homogenate administration.

Author

Wójcik A and Kadłubowski R

Subjects

Animals, Ascariasis parasitology, Ascaris suum growth & development, Endopeptidases metabolism, Guinea Pigs, In Vitro Techniques, Larva growth & development, Lung drug effects, Male, Ascariasis enzymology, Endopeptidases drug effects, Helminth Proteins pharmacology, Kidney enzymology, Lung enzymology

Abstract

Trypsin inhibitor, isolated from Ascaris suum tegument reduces in vitro proteolytic activity (pH 7) of lungs and kidneys post-nuclear fractions of guinea pigs with larval ascariosis, pigs after subcutaneous ascarid homogenate administration as well as the activity in control groups. The comparative analysis of effect curves of trypsin inhibitor on the organ proteases revealed stronger reduction of the activity of post-nuclear lung proteases in ascariosis and of kidneys proteases after the injection of Ascaris homogenate than the inhibition of the fractions activity from respective control groups.

Published

2001