Conservation of diagnostic antigen epitopes among biologically diverse isolates of Trichinella spiralis

Crude and immunoaffinity-purified excretory-secretory antigens derived from a domestic pig isolate of Trichinella spiralis were used in an enzyme-linked immunosorbent assay to test serum from mice infected with 25 different pig and wild animal isolates of T. spiralis sspp. All of the sera were found positive by ELISA using either of the antigen preparations, indicating all isolates shared certain antigen epitopes. Excretory-secretory antigens were prepared from 3 distinct isolates of T. spiralis sspp.--Trichinella spiralis spiralis (pig isolate), Trichinella spiralis nativa (polar bear isolate), and Trichinella spiralis pseudospiralis--and compared by electrophoresis and monoclonal antibody binding. While protein profiles varied among the isolates, a monoclonal antibody recognizing a major immunodiagnostic antigen epitope bound all 3 antigen preparations. However, this antigen epitope occurred on different molecular weight excretory-secretory proteins from the different isolates.     

A longitudinal study of porcine serological responses to experimental infections with T-1 and T-3 Spanish Trichinella isolates.

Comparison of antibody response and antigen recognition was made by ELISA and western-blot analysis in pig experimental infections by T-1 and T-3 Spanish Trichinella isolates. Two groups of Iberian pigs were experimentally infected with 150 larvae/kg body weight of GM-1 and C-76 Spanish Trichinella isolates as representatives of T-1 and T-3 gene pools respectively. Antibody levels and antigen recognition were measured on days -14, 0, 6, 16, 20, 27, 34, 49, 63 and 82 after infection by ELISA and western-blotting assays. Antibody response against C-76 infection was significantly delayed and lower than against GM-1. The two Trichinella isolates were indistinguishable, however, by western blotting analysis, although recognition of larval antigens was quantitatively higher than adult ones. Interestingly, the principle larval antigenic components recognized by pigs were those recognized by the monoclonal anti-sera NIM-M1. Finally, there were no serological patterns indicative of the stage of infection ("antibody windows") discriminating, for example between early versus late infections.     

Schistosome antigen gp50 is responsible for serological cross-reactivity with Trichinella spiralis.

The 50-kDa component (gp50) present in Schistosoma mansoni eggs and secretions of the various life stages of the parasite was recognized by experimentally infected mice and by humans with S. mansoni, Schistosoma haematobium, and Schistosoma japonicum infection. All sera reacting with crude S. mansoni-soluble egg antigens (SEA) also reacted strongly with gp50 in enzyme-linked immunosorbent assay. No reactivity against gp50 was seen with sera from individuals without schistosomiasis, with the exception of sera from patients with Trichinella spiralis infection. All of 10 sera from patients with trichinellosis also reacted with schistosomes by immunofluorescence essentially recognizing testes, ovaries, ootype epithelium and ducts of the reproductive system. Cross-reacting antigens were seen in T. spiralis hypodermis, stichocytes and possibly germinal primordia using anti-gp50 monoclonal antibodies and anti-gp50-positive schistosomiasis patient sera. The results suggest that the anti-gp50 antibody response constitutes a significant part of the anti-SEA antibody response in infected individuals and is a major reason for the previously recognized serological cross-reactivity between T. spiralis and schistosome species.     

Antigen production by encysted muscle larvae of Trichinella spiralis

The production of excretory-secretory antigens by encysted muscle larvae of Trichinella spiralis has been investigated immuno-histochemically using an antiserum raised by infection in rabbits and purified both before and after conjugation by ion-exchange chromatography. The specificity of the antibody for excretory-secretory products was demonstrated by the pattern of staining of live worms in vitro and the failure of the labelled antibody to stain dead, non-metabolizing worms. Using this labelled antibody, and unlabelled antibody in the immunoperoxidase system, the presence of parasite antigen-bearing cells in close proximity to encysted muscle larvae has been demonstrated. This is believed to be the first demonstration of antigen production by encysted muscle larvae in vivo. The implications of this observation to current concepts of immunity to Trichinella spiralis are discussed.     

Comparative efficacy of antigen and antibody detection tests for human trichinellosis

Sera collected from patients with suspected or confirmed exposure to Trichinella spiralis were tested for circulating parasite antigens and antiparasite antibodies. Using an immunoradiometric assay, excretory--secretory antigens from muscle-stage larvae of T. spiralis were detected in the sera of 47% of 62 patients with clinical trichinellosis and 13% of 39 patients without clinical signs but suspected of exposure to infected meat. In comparison, antibodies were detected using an indirect immunofluorescent test in the circulation of 100% of the 62 patients with clinical trichinellosis and 46% of the 39 patients with suspected exposure. The presence of antibodies specific to excretory-secretory products of T. spiralis muscle larvae was confirmed in the majority of the samples tested by a monoclonal antibody-based competitive inhibition assay. These results indicate that antibody detection is a more sensitive diagnostic method for human trichinellosis, but that antigen detection might be a useful confirmatory test because it is a direct demonstration of parasite products in the circulation.     

Trichinella spiralis: a 76-kDa excretory/secretory larval antigen identified by a monoclonal antibody

Spleen cells from BALB/c mice were fused with myeloma cells following infection of the mice with Trichinella spiralis larvae and an ip booster injection with larval homogenate antigen. A monoclonal antibody (Mab), designated as TS 3G6 which did not react with sera or tissue extracts from noninfected mice, rats, and guinea pigs, was selected for further studies because of its high activity and specificity. When tested in ELISA TS 3G6 did not cross-react with Ascaris suum, A. lumbricoides, Toxocara canis, E. granulosus (larvae), Trichiuris suis, or T. ovis. Western blot analysis showed that Mab 3G6 recognized an antigen of 76 kDa located in the stichosome of the larvae as well as on the surface of the larval cuticle. Digestion of a larval extract with different enzymes suggests that the Mab TS 3G6 corresponding epitope is a polypeptide. The TS 3G6 antigen was detected in culture supernatants of Trichinella muscle larvae and in sera of experimentally infected animals using a sensitive ELISA assay. This secretory antigen also seemed to induce a specific immune response in the host since sera from infected animals could block the binding of Mab TS 3G6 to its target antigen when tested in a competitive ELISA.     

旋毛虫Ts87抗原的免疫学特性及保护性的初步研究

应用Western btot和ELISA方法对纯化的重组蛋白PET—28a( )／Ts87进行免疫学特性鉴定及保护性研究。Western blot和ELISA结果显示,Ts87抗原可被人工感染旋毛虫的兔血清、病猪血清、病人血清及抗Ts87的兔血清所识别。Ts87抗原免疫BABL/c小鼠,较对照组减虫率为29％,说明Ts87抗原可作为旋毛虫免疫诊断和疫苗的候选抗原。     

Trichinella spiralis shares epitopes with human autoantigens

Like other helminths, Trichinella spiralis has evolved strategies to allow it to survive in the host organism, including the expression of epitopes similar to those present in either expressed or hidden host antigens. To identify T. spiralis-derived antigens that are evolutionarily conserved in the parasite and its host and that could be responsible for its evasion of the host immune response, we examined the reactivity of six different types of autoantibodies to T. spiralis larvae from muscle. T. spiralis antigens that share epitopes with human autoantigens were identified by assessing the cross-reactivity of autoantibody-containing serum samples with T. spiralis antigens in the absence of specific anti-parasite antibodies. Of the 55 autoantibody-containing human serum samples that we analysed by immunohistological screening, 24 (43.6%) recognised T. spiralis muscle larvae structures such as the subcuticular region, the genital primordium or the midgut. Using Western blots, we demonstrated that the same sera reacted with 24 protein components of T. spiralis muscle larvae excretory-secretory L1 antigens. We found that the human autoantibodies predominantly bound antigens belonging to the TSL1 group; more specifically, the autoantibody-containing sera reacted most frequently with the 53-kDa component. Thus, this protein is a good candidate for further studies of the mechanisms of T. spiralis-mediated immunomodulation.     

Trichinella spiralis: secreted antigen of the infective L1 larva localizes to the cytoplasm and nucleoplasm of infected host cells

Antibodies were elicited against a purified antigen with an apparent molecular weight of 43K. This antibody preparation also detected a second antigen consisting of a group of closely related components of 45-50K. These antigens are stage specific for the infective first stage larva of Trichinella spiralis and are among the repertoire of secreted antigens originating from the stichosome. Antibody raised against the 43K antigen reacted with the stichosome and cuticle of the mature larva and the cytoplasm and nucleoplasm, but not nucleolus, of all nuclei of infected host cells (Nurse cells) in sections of infected tissues. Studies on sections of synchronously infected muscle tissue revealed that antigen was present only within the worm on Day 7 of the infection. On Day 9 after infection, the stichosome and cuticular surface of the larva and the cytoplasm and nucleoplasm of each nucleus of the Nurse cell reacted with antibody. Nurse cell cytoplasmic and nuclear reactivity increased in intensity until Day 18 after infection. These results suggest that stichocyte-specific antigens are synthesized during the early phase of infection in the muscle, and that as the Nurse-parasite complex develops, some of the antigen is secreted into the milieu of the Nurse cell. The presence of antigen in the cytoplasm and nucleoplasm of the infected host cell is discussed in relation to Nurse cell formation and maintenance.     

Identification of Trichinella spiralis early antigens at the pre-adult and adult stages

Three expression cDNA libraries from Trichinella spiralis worms 14 h, 20 h and 48 h post-infection (p.i.) were screened with serum from pigs experimentally infected with 20,000 T. spiralis muscle larvae. Twenty-nine positive clones were isolated from the 14 h p.i. cDNA library, corresponding to 8 different genes. A putative excretory-secretory protein similar to that of T. pseudospiralis was identified. Three clones corresponded to a T. spiralis serine proteinase inhibitor known to be involved in diverse functions such as blood coagulation and modulation of inflammation. Screening of the 20 h p.i. cDNA library selected 167 positive clones representing 12 different sequences. The clone with the highest redundancy encoded a small polypeptide having no sequence identity with any known proteins from Trichinella or other organisms. Fourteen clones displayed sequence identity with the heat shock protein (HSP) 70. HSPs are produced as an adaptive response of the parasite to the hostile environment encountered in the host intestine but their mechanism of action is not yet well defined. From the 48 h p.i. T. spiralis cDNA library, 91 positive clones were identified representing 7 distinct sequences. Most of the positive clones showed high similarity with a member of a putative T. spiralis serine protease family. This result is consistent with a possible major role for serine proteases during invasive stages of Trichinella infection and host-parasite interactions.     

Evaluation of immunodiagnostic antigens in the excretory-secretory products of Fasciola hepatica

The metabolic antigens of F. hepatica have been shown to be a source of potential immunodiagnostic antigens. We have fractionated F. hepatica excretory-secretory (ES) antigens by conventional gel filtration and HPLC, analyzed these fractions in PAGE, and evaluated their immunogenicity by ELISA with sera from experimentally infected rabbits to identify potential serodiagnostic antigens for fascioliasis. A fraction enriched in high molecular weight components of ca. 150-160 kDa was found to be very reactive with sera from early fascioliasis. This fraction was successfully adapted to the DOT-ELISA, where titers up to 1:16,000 still appeared visually as positive. Both acute and chronic fascioliasis sera also recognized, in the enzyme-linked immunoelectrotransfer blot technique (EITB), prominent 25-30-kDa polypeptides that have previously been shown to be recognized by infected rabbits, cows, and sheep. We have therefore employed conventional gel filtration and HPLC gel exclusion chromatography as a 1-step procedure to obtain fractions enriched in antigens recognized in early fascioliasis. In addition, these antigens have been successfully applied to a sensitive, visual immunodiagnostic technique that can be easily employed in field studies.     

Antibody profiles by EITB and ELISA of cattle and sheep infected with Fasciola hepatica

In evaluating potential mechanisms of immunity in fascioliasis we compared the time-course analysis of the antibody responses between a resistant (cattle) and a susceptible model (sheep). Sera from sheep and cows experimentally infected with F. hepatica were reacted with both somatic (FhWWE) and excretory-secretory (ES) antigens in order to evaluate the antibody repertoires in the 2 different hosts. Analysis of these sera by ELISA showed a significant increase in antibody levels by 2 wk in most infected cattle using both somatic and ES antigens, whereas with most infected sheep antibodies are not clearly detected until week 4. By EITB, both infected sheep and cows recognize major somatic polypeptides in a molecular weight range of 30-38 kDa by 8 wk. Cattle recognized 3 additional major antigens of 56, 64, and 69 kDa as early as 6 wk. Various polypeptides of 20-25 kDa are prominently detected by most sheep and very faintly, if at all, by the cow sera. The sera from both sheep and cows also identify ES polypeptides of 20-28 kDa. The patterns of polypeptides recognized by sheep infected with S. mansoni and challenged with F. hepatica in EITB are almost identical to those with a simple F. hepatica primary infection. No significant differences were detected in the antibody kinetics in ELISA between these 2 groups. Differences and similarities between these models could eventually help determine which antibodies may be predictive of resistance or susceptibility in fascioliasis.     

A dot-ELISA mimicry western blot test for the detection of swine trichinellosis

A dot enzyme-linked immunosorbent assay (dot-ELISA) using antigens purified by monoclonal antibody affinity chromatography was developed for detecting Trichinella spiralis infection in swine. The test was as sensitive as an ELISA using excretory-secretory products as antigen and western blot analysis, and nearly as specific as the western blot. The dot-ELISA detected all of 20 low infections (0.08-4.74 larvae per gram of diaphragm), most of them by 5-6 wk postinfection. Sera from 1,960 farm-reared swine were tested by conventional ELISA, dot-ELISA, and western blot. Of the 1,960 sera, 262 (13.4%) were considered positive on conventional ELISA, 16 (0.82%) by dot-ELISA, and 15 (0.77%) by western blot. The improved specificity was achieved by employing species-specific denatured antigens. More importantly, the dot-ELISA was much simpler to perform than western blot analysis. The principles employed in this test can be adapted to other infectious diseases, such as AIDS.     

Trichinella spiralis: specificity of ES antigens from pre-encysted larvae.

Excretory/secretory (ES) antigens were obtained by culturing pre-encysted Trichinella spiralis larvae which were recovered from muscles of experimentally infected mice 14-15 days postinfection. Analyses of these antigens (PEL ES) with immunoblotting, SDS-PAGE and Triple Antibody ELISA showed that they yielded a low sensitivity and specificity when tested with antisera against the common nematodes of Chinese pigs. As compared to ES antigens from encysted larvae, PEL ES also contained more low molecular mass proteins.     

Influence of infection intensity on predilection sites in swine trichinellosis.

The muscular distribution of Trichinella spiralis or T. britovi was studied by digestion in 59 experimentally infected pigs and seven wild boars. Crus muscle was the predilection site in 89.3% of 28 heavily infected swine with 146-3634 larvae per gram (lpg), but in 51.6% of middle to light infections (0.005-59 lpg) the basis of the tongue showed higher larval densities than the crus muscle. The basis of the tongue was also the predilection site in 71.4% of wild boars. Highest counts in other muscles were found only in lightly infected pigs. The influence of intensity of infection, host species, and Trichinella species on muscle distribution is discussed.     

Trichinella spiralis: strong antibody response to a 49 kDa newborn larva antigen in infected rats

In this work, we analyzed the kinetics of anti-Trichinella spiralis newborn larva (NBL) antibodies (Ab) and the antigenic recognition pattern of NBL proteins and its dose effects. Wistar rats were infected with 0, 700, 2000, 4000 and 8000 muscle larvae (ML) and bled at different time intervals up to day 31 post infection (p.i.). Ab production was higher with 2000 ML dose and decreased with 8000, 4000 and 700 ML. Abs were not detected until day 10, peaked on day 14 for the 2000 ML dose and on day 19 for the other doses and thereafter declined slowly from 19 to 31 days p.i. In contrast, Abs to ML increased from day 10, peaked on day 19 and remained high until the end of the study. Abs bound strongly at least to three NBL components of 188, 205 and 49 kDa. NBL antigen of 188 and 205 kDa were recognized 10-26 days p.i. and that of 49 kDa from day 10 to day 31 p.i. A weak recognition towards antigens of 52, 54, 62 and 83 kDa was also observed during the infection. An early recognition of 31, 43, 45, 55, 68 and 85 kDa ML antigens was observed whereas the response to those of 43, 45, 48, 60, 64 and 97 kDa (described previously as TSL-1 antigens) occurred late in the infection. A follow-up of antigen recognition up to day 61 with the optimal immunization dose (2000 ML) evidenced a decline of Ab production to the 49 kDa NBL antigen 42 days p.i., which suggested antigenic differences with the previously reported 43 kDa ML antigen strongly recognized late in the infection. To analyze the stage-specificity of the 49 kDa NBL antigen, polyclonal antibodies (PoAb) were obtained in rats immunized with 49 kDa NBL antigen. PoAb reacted strongly with the 49 kDa NBL component in NBL total soluble extract but no reactivity was observed with soluble antigen of the other T. spiralis stages. Albeit with less intensity, the 49 kDa component was also recognized by PoAb together with other antigens of 53, 97 and 107 kDa, in NBL excretory-secretory products (NBL-ESP). Thus, our results reveal differences in the kinetics of anti-NBL and ML Ab responses. While anti-NBL Abs declined slowly from day 19 until the end of the experiment, Abs to ML antigen remained high in the same period. It is remarkable the optimal Ab response to NBL antigens with 2000 ML infective dose and the reduced number of NBL antigens identified throughout the experimental T. spiralis infection, standing out the immunodominant 49 kDa antigen. Interestingly, this antigen, which was prominently expressed in NBL somatic proteins, was also detected in NBL-ESP.     

Isolation of Trichinella-specific antigens for diagnosis by gradient monoclonal antibody affinity chromatography

Monoclonal antibodies were generated for the isolation of specific antigens from Trichinella spiralis. Two monoclonal antibodies (7G6-2 and 10B6-1) of class IgG2b and IgG1 were selected according to their reactivities in an enzyme-linked immunosorbent assay and western blot. Clone 7G6-2 reacted with an antigen with molecular mass of approximately 60 kDa, and clone 10B6-1 bound to multiple antigens ranging from 49 to 62 kDa on western blot. Antibodies of each clone were purified partially from mouse ascites fluid by ammonium sulfate precipitation and were coupled to CNBr-activated Sepharose 4B. Antigens with molecular masses of 49 kDa and 57 kDa (P49/57), 52-62 kDa (P52/62), and 60 kDa (P60) were isolated from larval excretory-secretory products and crude worm extract with column 10B6-1 and column 7G6-2, respectively, in part by changing the pH of elution buffers. These antigens were mostly glycoproteins, strongly immunogenic, and specific to the parasite.     

Search for antibodies against Trichinella spiralis in free roaming rodents caught in a zoological park from Mexico City

A serological survey to search for antibodies against T. spiralis was performed in free roaming rats (n = 64) and mice (n = 35) caught in a zoological park from Mexico City. Serum samples were analyzed by ELISA and immunoelectrotransfer blot assay (EIBT). None serum show positive absorbance values in ELISA nor recognized T. spiralis specific antigenic fractions in EIBT. However, two rat samples recognized three antigens of 31, 37 y 55 kDa, while one of them reacted with two additional antigens of 64 and 67 kDa. As it is known that the antigen epitope profiles varied among Trichinella species, it could be possible that in rats, there is 3% of antibody prevalence against Trichinella sp.; however, due that other organisms could induce the production of cross-reacting antibodies, such conclusion can not be supported at all. These results suggest that T. spiralis was not part of helminthological fauna in these rodents.     

Physicochemical characterization and monoclonal and polyclonal antibody recognition of Baylisascaris procyonis larval excretory-secretory antigens

Baylisascaris procyonis larval excretory-secretory (ES) antigens consisted of complex glycoproteins ranging from 10 kDa to over 200 kDa as determined by sodium dodecyl sulfate polyacrylamide gel electrophoresis and lectin binding. Five monoclonal antibodies (Bapr1-Bapr5) produced against B. procyonis ES antigens were assayed by western blotting with larval ES antigens from B. procyonis, Baylisascaris melis, Baylisascaris transfuga, Ascaris suum, and Toxocara canis. Bapr1 and Bapr2 recognized periodate-sensitive epitopes on 14-kDa ES components of B. procyonis, B. melis, and B. transfuga, whereas Bapr4 and Bapr5 recognized periodate-resistant epitopes present on 55-kDa ES components of B. procyonis and B. melis. Bapr3 primarily recognized periodate-resistant epitopes on 33-45-kDa components of B. procyonis and B. melis ES. Heterologous rabbit antisera cross-reacted with many B. procyonis ES antigens on western blots, but recognition of the 33-45-kDa components was genus-specific. Normal human sera and T. canis-positive human sera also cross-reacted with many B. procyonis ES antigens, including those of 33-45 kDa. However, periodate oxidation markedly decreased cross-reactions and allowed for differential immunodiagnosis of B. procyonis versus T. canis. These studies demonstrated that antibody recognition of carbohydrate epitopes on ES components is an important cause of cross-reactions in antibody detection assays. Recognition of periodate-resistant (protein) epitopes on the 33-45-kDa B. procyonis ES components appears to be useful for genus-specific immunodiagnosis of larva migrans caused by Baylisascaris spp.     

Serological responses to Ascaris suum adult worm antigens in Iberian finisher pigs

Adult Ascaris suum were dissected to obtain different worm components (body wall, body fluid, ovaries, uterus and oesophagus) which were used as antigens when testing 95 sera of naturally A. suum-infected Iberian pigs by enzyme-linked immunosorbent assay (ELISA) and Western blot (WB). Pigs with patent Ascaris infections had significantly lower ELISA optical density values than pigs without adult worms when using the body fluid and the body wall as antigens. A poor negative correlation was found between adult intestinal worm burden or eggs in faeces and specific antibody responses, measured by ELISA and WB using all antigens. By WB, the recognition of specific bands was variable, but three groups of bands with molecular weights of 97 kDa, 54-58 kDa and 42-44 kDa were generally recognized by sera from naturally infected pigs as well as from hyperimmunized pigs when using the five antigen extracts. The ELISA and WB techniques may be used for immunodiagnosis, using somatic adult worm antigens, to declare young pigs to be Ascaris-free but cannot be used for individual Ascaris-diagnosis in adult Iberian pigs.