Evaluation by the skin prick test of Anisakis simplex antigen purified by affinity chromatography in patients clinically diagnosed with Anisakis sensitization

Anisakis simplex crude extracts (CE) (IPI, ASAC and ALK-ABELLO), A. simplex larval antigens purified using a column of IgG anti-A. simplex (PAK) or a column of IgG anti-Ascaris suum (PAS), antigen eluted from columns of IgG anti-A. suum (EAS) and an A. suum adult CE were assayed by the skin prick test. Thirty percent of assayed patients showed a negative reaction in the Anisakis skin prick test. Of 70% positives, two patients had a weal greater than that produced by histamine with the A. simplex extract from ABELLO and IPI. The A. suum skin prick test was positive in 35% of patients, with a lower reaction than that observed with the A. simplex extract from IPI in 57% of the sera and a higher reaction in 28% of the sera. All patients with positive reactions with the crude extract also showed positive weals with the two purified antigens, PAK and PAS. All patients, except three, with a reaction to A. suum antigen, were positive to the EAS antigen. In five patients the weal size produced by PAS was greater than that observed with PAK, whereas in another six patients the contrary was observed. Only one of these six patients did not react to EAS antigen, coincident with the patient showing only a slight increase (7%) in the weal size induced by PAK vs. PAS. When the EAS antigen was tested on patients positive to both PAK and PAS, six patients presented a weal size of >30% and only three patients who were positive to PAS did not react to the EAS antigen. These three patients were also negative against the A. suum CE. Purification by affinity chromatography eliminates from the PAS antigen the proteins responsible for producing cross-reactions with Ascaris (present in the EAS antigen).     

Western blot antibody determination in sera from patients diagnosed with Anisakis sensitization with different antigenic fractions of Anisakis simplex purified by affinity chromatography

Using Western blot techniques, the specificities of crude and purified (PAK and PAS) Anisakis simplex antigens were compared against 24 sera from patients diagnosed with Anisakis sensitization. All patients recognized a 60 kDa protein against the A. simplex crude extract, while 37.5% and 12.5% reacted with proteins of 40 and 25 kDa, respectively, when IgG was tested. In the case of IgE determination, 41.6% of sera were negative, while 12.5% and 20.8% appeared to cross-react against Toxocara canis and Ascaris suum, respectively. When the PAK antigen (A. simplex antigen purified by means of a column of IgG anti-A. simplex) was tested, immune recognition towards the 60, 40 and 25 kDa proteins increased in 83.3%, 16.7% and 4.2%, respectively, when the Ig antibodies were tested. In the case of the PAS antigen (PAK antigen purified by means of a column of IgG anti-A. suum), the reaction against the 40 and 25 kDa proteins increased to 45.8% and 25%, respectively, when Ig antibodies were used. Finally, when the EAS antigen (eluted from the anti-A. suum column after PAK purification) was tested, 83.3% of the assayed sera reacted against the 14 kDa protein, when the Ig antibodies, IgG and IgM immunoglobulins were measured. With the IgE determination, the reactions were observed in 41.7% of patients with proteins between 60 and 35 kDa against the PAS antigen. With the EAS antigen, reactive bands of 184, 84 and 14 kDa appeared. In conclusion, in the purification process of the A. simplex larval crude extract, the proteins implicated in cross-reactions with Ascaris and Toxocara were eliminated, with an important concentration of proteins responsible for the induction of specific responses.     

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

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.     

Enzyme-linked immunosorbent assay and Western blot antibody determination in sera from patients diagnosed with different helminthic infections with Anisakis simplex antigen purified by affinity chromatography

An evaluation of the sensitivity and the specificity of the Anisakis simplex antigens purified by affinity chromatography was performed using sera from patients diagnosed with Anisakis sensitisation and sera from patients previously diagnosed with different helminthic infections. Only the sera of the patients diagnosed with Schistosoma mansoni or Onchocerca volvulus parasitic infections were negative against the A. simplex antigen and its purified fractions (PAK antigen: A. simplex antigen purified using columns prepared with anti-A. simplex rabbit IgG and PAS antigen: PAK antigen purified using columns prepared with anti-Ascaris suum rabbit IgG). However all the sera were positive against the A. suum antigen. In all the sera from the patients diagnosed with Anisakis sensitisation, the antibody levels detected using the purified antigens (PAK and PAS antigens) were lower than the observed using the A. simplex crude extract with the highest diminution in the case of the IgG. When these same sera were tested against the A. simplex crude extract by Western blot, several bands of high molecular masses were observed as well as, intense bands at 60 and/or 40 kDa. A concentration of these last proteins was observed in the PAK and the PAS antigens. When the sensitivity and the specificity determinations were performed, only seven of the 38 patients diagnosed of Anisakis sensitisation were positive, as well as, the sera from the patients diagnosed with parasitisms by Echinococcus granulosus or Fasciola hepatica.     

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.     

Cross-reactions of sera from Toxocara canis-infected mice with Toxascaris leonina and Ascaris suum antigens.

The ELISA method using larval excretory-secretory (E/S) products and homogenized Toxocara canis, Toxascaris leonina and Ascaris suum adult worm extract were used to determine possible cross-reactions in BALB/c and C57BL/10 mice, inoculated with embryonated eggs or adult worm extract of T. canis in single and multiple doses. When we used sera of mice infected with embryonated eggs of T. canis against different heterologous antigens, we observed no cross-reactions in BALB/c mice against A. suum E/S and adult worm extract antigens with a single dose. In multiple doses this was absent too against T. leonina adult worm extract in BALB/c mice, and in both strains against A. suum E/S and adult worm extract. In BALB/c mice inoculated with adult worm extract of T. canis we did not observe cross-reactions with A. suum E/S antigen with both inoculation doses. In the remainder of the experiments, we observed cross-reactions of different intensities.     

Do Toxocara canis larval antigens used in enzyme-linked immunosorbent assay for visceral larva migrans cross-react with AB isohemagglutinins and give false positive results?

A variety of helminth parasites have A and B blood group antigens on their surface. These antigens may cross-react with elevated concentrations of A and B isohemagglutinins in some patients and give false-positive results in the serologic diagnosis of visceral larva migrans caused by T. canis. To clarify this point, serum from patients with visceral larva migrans and elevated T. canis antibody titers as determined by ELISA were absorbed with AB blood cells and retested by ELISA without a demonstrable decline in T. canis antibody titers. Similarly, absorption with T. canis embryonated egg antigens of serum containing elevated levels of anti-A or anti-B isohemagglutinins failed to decrease the isohemagglutinin titer. This indicates that the ELISA using T. canis embryonated egg antigen does not give false positive results with sera containing high concentrations of anti-A or anti-B isohemagglutinins.     

Amino Acid Sequence of αkSubstance,a Mating Pheromone of Saccharomyces kluyveri

A fraction containing IgA (IgA-rich fraction) was prepared from bovine colostrum by anion exchange chromatography using DEAE-Sephadex A-50 and gel filtration on Sephadex G-200. A large amount of IgG1-dimer was found in this fraction, which could not be separated from IgA by repeated gel filtration.

The Fc fragment of bovine colostral IgG (IgG-Fc) was prepared from papain digestion mixtures. IgG-Fc was found to be heterogeneous on DEAE-cellulose column chromatography. Two IgG-Fc fractions were obtained, but no antigenic difference was found between them. Anti-IgG-Fc antibodies raised in rabbits by injection of these Fc preparations reacted only with IgG1 and IgG2. An immunoadsorbent (anti-IgG-Fc-Sepharose) was prepared by coupling these anti-IgG-Fc antibodies to CNBr-activated Sepharose 4B.

IgA was purified from the IgA-rich fraction by affinity chromatography on anti-IgG-Fc-Sepharose adsorbent. IgG1-dimer was effectively removed by this treatment. The purified sample gave only one precipitin arc characteristic of IgA on immunoelectrophoresis with multiple anti-bovine colostral whey antiserum. A small amount of IgA was found to be adsorbed to the affinity column nonspecifically.

When a rabbit was immunized with the purified IgA, besides anti-IgA antibodies, antibodies against the secretory component (SC) were found in the antiserum. This finding leads us to expect that the purified IgA is secretory IgA containing SC.     

Vaccination with recombinant Ascaris suum 24-kilodalton antigen induces a Th1/Th2-mixed type immune response and confers high levels of protection against challenged Ascaris suum lung-stage infection in BALB/c mice

Previous studies have shown that antigens from various life-cycle stages of Ascaris suum can induce host-protective immunity against challenge infections with infective eggs of A. suum. This study evaluated whether Escherichia coli-expressed recombinant 24-kDa antigen from A. suum (rAs24) was a suitable vaccine candidate for the control of Ascaris infections by examining its performance in a mouse model. Immunization of BALB/c mice in three consecutive doses with rAs24 in Freund's Complete Adjuvant (FCA) results in protection against challenge infections as manifested by a 58% reduction (P<0.001) in recovery and stunted development of A. suum lung-stage larvae at day 7 post-challenge. Sera obtained from immune protected mice had a significantly increased level of immunoglobulin G (IgG) (P<0.0001) but had no IgE response. Analysis of IgG-subclass profiles revealed that IgG1 (P<0.0001) showed the greatest increase followed by IgG2b (P<0.005), IgG2a (P<0.006) and IgG3 (P<0.04). Splenic T cells from rAs24-FCA immunized mice secreted significantly high levels of both Th1 cytokine gamma-interferon (P<0.005) and Th2 cytokine interleukin-10 (P<0.001) after stimulation with rAs24 in vitro. Interestingly, affinity purified anti-rAs24 IgG was shown to inhibit moulting of A. suum lung-stage L3 to L4 in vitro by 26%, indicating an in vivo function of the endogenous As24 in the moulting processes. An intense expression of endogenous As24 in the hypodermis and gut epithelium of A. suum lung-stage L3 by immunofluorescence supports a function for endogenous As24. These findings may contribute to the understanding of rAs24-induced Th1/Th2-mediated effector mechanisms required for the protection of A. suum lung-stage larval infection.     

Characterization of a Toxocara canis species-specific excretory-secretory antigen (TcES-57) and development of a double sandwich ELISA for diagnosis of visceral larva migrans

This study describes the isolation of a Toxocara canis species-specific excretory-secretory (ES) antigen and the development of an enzyme-linked immunosorbent assay (ELISA) based on this antigen. Analysis of the ES antigens of T. canis, Toxocara vitulorum, Ascaris lumbricoides and Necator americanus larval antigen was performed by SDS-PAGE followed by western blotting. A 57 kDa T. canis-specific antibody fraction (TcES-57) was identified by western blotting and labelling with anti-Toxocara antibodies (from experimental rabbits and human patients) and tracing with anti-human or anti-rabbit peroxidase conjugate. No protein fraction of 57 kDa was detected in ES or larval antigens collected from T. canis, T. vitulorum, A. lumbricoides and N. americanus. Using TcES-57, a specific antiserum was produced in rabbits and a double sandwich ELISA was developed. This test was validated using known seropositive sera from toxocariasis patients, sera from A. lumbricoides or N. americanus patients, and 50 serum samples from cats. These tests revealed that TcES-57 antigen is specific to T. canis infection and does not cross react with sera of other related infections. Thus, ELISA based on TcES-57 antigen was proven to be an effective tool in the diagnosis of toxocariasis and studies on the role of T. canis in the epidemiology of human toxocariasis.     

Isolation and partial characterization of an antigen shared between Schistosoma mansoni, Fasciola hepatica, and Biomphalaria glabrata

An antigen was isolated and partially characterized from adult Schistosoma mansoni which immunologically cross-reacted with Fasciola hepatica and Biomphalaria glabrata, a schistosome intermediate snail host. The antigen was isolated from a solubilized freeze-thaw preparation containing 0.5% Triton X-100 by passage through a CNBr-activated Sepharose 4B column coupled with rabbit IgG prepared against a homogenate of B. glabrata hepatopancreas. The eluted antigen (designated as SMw-53P) stained with Coomassie Brilliant Blue R250, but not with Nile Blue A or periodic acid-Schiff's stains. The antigen did not bind to a Concanavalin A affinity column. SMw-53P was determined to have a molecular weight of 53,000 daltons by SDS-polyacrylamide gel electrophoresis. Western blotting, using sera from mice infected with S. mansoni, revealed the presence of the antigen in whole worm preparations of both S. mansoni and F. hepatica. The serodiagnostic potential of the antigen was evaluated by ELISA utilizing sera from S. mansoni-infected mice, or rabbits injected with homogenates of F. hepatica or S. mansoni whole worm, or B. glabrata hepatopancreas. SMw-53P was shown to strongly react with all antisera, but not normal mouse or rabbit sera. These data suggest a limited value for the antigen for the specific immunodiagnosis of schistosomiasis mansoni, but do suggest a possible potential as a general screening tool for detecting trematode infections. Further studies regarding the antigen's potential as a vaccine are indicated.     

免疫磁珠技术分离唾液A/B血型抗原并用于吸附血清A/B抗体

目的:应用免疫磁珠分离技术获得具有良好抗原性的A/B血型抗原,并探究其作为ABO血型抗体吸附剂去除A/B抗体的可行性。方法:将含有血型物质的唾液进行预处理,再与包被了抗体的磁珠混合,分离出纯度较高的A/B抗原,运用酶联免疫及凝集抑制试验验证所得抗原的抗原性及是否存在交叉反应。用未纯化A/B抗原和纯化A/B抗原包被磁珠,对含有抗A/B IgM、IgG的血清进行抗体吸附,用纯化A/B抗原对100份来自O型血孕妇的临床血清样本进行抗体吸附,分别评价其吸附效果。结果:纯化抗原与对应抗体反应后,其吸光度显著高于对照组(A抗原与A抗体0.85±0.12 vs.0.27±0.03,P0.01;B抗原与B抗体0.86±0.09 vs.0.24±0.06,P0.01),与其它类型抗体反应后的吸光度值与对照组比较差异无统计学意义(P0.05)。进行红细胞凝集抑制试验时,纯化抗原可显著抑制相应抗体与红细胞的凝集反应,对其它类型抗体与红细胞的凝集没有抑制作用。血清抗体吸附实验表明纯化抗原的吸附效率比未纯化抗原的高(97.00%vs.88.00%,P0.001)。临床样本抗体吸附实验显示,纯化A抗原对抗A IgM/IgG的吸附效率分别为96.88%、98.44%;纯化B抗原对抗B IgM/IgG的吸附效率分别为96.88%、98.44%。结论:磁珠纯化抗原能特异性地与对应抗体结合,有效吸附血清中的血型抗体,有望作为合成A/B抗原的替代品。     

Purification of restriction endonuclease EcoRII using monoclonal antibodies

Monoclonal antibodies against EcoRII endonuclease were obtained after immunization of two BALB/c mice with a homogeneous enzyme prepared by conventional methods. IgG from ascitic fluid was purified and coupled to CNBr-activated Sepharose 4B to give a specific column used to isolate EcoRII endonuclease. The isolated EcoRII endonuclease produced a single band during SDS gel electrophoresis.     

Isotype determination of anti-Trypanosoma cruzi antibody in murine Chagas' disease.

Isotypic analysis of anti-parasite humoral responses of C57B1/6 and C3H (He) mice surviving acute Trypanosoma cruzi infection showed that both mouse strains demonstrate IgG1, IgG2a, IgG2b, and IgM enzyme-linked immunosorbent assay titers from days 21 to 300 of infection. Using the western blot technique to determine the antigen specificity of the isotypic responses, 100-day infected C3H mice showed strong IgG1, IgG2a, and IgG2b responses to many antigens, whereas C57B1/6 mice showed weak responses to fewer antigens. Isotype western blots showed that reactivity to the T. cruzi antigen of 75-77 kDa is present in the humoral response of day 21-infected mice that will survive and missing in those that will not survive. In general, surviving immunized C3H mice respond with IgG1, IgG2a, and IgG2b reactions to the 75-77-kDa and other antigens, whereas resistant B6 mice concentrate their anti-T. cruzi response in the IgG2b isotype to the 75-77-kDa antigen. Perhaps induction of ineffective antibody responses to nonprotective antigens is beneficial to the parasite and detrimental to the host.     

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.     

Toxocara infection in pigs. The use of indirect fluorescent antibody tests and an in vitro larval precipitate test for detecting specific antibodies.

An in vitro larval precipitate test using second-stage Toxocara canis larvae and an indirect fluorescent antibody (IFA) test employing cuticles of T. canis larvae as antigen were evaluated using antisera produced in pigs experimentally infected with T. canis, T. cati, Ascaris suum, Toxascaris leonina and Parascaris equorum. The former test was both specific and sensitive and is suggested as a reliable and simple method of detecting Toxocara antibodies in pigs. The latter test was considered unsuitable because of cross-reactions that occurred when sera from pigs infected with other ascarids were tested. An IFA test for Ascaris antibodies, employing cuticles of A. suum larvae as antigen, is described. The degree of specificity of this test suggests that it may be of value in the detection of antibodies to Ascaris in pigs under natural conditions.     

Production of anti-human thyroglobulin and anti-thyroid hormone antibodies in rabbits immunized with homogenate of human papillary cancer tissue

Papillary cancer tissue of the thyroid gland removed from each of three patients was homogenized in phosphate buffer followed by centrifugation. Each of three rabbits was immunized with each of the supernatants (TC-1, TC-2, TC-3). These rabbits were immunized on days 0, 7, 14, and 21, and serum from each rabbit, obtained 4 weeks after the first immunization, was examined for the presence of anti-human thyroglobulin (HTg), anti-thyroxine (T4), and anti-triiodothyronine (T3) antibodies. Production of anti-HTg antibodies was observed in all three rabbits. In addition, despite the low content of iodine, T3, and T4 in thyroglobulin that had been purified from the papillary cancer tissues (p-HTg), production of anti-T4 and anti-T3 was observed in two of the three rabbits, and the other immunized with TC-1 showed anti-T4 but no anti-T3 antibodies. The significance of the production of anti-thyroid hormone antibodies in rabbits with respect to the antigenic structure of p-HTg with low content of iodine and thyroid hormone is discussed.     

Immunoblot analysis of serum IgG, IgA and IgE responses against larval excretory-secretory antigens of Anisakis simplex in patients with gastric anisakiasis

To increase our understanding of the immune response to Anisakis infection, antigen specific IgG, IgA and IgE responses were identified using an immunoblot technique after polyacrylamide gel electrophoresis of excretory-secretory products from the larval stage of Anisakis simplex. Nine sera were drawn from proven cases of gastric anisakiasis within 3 days after symptoms had developed. The molecular weight of the major antigenic bands were distributed between 50 kDa and 120 kDa of the antigens. In nine cases of gastric anisakiasis, three of them were positive for IgG response, five for IgE, and six for IgA, respectively. None of control sera recognized the antigenic bands in IgA and IgE responses. In contrast, two controls had IgG antibodies against 1-2 proteins in the 65-95 kDa region. The antigenicity of the excretory-secretory products was lost following treatment by 0.2% trypsin, but not by 0.2 M periodic acid. Based on the results of reactivity to lectins, antigenic bands of the ES products possessed mucin type glycoconjugate residues in their protein portion. This indicates that the humoral responses of IgA and IgE antibodies to the larval ES antigens are a more reliable index of infection than that of the IgG response.     

Cross-linking of T3 (CD3) with T4 (CD4) enhances the proliferation of resting T lymphocytes

Monoclonal antibodies reactive with defined T lymphocyte surface antigens were covalently coupled to protein A-Sepharose beads using the bifunctional imidoester, dimethyl pimelimidate. Sepharose-immobilized antibody reactive with T3 induced the proliferation of resting T lymphocytes in the presence of either recombinant interleukin 2 or phorbol myristate acetate. When monoclonal antibodies reactive with T3 and T4 were coupled to the same Sepharose bead (hereafter designated Sepharose (T3:T4)), proliferation was enhanced an average of three-fold. Similarly prepared Sepharose beads coupled to anti-T3 and anti-T8 also enhanced proliferation over that observed with anti-T3 alone. Sepharose (T3:T4) similarly increased the proliferation of T4+ lymphocytes and a T4+ clone but failed to enhance the proliferation of T8+ lymphocytes. The increased proliferation of T4+ lymphocytes resulted from a preferential activation of the T4+2H4- helper population over the T4+2H4+ suppressor-inducer population. The enhanced proliferation induced by Sepharose (T3:T4) could be completely inhibited by soluble anti-T4. These results suggest that perturbation of T3 may be a minimal signal for T cell activation and that the assembly of a multimeric complex including T3 and T4 may be required for optimal T cell activation.     

Cross-reactivity between antigens of Anisakis simplex s.l. and other ascarid nematodes

A study of the cross-reactivity among somatic and excretory-secretory antigens of the third stage larvae of Anisakis simplex s.l. and somatic antigens of other ascarid nematodes (Ascaris lumbricoides, A. suum, Toxocara canis, Anisakis physeteris, Hysterothylacium aduncum and H. fabri) was carried out by immunoblotting. It was revealed a high degree of cross-reactivity among ascarids in the 30 and > 212 kDa range by using sera against somatic and excretory-secretory antigens of A. simplex s.l. It has been revealed also specific components of the Anisakis genus (< 7.2, 9, 19 and 25 kDa) that will be interesting in diagnosis.