Fasciola hepatica: influence of extrahepatic adult flukes on infections and immunity in rats

Surgical transfer of adult Fasciola hepatica from sheep, goats, and cattle to subcutis of rats 4 wk before infection with metacercariae resulted in a 50% decrease in infection rate as compared to nonoperated controls.Infection was established in 25 out of 77 rats with F. hepatica implants, while 54 out of 79 were infected in the control group. The protective effect of the fluke implantation is discussed. It is suggested that production of protective antibodies is stimulated by the undamaged living flukes, although the antigen itself has not been demonstrated.     

Fasciola hepatica: role of developmental stages in the rat's resistance to challenge

Rats were sensitized by subcutaneous implantation of either metacercariae, 4 week-old juveniles, adult worms, or eggs of Fasciola hepatica and then challenged with 30 metacercariae 2 weeks later. Worm burdens were determined 8 weeks after challenge. Apart from adult worms, all implanted stages conferred a significant degree of protection on the recipients. The effectiveness of adult worm implants was not improved by using worms from different sources (sheep and cattle rather than rats) nor by extending the period of sensitization prior to challenge.     

Evidence for two distinct mechanisms of resistance in the rat to reinfection with Fasciola hepatica

Doy T. G. and Hughes D. L. 1982. Evidence for two distinct mechanisms of resistance in the rat to reinfection with Fasciola hepatica. International Journal for Parasitology12: 357–361. Congenitally athymic nude (rnu/rnu) and heterozygous hairy (rnu/ + ) rats were found to be equally highly resistant to oral reinfection with Fasciola hepatica. Accompanying the development of this resistance was a marked increase in intestinal eosinophil numbers. The sensitised rnu/ + rats showed a similar marked resistance to intraperitoneal challenge with newly excysted juvenile (NEJ) flukes. This was much less effective in the rnu/rnu rats, although there was some evidence of reduced numbers and stunting of parasites. Serum from infected rnu/rnu rats, unlike that from the infected rnu/+ rats, failed to induce the adherence of eosinophils to NEJ flukes in vitro. Flukes recovered from rnu/rnu rats were in general considerably larger than comparable flukes from their rnu/ + counterparts.There thus appears to be two distinct mechanisms of resistance to reinfection with F. hepatica operating in the rat. The first a T-independent system effective at the gut wall and the second, effective after penetration of the gut and requiring a T-dependent response for full expression. If eosinophils are involved in protection they can apparently function in the gut wall in the absence of an adherence promoting antibody in the serum.     

Novel methods for the molecular discrimination of Fasciola spp. on the basis of nuclear protein-coding genes

Fasciolosis is an economically important disease of livestock caused by Fasciola hepatica, Fasciola gigantica, and aspermic Fasciola flukes. The aspermic Fasciola flukes have been discriminated morphologically from the two other species by the absence of sperm in their seminal vesicles. To date, the molecular discrimination of F. hepatica and F. gigantica has relied on the nucleotide sequences of the internal transcribed spacer 1 (ITS1) region. However, ITS1 genotypes of aspermic Fasciola flukes cannot be clearly differentiated from those of F. hepatica and F. gigantica. Therefore, more precise and robust methods are required to discriminate Fasciola spp. In this study, we developed PCR restriction fragment length polymorphism and multiplex PCR methods to discriminate F. hepatica, F. gigantica, and aspermic Fasciola flukes on the basis of the nuclear protein-coding genes, phosphoenolpyruvate carboxykinase and DNA polymerase delta, which are single locus genes in most eukaryotes. All aspermic Fasciola flukes used in this study had mixed fragment pattern of F. hepatica and F. gigantica for both of these genes, suggesting that the flukes are descended through hybridization between the two species. These molecular methods will facilitate the identification of F. hepatica, F. gigantica, and aspermic Fasciola flukes, and will also prove useful in etiological studies of fasciolosis.     

Genetic diversity of Fasciola hepatica in Spain and Peru

In the present study, molecular characterization of Fasciola flukes from Spain was performed to reveal the relation with the previously reported Peruvian F. hepatica population. The nuclear DNA markers, phosphoenolpyruvate carboxykinase (pepck) and DNA polymerase delta (pold), were used for species identification of Fasciola flukes. A total of 196 Fasciola flukes were identified as F. hepatica by pepck and pold, and 26 haplotypes were detected in mitochondrial NADH dehydrogenase subunit 1 (nad1). Only one of them was previously found in Spanish samples; which indicates the existence of high genetic diversity and population structure in F. hepatica from Spain. Three haplotypes were identical to those from Peruvian F. hepatica. The pairwise fixation index value confirmed a relatively close relationship between the Spanish and Peruvian F. hepatica samples. The Spanish samples showed clearly higher genetic variability than the Peruvian population. These results are discussed in relation with the hypothesis of the introduction of the parasite in America from Europe and recent evidence of pre-Hispanic F. hepatica from Argentina revealed by ancient DNA.     

Substantial genetic divergence between morphologically indistinguishable populations of Fasciola suggests the possibility of cryptic speciation

The liver flukes, Fasciola hepatica and Fasciola gigantica, are considered to be sister species and between them present a major threat worldwide to livestock production. In this study sequence data have been employed from informative regions of the nuclear and mitochondrial genomes of over 200 morphologically F. hepatica-like or F. gigantica-like flukes from Europe, sub-Saharan Africa and South Asia to assess genetic diversity. Evidence is presented for the existence of four well-separated clades: African gigantica-like flukes, Indian gigantica-like flukes, European hepatica-like flukes and African high-altitude hepatica-like flukes. Application of the Biological Species Concept to trematodes is problematic; however, the degree of separation between these groups was sufficient for them to be considered as distinct species using the four times rule for speciation.     

Fasciola hepatica: An immunofluorescent study of antigenic changes in the tegument during development in the rat and the sheep

Serum from sheep was collected throughout a 30-week period of infection with Fasciola hepatica and specificity for the tissues of flukes of various ages was tested by an indirect fluorescent antibody labeling technique, using as antigen JB4 plastic-embedded sections of flukes up to 30-weeks old grown in rats. Quantitative estimates of host antibody concentration and fluke tissue antigenicity were determined by titration using serially diluted serum. Serum from early infections (pre-7 weeks) gave strong labeling over the tegument of young flukes, but the reaction became progressively weaker with older fluke tissue. This was associated with a decline in the number of T1 bodies in the tegument as revealed by electron microscopy. T1 bodies contain glycocalyx precursor substances and during development they replace the antigenically similar T0 secretory bodies characteristic of early juvenile flukes. Glycocalyx turnover may help protect the pre-bile duct flukes against immunological attack. Serum from sheep with F. hepatica infections older than 7 weeks gave moderate reaction with T2 bodies which accumulated in the tegument during the early stages of infection but only expressed their antigens on the surface about the time of entry into the host's bile ducts. The antigenicity of the gut and excretory system of flukes seemed to remain unchanged throughout adult life. Levels of host antibody specific for juvenile tegument, gut, and excretory system peaked at 3–5 weeks postinfection, and declined once the flukes entered the bile ducts. Anti-T2 antibody appeared 6 weeks postinfection and began to decline 5–6 weeks later.     

Molecular characterization and phylogenetic analysis of Fasciola hepatica from Peru

The causative agent of fasciolosis in South America is thought to be Fasciola hepatica. In this study, Fasciola flukes from Peru were analyzed to investigate their genetic structure and phylogenetic relationships with those from other countries. Fasciola flukes were collected from the three definitive host species: cattle, sheep, and pigs. They were identified as F. hepatica because mature sperms were observed in their seminal vesicles, and also they displayed Fh type, which has an identical fragment pattern to F. hepatica in the nuclear internal transcribed spacer 1. Eight haplotypes were obtained from the mitochondrial NADH dehydrogenase subunit 1 (nad1) sequences of Peruvian F. hepatica; however, no special difference in genetic structure was observed between the three host species. Its extremely low genetic diversity suggests that the Peruvian population was introduced from other regions. Nad1 haplotypes identical to those of Peruvian F. hepatica were detected in China, Uruguay, Italy, Iran, and Australia. Our results indicate that F. hepatica rapidly expanded its range due to human migration. Future studies are required to elucidate dispersal route of F. hepatica from Europe, its probable origin, to other areas, including Peru.     

Molecular characterization of Fasciola flukes using mitochondrial 28S rRNA gene in Naimi Saudi sheep

Fasciolosis is a parasitic disease of medical and economic importance. This retrospective study was conducted on 110 Fasciola flukes collected from livers of 14 infected Naimi sheep slaughtered at Riyadh abattoir in Saudi Arabia during winter season of 2016. Collected specimens were analyzed for their species identification on the basis of partial sequences of mitochondrial 28S rRNA gene. Results have shown the presence of both Fasciola hepatica (F. hepatica) and Fasciola gigantica (F. gigantica) species. Where Fasciola hepatica was predominate (80%). Both intra-species and interspecies genetic distance was studied and results showed that the intraspecific variability among individuals of both species i.e., F. hepatica and F. gigantica, ranging between 0 and 1% while the interspecific diversity between F. hepatica and F. gigantica was only 1%. In conclusion, mitochondrial 28S rRNA gene is a proved as a good marker in identifying Fasciola of different species. Where, the F. hepatica and F. gigantica are present in sheep breed in Riyadh region, Saudi Arabia.     

Molecular characterization revealed Fasciola specimens in Ecuador are all Fasciola hepatica,none at all of Fasciola gigantica or parthenogenic Fasciola species

All 225 Fasciola flukes obtained from domestic animals (73 cattle, 7 sheep and 1 pig) of 18 distinct geographic areas in Ecuador-South America, were identified as Fasciola hepatica, based on molecular analyses of nuclear pepck and pold genes, and mitochondrial nad1gene as well as the morphological observation of sperm within the seminal vesicles. Fasciola gigantica and parthenogenic Fasciola forms endemic to Asian countries were not found in this study, although zebu cattle and water buffalos have introduced into South America from Asia; this could be due to the absence of suitable intermediate host snails. The results of pepck analysis using multiplex PCR developed previously showed that 32 of the flukes could not be confirmed as F. hepatica, suggesting that the method is unreliable for the accurate discrimination of F. hepatica, and that pepck gene of the species consists of multiple loci, not a single locus. The results of genetic diversity, phylogenetic, and network analyses based on mitochondrial nad1 sequences suggest that F. hepatica populations in South America, including Ecuador, formed from the ancestral F. hepatica individuals introduced into the continent along with anthropogenic movement of livestock infected with the species.     

The demonstration of pre-hepatic immune response to Fasciola hepatica in the mouse.

Harness E., Hughes D. L. and Doy T. G. 1976. The demonstration of a pre-hepatic immune response to Fasciola hepatica in the mouse. International Journal for Parasitology6: 15–17. Two groups of mice were immunized with either one oral dose of 20 irradiated metacercariae per mouse or 2 such doses given 7 days apart. Twenty-one days after immunization these mice together with non immunized controls were orally dosed with 100 normal metacercariae. Two days later immature flukes were recovered from the peritoneal cavity and counted. The numbers of flukes recovered from both immunized groups of mice were significantly lower than those obtained from the controls; this is taken to indicate that a protective mechanism operates at the intestinal wall.     

The stimulation of resistance in sheep to Fasciola hepatica by infection with Cysticercus tenuicollis

Infection of sheep with Cysticerus tenuicollis for 12 weeks generated a high level of protection (> 95%) against intra-ruminal challenge with metacercariae of Fasciola hepatica as measured by recovery of flukes from liver and bile ducts and counts of fluke eggs in faeces. The animals were resistant to Fasciola whether challenge was superimposed upon the cestode infection or after removal of the cestode with mebendazole.Previous infection with C. tenuicollis also protected against the pathogenic effects of challenge infection with F. hepatica. Liver fibrosis was much less extensive in resistant sheep than controls and PCV's were not affected although these were reduced during fluke infection in the control animals.     

Serodiagnosis of experimental fascioliasis by immunoprecipitation tests

Hillyer G. V. and Santiago de Weil N. 1981. Serodiagnosis of experimental fascioliasis by immunoprecipitation tests. International Journal for Parasitology11: 71–78. Counterelectrophoresis (CEP) was useful in detecting 100% of infections with fascioliasis in mice, rats, and rabbits by 4–5 weeks post infection, and in most rats as early as 2 weeks post infection. A rapid decrease of precipitins was observed when the animals were cured with a fasciolicidal drug at 4 or more weeks post infection. When rats were treated at 2 weeks, however, antibody reactivity remained high for at least 3 weeks post treatment suggesting that worm antigens are released in the liver parenchyma stimulating additional antibody production. Partial purification of F. hepatica adult worm extracts using Sephacryl S-200 was necessary for testing the serum of rats by CEP. In addition, the Sephacryl S-200 elution profile of F. hepatica antigens reactive with antisera to S. mansoni adult worms or eggs was shown. These studies demonstrate that CEP is useful for the early detection of antibodies in experimental fascioliasis and for the clear prediction of chemotherapeutic success when treatment is carried out at 4 or more weeks after infection.     

In vivo studies of the early, peritoneal, cellular and free radical response in rats infected with Fasciola hepatica by flow cytometric analysis

Early recruitment of the peritoneal cell population was observed during migration of newly excysted juvenile flukes. The peritoneal lavages were examined for T cells, cytotoxic NK cells (CNK) and free radicals production of rats at an early stage of infection by Fasciola hepatica. Male Sprague–Dawley rats were infected with 50 metacercariae of F. hepatica and non-infected controls were euthanized 2, 4 and 7 days post infection (d.p.i.), respectively. The peritoneal fluid of experimental animals was analyzed by flow cytometry to estimate cell phenotypes. The peritoneal areas were infiltrated by inflammatory cells, particularly from numerous neutrophils, eosinophils and CD4+ lymphocytes, which were significantly higher for infected rats than non-infected. CNK cells dominated in the peritoneal fluid of infected rats as early as 2 d.p.i. However, after 4 d.p.i. there was a decreased level of CNK cells which may indicate a change from a cytotoxic natural killer (NK) to a regulatory NK response. The challenged group generated very high in vivo levels of inducible nitric oxide (NO) from eosinophils. Superoxide expression was very high in macrophages and neutrophils compared to the uninfected control. In conclusion, our studies suggest that early F. hepatica infection could directly affect lymphoid cells and generate a high in vivo NO production by eosinophils in the peritoneal cavity. Moreover juvenile flukes could stimulate the macrophages and neutrophils to generate H₂O₂ radicals. The host parasite interactions resulting from immune response regulation by effector cells and immune evasion are discussed.     

Molecular identification and genetic-polymorphism analysis of Fasciola flukes in Dali Prefecture,Yunnan Province,China

This study aimed to identify species of Fasciola flukes in Dali Prefecture (Yunnan Province, China) and analyze their genetic diversity. Fasciola flukes (n = 122) were collected from cattle livers in a farmers' market in Xiaguan Town, Dali Prefecture. Nucleotide sequences of ribosomal internal transcribed spacer (ITS) as well as nicotinamide adenine dinucleotide dehydrogenase subunit 1 (ND1) and mitochondrial cytochrome c oxidase subunit 1 (CO1) were amplified, sequenced, and subjected to homology analysis. The heterozygosity ratios of different ITS alleles were determined using the peak-height ratio of heterozygous loci. Multiplex PCR analysis of the nuclear protein coding gene, phosphoenolpyruvate carboxykinase (pepck), was used to identify Fasciola species. Multiple ND1 sequence alignments enabled further genetic diversity analysis of regional Fasciola flukes. Seven ITS sequences belonged to F. hepatica and 115 belonged to Fh/Fg heterozygous flukes. Sequencing analysis of heterozygous flukes revealed 11 heterozygous loci with double peaks, with significantly variable ratios among individuals. ND1 and CO1 results indicated that one specimen was identical to F. hepatica, while 121 specimens were identical to F. gigantica or contained one variable site. Multiplex PCR results for pepck showed that double bands for F. hepatica and F. gigantica were amplified from Dali Fasciola specimens; hence, they were all heterozygous. By combining ITS, ND1, and CO1 sequences with multiplex pepck PCR results, all 122 specimens were identified as Fh/Fg heterozygous Fasciola flukes. Our experimental results preliminarily confirmed a high degree of Fh/Fg heterozygosity among Fasciola flukes in the Dali area. Selecting multiple molecular markers for concurrent analysis will provide more comprehensive and accurate genetic information.     

Comparative ultrastructural topography of the gut epithelia of some trematodes

The gut epithelia of six species of digenetic trematodes, Clonorchis sinensis, Eurytrema pancreaticum, Haematoloechus lobatus, Echinostoma hortense, Schistosoma japonicum and Fasciola hepatica, were studied with scanning and also transmission electron microscopy. Morphological differences in cytoplasmic projections of the gut of adult flukes were demonstrated stereoscopically among these species. The cytoplasmic projections vary considerably in shape, but are roughly separated into three groups by their essential forms: ribbon-shaped narrow type in C. sinensis and E. pancreaticum, broad, triangular with filamentous extensions distally and/or marginally as in F. hepatica and E. hortense, and broad, sheet-like or triangular with the distal ends blunt or rounded as in H. lobatus and S. japonicum. This character appears rather constant, without regional differences in the gut. No marked correlation was found between the gut projections of the parasites and their host or food. There are also specific discriminations in the ultrastructure of the cellular organization among the species examined.     

Identification of new polymorphic positions in rDNA sequences of the “intermediate” Fasciola forms

Fascioliasis is a foodborne zoonotic disease generally caused by the parasitic flukes Fasciola gigantica and Fasciola hepatica in class Trematoda. An “intermediate” Fasciola forms between F. gigantica and F. hepatica has been shown to exist. However, the relationships among F. gigantica, F. hepatica, and “intermediate” Fasciola forms remain unclear. In this study, we found five new polymorphic positions in 18S and 28S rDNAs sequences of “intermediate” Fasciola forms. According to the high-throughput sequencing results, all known 16 polymorphic positions of “intermediate” Fasciola forms show a clear and consistent tendency for F. gigantica or F. hepatica, and the percentages of the most frequently occurring bases were different in specimens. In the three ITS sequence fragments, hybrid-type base combinations of the polymorphic positions were detected, and the percentages of the most frequent base combinations were different in specimens too. In addition, interestingly, the newly detected ITS-802 position was not a traditional polymorphic position in “intermediate” Fasciola forms, and the bases in ITS-802 position are not same as the allele bases of F. gigantica or F. hepatica. Our results will be helpful to investigations into the molecular taxonomy, population genetics, and ecology of F. gigantica, F. hepatica, and “intermediate” Fasciola forms.     

Stimulation of resistance to Taenia taeniaeformis in the rat by infection with Fasciola hepatica

Homologous resistance to F. hepatica and T. taeniaeformis and cross resistance between these two parasites was investigated in the rat. Rats given a primary infection with F. hepatica were challenged with either F. hepatica or T. taeniaeformis. Conversely rats given a primary infection with T. taeniaeformis were challenged with either F. hepatica or T. taeniaeformis.Infection with F. hepatica generated significant resistance against challenge with F. hepatica given 9 weeks later. Similarly, infection with T. taeniaeformis protected against challenge with T. taeniaeformis given 6 weeks later. Infection with F. hepatica also generated significant resistance against challenge with T. taeniaeformis given 4, 8 or 9 weeks later. Primary infection with T. taeniaeformis did not protect against challenge with F. hepatica.     

Polymorphism and structural features of two noncoding regions of the liver fluke <Emphasis Type="Italic">Fasciola hepatica</Emphasis> (Plathelminthes: Trematoda) mitochondrial genome

Structural characteristics and polymorphism of the long (LNR) and short (SNR) mitochondrial noncoding regions were studied in the liver fluke Fasciola hepatica. Flukes were sampled from several populations of Russia and Belarus. LNR amplification yielded a set of nine fragments, neighboring ones differing in length by one tandem repeat (85 bp), published for Australian flukes. The LNR amplification products of different lengths were cloned and sequenced. A comparison of the LNR sequences of Australian and Belarussian flukes revealed three nucleotide substitutions and one point heteroplasmy in the first positions of the imperfect repeat and four adjacent perfect repeats. The positions of the three mutations coincided in the perfect and imperfect repeats. The frequency of mutations was 4.0–4.7 %, while the frequency of heteroplasmic sites varied from 0.1 to 1.2%. It was shown that the mutations and the heteroplasmy of one site could change the structure and stability of the putative secondary structures of the perfect and imperfect repeats. SNR amplification in F. hepatica from several populations yielded fragments that differed from the published SNR sequence of Australian F. hepatica by one transversion (T → G in position 21). Both noncoding regions had several conserved and potential regulatory sequences. The possible causes of heteroplasmy and a concerted origin of substitutions in different repeats are discussed.