Antigen-specific lymphocyte proliferative responses in inbred mice after Trichinella spiralis infection.

The in vitro antigen-specific lymphoproliferative response of spleen, mesenteric lymph node (MLN), and coeliac lymph node (CLN) cells taken from various strains of inbred mice infected with Trichinella spiralis was assessed. In most experiments cell populations were stimulated with excretory/secretory antigens (ESA) derived from adult and larval worms. Lymphoid cells collected 5-7 days postinfection were usually the most responsive to ESA as measured by [3H]thymidine uptake. Spleen cells were more responsive than either MLN or CLN cells. There was a correlation between in vitro ESA stimulation and worm rejection in strong- and weak-responder strains of mice. Spleen and MLN cells of NFS mice showed higher antigen-specific responsiveness, whereas the same cells from B10.BR (H-2k) and B10.Q (H-2q) strains of mice were less responsive. Among intermediate responder strains 2 patterns were observed. Spleen and MLN cells of BuB and DBA/1 mice responded more strongly than those of C3H mice. Dose-response experiments demonstrated that increasing the infective dose of larvae to the host usually increased subsequent in vitro antigen-specific lymphoproliferation. Furthermore, non-MHC-linked genes appear to be the primary determinant of antigen-specific T-cell-proliferative responses in inbred mice infected with T. spiralis.     

Genetic analysis of the relationship between interleukin production and worm rejection in Trichinella spiralis-infected inbred mice

The production of interleukin 1 (IL-1), IL-2, and IL-3 by peritoneal macrophages, mesenteric lymph node (MLN), or spleen cells from inbred strains of mice infected with Trichinella spiralis was examined. The mice belonged to the worm rejection phenotypes previously characterized as strong (NFS), intermediate (C3H, BUB, DBA/1, SWR, CBA, etc.), or weak (B10.Q, B10.BR, etc.). Strong responder NFS mice produced approximately twice as much IL-1 as intermediate responder C3Heb/Fe or weak responder B10.BR mice. IL-3 production varied slightly among strains but did not show any relationship to the phenotype of rejection (highest: C3Heb/Fe, B10.BR; lowest: B10.Q). Of 16 strains of inbred mice and 6 F1 hybrid crosses assessed, marked variations occurred in IL-2 production from MLN cells in response to T. spiralis antigen challenge in vitro. When 16 mouse strains were compared IL-2 production ranged from 5.1 units/ml (A/J) to 29.8 (NFS). Variations in IL-2 production among mouse strains did not relate directly to MHC haplotype, and the capacity of an individual strain to release IL-2 or IL-3 did not correlate with adult worm rejection phenotype. Genetic linkage studies proved that the gene(s) regulating IL-2 production in T. spiralis infection were not linked to the gene(s) regulating adult worm rejection. Regression analysis showed a weak correlation of high IL-2 production with weak worm rejection suggesting that IL-2 production or an associated process is a negative factor in primary worm rejection.     

Trichinella spiralis: evidence that mice do not express rapid expulsion.

The rapid expulsion of Trichinella spiralis by mice of a variety of inbred and F1 mouse strains was examined. Mice were reinfected once with T. spiralis during and immediately after the natural termination of a primary infection and worm rejection was measured less than or equal to 24 hr after the challenge. The results showed that the challenge (super)infection was consistently rejected by all mouse strains before rejection of the adult worms from the primary infection commenced. Rejection of the challenge infection began at different times after the primary infection with NFS (2 days) less than C3H less than or equal to B10.Q approximately B10.BR (greater than 5 days). In all strains, rejection of the challenge infection preceded adult worm rejection from the primary infection by 5-8 days. At its peak, the loss of challenge worms related directly to the strength of the primary rejection process NFS greater than or equal to 98%, C3H 90-98%, and B10 mice 80-90%. Furthermore, loss of the capacity to reject the challenge followed approximately 7 days after the complete loss of the primary infection in each strain examined. Thus, the sooner worms from the primary infection were lost, the earlier the capacity to promptly reject the challenge infection disappeared. B10.Br mice still partially rejected a superinfection 35 days after the primary infection began, whereas NFS mice lost this capacity around 25 days. However, premature termination of the primary infection in B10.BR mice with methyridine at the same time that NFS mice naturally terminated their infection (15 days) abrogated the capacity of B10.BR mice to reject the superinfection at 24 days. Passive transfer of protective rat IgG monoclonal antibody to mice did not lead to rapid expulsion. Transfer of mouse immune serum to intestinally primed rats did result in rapid expulsion, suggesting that mouse antibody responses were adequate. The expression of superinfection rejection was susceptible to the administration in vivo of GK1.5, anti-mouse L3T4 antibody. The data indicate that the principal determinant of the strength, time of initiation, and longevity of rejection of a challenge infection was the response to the primary infection of that individual mouse strain. The genetic determinants of challenge infection rejection were seen to be identical to those that determined rejection of the primary infection. Since no evidence could be found to support the identity of this response with rapid expulsion, as defined in rats, a new term, "associative expulsion," is proposed.(ABSTRACT TRUNCATED AT 400 WORDS)     

Comparative studies of the antigens recognized by sperm-immobilizing monoclonal antibodies.

Characteristic properties of the antigens recognized by sperm-immobilizing monoclonal antibodies (SI-mAbs) from different sources were compared by ELISA competitive inhibition assay, Western blot analysis, chromatographic analysis, and enzymatic digestion studies. Among 9 SI-mAbs, human mAb H6-3C4 and three mouse mAbs--2C6, 2B6, and 2E5--also possessed strong sperm-agglutinating activity. Binding of human mAb H6-3C4 to sperm was strongly inhibited by the three mouse mAbs (2C6, 2B6, and 2E5), but not by the rat or the other four mouse mAbs. SDS-PAGE revealed that mAb H6-3C4 and three mouse mAbs recognized the same antigen molecules of 15-25 kDa present in both sperm extracts and seminal plasma. Chemical treatments with trifluoromethanesulfonic acid and sodium metaperiodate destroyed the antigen determinants recognized by the above four mAbs, as detected by both ELISA and antibody absorption tests. Western blot analysis revealed that the antigens were susceptible to treatments with papain, proteinase K, and N-glycanase, but resistant to trypsin, V8 protease, and thermolysin. These results indicate that one of the major antigens recognized by mAbs with sperm-immobilizing action may be a sperm membrane-associated glycoprotein of 15-25 kDa and the epitope may involve N-linked oligosaccharides.     

Genetic analysis of expulsion of adult Trichinella spiralis in NFS, C3H/He, and B10.BR mice

The genetics of T. spiralis rejection from the intestine was examined in inbred mice belonging to three phenotypic categories of expulsion: strong (NFS), intermediate (C3H), and weak (B10.BR). Experiments used various worm doses to analyze the day of worm rejection, defined as the day at which 98% expulsion of the infectious dose occurred. The F1 of NFS (strong) x B10.BR (weak) was a strong responder and the F1 of the cross C3H (intermediate) x B10.BR (weak) was intermediate. Analysis of time of rejection among offspring of the (NFS/B10.BR) x B10.BR backcross showed three segregating phenotypic categories which occurred in a ratio of 1:2:1 strong:intermediate:weak. Segregation analysis of C3H/B10.BR intercross (F2) mice produced a ratio of 3:1, intermediate:weak. The backcross C3H/B10.BR to the C3H parent produced 100% intermediate offspring and the backcross to the B10.BR parent segregated in a 1:1 ratio of intermediate:weak. Taken together the results of both sets of crosses demonstrated that strong responsiveness was a consequence of the additive effects of two dominant genes; either gene by itself conferred intermediate responsiveness. The additive nature of these dominant genes suggested that two distinct processes each lead to the expression of worm expulsion that is phenotypically intermediate and kinetically identical.     

Protective monoclonal antibodies from mice vaccinated or chronically infected with Schistosoma mansoni that recognize the same antigens

An IgM monoclonal antibody, designated mAb 1.G1, has been generated from spleen cells of mice immunized with irradiated Schistosoma mansoni cercariae. As determined by indirect immunofluorescence, mAb 1.G1 binds to the surface membrane of schistosomula and to the ciliated plates of miracidia. mAb 1.G1 also binds to the protonephridial systems of live adult worms and denuded, acetone-fixed schistosomula. Western blot analysis shows that the target epitope of this mAb is found on Nonidet P-40-solubilized schistosomular antigens ranging in molecular size from 85 to 130 kDa and ciliated plate antigens of miracidia at 92, 95, and 102 kDa. The recognized epitope in an 8 M urea adult worm extract is found on a 97-kDa molecule. In addition, mAb 1.G1 mediates a high level of complement-dependent cytotoxic activity against schistosomula when used in an in vitro assay. In passive immunization experiments, approximately 40% protection was provided mice when mAb 1.G1 was administered either at the time of challenge or when given 8 days postchallenge. However, when administered 15 days postchallenge, mAb 1.G1 failed to mediate passive protection. The ability of mAb 1.G1 to mediate protection in vivo correlates with its recognition of epitopes on the surfaces of live schistosomula up to 8 days but not at 15 days. Western blot analysis showed that the antigens were contained within Nonidet P-40 extracts of schistosomula during the same time period. Furthermore, a second monoclonal antibody (mAb 4.4B) derived from mice chronically infected with S. mansoni exhibits the identical properties as described for mAb 1.G1.     

Production and characterization of monoclonal antibodies against vegetative cells of Bacillus cereus

Two monoclonal antibodies (MAbs) against Bacillus cereus were produced. The MAbs (8D3 and 9B7) were selected by enzyme-linked immunosorbent assay for their reactivity with B. cereus vegetative cells. They reacted with B. cereus vegetative cells while failing to recognize B. cereus spores. Immunoblotting revealed that MAb 8D3 recognized a 22-kDa antigen, while MAb 9B7 recognized two antigens with molecular masses of approximately 58 and 62 kDa. The use of MAbs 8D3 and 9B7 in combination to develop an immunological method for the detection of B. cereus vegetative cells in foods was investigated.     

Schistosoma mansoni: Characterization of antigens in excretions and secretions

Excretory and secretory antigens of Schistosoma mansoni were obtained by in vitro cultivation of worms in Medium H-199, under sterile conditions at 37 C, in the dark, in an atmosphere of 92% air and 8% CO₂. This procedure yielded about 1 μg soluble excretion-secretion products per worm per 24 hr. The composition of the “excretory and secretory antigen” (ESA) preparation is complex. Analysis by isoelectric focusing revealed the presence of about 10 major and about 30 minor protein components. Immunological analysis of the ESA preparation was performed by immunoelectrophoresis. At least five precipitin arcs were seen with infected mouse serum, and seven with rabbit anti-ESA serum. Immunoelectrophoresis of molecular-weight fractions of ESA showed a total of 17 different antigens. One of these antigens was excreted exclusively by female worms. The antibody response in rabbits to preparations obtained by homogenization of adult worms, or by extraction of the tegument, was very different from the response to excretory and secretory antigens. Considerable cross-reactivity between these preparations did, however, occur.     

IL-2 production, IL-2 receptor expression, and IL-2 responsiveness of spleen and mesenteric lymph node cells from inbred mice infected with Trichinella spiralis

The in vitro production of IL-2 and IL-2R expression by lymphoid cells of inbred mice of strong (NFS), intermediate (C3H), or weak (B10.BR) in phenotype of Trichinella spiralis (TS) rejection was measured during a primary infection. Maximum production of IL-2 by spleen and mesenteric lymph node (MLN) cells occurred at 5 days postinfection. Cell depletion experiments demonstrated that Lyt-1.2+ T cells were predominantly responsible for in vitro IL-2 production. Cells from strong-responder NFS mice produced more IL-2 than cells from intermediate-responder C3H or weak-responder B10.BR mice. Similarly, after TS infection, NFS mice had significantly more IL-2R expressing MLN cells than B10.BR or C3H MLN cells. All mouse strains displayed a dose-dependent increase in in vitro IL-2 production after infection with 100 to 800 TS. This effect was most pronounced in NFS mice. Limiting dilution analysis of day 5 infected MLN cells demonstrated that the frequency of TS-reactive CD4+ cells was threefold higher in NFS mice than B10.BR and fourfold higher than in C3H mice. Finally, MLN cells taken from infected NFS mice responded to an exogenous source of IL-2, whereas MLN cells from infected C3H or B10.BR mice were unable to do so. We conclude that strong responsiveness in parasite rejection may be related to the amount of IL-2 produced as well as to the capacity of the lymphocytes of each mouse strain to respond to IL-2. Although these differences help explain the strong rejection phenotype of NFS mice, they fail to separate C3H and B10.BR mice where TS-responsive CD4+ precursors, IL-2 production, and dose responsiveness are all lower for the intermediate phenotype (worm rejection) C3H than the weak phenotype B10.BR mice.     

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.     

Characterization of monoclonal antibodies that recognize common epitopes located on O antigen of lipopolysaccharide of serotypes 1, 9 and 11 of Actinobacillus pleuropneumoniae

Abstract Seven murine monoclonal antibodies (mAbs) against serotype 1 of Actinobacillus (Haemophilus) pleuropneumoniae (reference strain Shope 4074) were produced and characterized. All hybridomas secreting mAbs were reactive with whole-cell antigens from reference strains of serotypes 1, 9 and 11, except for mAb 5D6 that failed to recognize serotype 9. They did not react with other taxonomically related Gram-negative organisms tested. The predominant isotype was immunoglobulin (Ig) M, although IgG_2a, IgG_2b, and IgG₃ were also obtained. The epitopes identified by these mAbs were resistant to proteinase K treatment and boiling in the presence of sodium dodecyl sulfate and reducing conditions; however, they were sensitive to sodium periodate treatment. Enhanced chemiluminescence-immunodetection assay showed that mAbs could be divided in two groups according to the patterns of immunoreaction observed. Group I (mAbs 3E10, 4B7, 9H5 and 11C3) recognized a ladder-like banding profile consistent with the O antigen of lipopolysaccharide (LPS) from smooth strains. Group II (mAbs 3B10 and 9H1) recognized a long smear of high molecular weight which ranged from 60 to 200 kDa. The mAbs were tested against 96 field isolates belonging to serotypes 1, 5, 9, 11 and 12, which had previously been classified by a combination of serological techniques based on polyclonal rabbit sera (counterimmunoelectrophoresis, immunodiffusion and coagglutination). The panel of mAbs identified all isolates of serotypes 9 and 11, but only 66% of those belonging to serotype 1. This may suggest the existence of antigenic heterogeneity among isolates of A. pleuropneumoniae serotype 1. These mAbs reacted with epitopes common to serotypes 1, 9 and 11 of Actinobacillus pleuropneumoniae which were located on the O antigen of LPS.     

Acanthocheilonema viteae: vaccination of jirds with irradiation-attenuated stage-3 larvae and with exported larval antigens

Jirds (Meriones unguiculatus) were immunized with irradiated (35 krad) stage-3 larvae (L3) of Acanthocheilonema viteae. The induced resistance against homologous challenge infection and the antibody response of the animals were studied. Immunization with 3, 2, or 1 dose of 50 irradiated L3 induced approximately 90% resistance. Immunization with a single dose of only 5 irradiated L3 resulted in 60.8% protection while immunization with a single dose of 25 L3 induced 94.1% protection. The protection induced with 3 doses of 50 irradiated L3 did not decrease significantly during a period of 6 months. Sera of a proportion, but not all resistant jirds, contained antibodies against the surface of vector derived L3 as defined by IFAT. No surface antigens of microfilariae or adult worms were recognized by the sera. Vaccinated animals had antibody responses against antigens in the inner organs of L3 and in the cuticle and reproductive organs of adult worms as shown by IFAT. Immunoblotting with SDS-PAGE-separated L3 antigens and L3-CSN revealed that all sera contained antibodies against two exported antigens of 205 and 68 kDa, and against a nonexported antigen of 18 kDa. The 205-kDa antigen easily degraded into fragments of 165, 140, 125, and 105 kDa which were recognized by resistant jird sera. Various antigens of adult worms, but relatively few antigens of microfilariae, were also recognized. To test the relevance of exported antigens of L3 to resistance, jirds were immunized with L3-CSN together with a mild adjuvant. This immunization induced 67.7% resistance against challenge infection and sera of the immunized animals recognized the 205- and 68-kDa antigens of L3.     

Schistosoma mansoni: antigen preparations which induce antibodies to schistosomula surface antigens

To determine the easiest method of raising antibodies to antigens exposed on the surface of schistosomula of Schistosoma mansoni, several crude preparations of the parasite were used to immunize mice. Schistosomula released products, whole worm homogenate, and parasite eggs all raised antibodies which bound to the surface of live schistosomula, although the anti-egg antiserum did so less strongly. Anti-schistosomula released products antiserum recognized three schistosomula surface antigens of Mr 15,000, 20,000, and 32,000, anti-whole worm homogenate recognized 20,000, 32,000, and 38,000 Mr surface antigens, and anti-egg recognized a less than 200,000 Mr surface antigen. None of these antigens was recognized when the labeled preparation was immunoprecipitated with its homologous antiserum. When these antisera were used to immunoprecipitate cell free translation products of adult worm RNA, the antischistosomula released products and anti-whole worm homogenate recognized an 11,000 Mr doublet while the anti-egg precipitated 14,000 and 44,000 Mr antigens. Other crude preparations were used to immunize rabbits; Formalin-fixed schistosomula, denuded adult worms, and purified worm tegument all induced antibodies which recognized the 20,000, 32,000, and 38,000 Mr schistosomula surface antigens.     

Cellular immune responses in mice infected with the intestinal nematode Trichuris muris.

CBA and B10.BR mice show variation in immune response to the intestinal nematode Trichuris muris. CBA mice develop strong resistance, eliminating worms from the intestine; B10BR mice are permissive and develop chronic infections. It is already known that resistance and permissiveness reflect differential T helper responses. The data reported here show that resistant CBA mice express good antigen-specific lymphocyte proliferative responses to infection, whereas cells from B10.BR mice are relatively anergic, although still responsive to Concanavalin A (ConA). The possibility that the altered proliferative responsiveness seen in infected B10.BR mice reflected quantitative or qualitative changes in T helper cells was examined by comparing cytokine production and expression of cell surface markers (CD4, CD8, and CD28) in mesenteric lymph node cells and spleen cells from both strains and comparing these with the characteristics of cells from resistant CBA mice and from CBA mice that had been rendered permissive to infection by a combination of irradiation and corticosteroid treatment. As expected, cells from B10.BR mice produced high levels of interferon-gamma (IFN-gamma), whereas those from CBA mice released high levels of IL-5, whether stimulated with adult worm somatic antigens, excretory/secretory antigens, or ConA. Immunosuppressed CBA mice produced high levels of both IFN-gamma and IL-5 throughout the experiment. FACS analysis revealed a decrease of CD4+ and an initial increase in CD8+ cells in all infected mice. No major changes occurred in the relative proportion of CD28(+) cells. Further evaluation of the CD28 costimulatory molecule, measured as mean fluorescence intensity, displayed down-regulation in permissive and immunosuppressed mice. The data obtained suggest that lymphocyte unresponsiveness and permissiveness to T. muris infection may be associated with a down-regulation or an initially reduced expression of costimulatory CD28 molecules.     

Production and Characterization of Monoclonal Antibodies against Vegetative Cells of Bacillus cereus

Two monoclonal antibodies (MAbs) against Bacillus cereus were produced. The MAbs (8D3 and 9B7) were selected by enzyme-linked immunosorbent assay for their reactivity with B. cereus vegetative cells. They reacted with B. cereus vegetative cells while failing to recognize B. cereus spores. Immunoblotting revealed that MAb 8D3 recognized a 22-kDa antigen, while MAb 9B7 recognized two antigens with molecular masses of approximately 58 and 62 kDa. The use of MAbs 8D3 and 9B7 in combination to develop an immunological method for the detection of B. cereus vegetative cells in foods was investigated.     

Production and characterization of monoclonal antibodies against excretory/secretory products of adult Echinococcus granulosus, and their application to coproantigen detection

Two IgM murine monoclonal antibodies (MAbs), EgC1 and EgC3, were produced against the excretory/secretory (E/S) products of Echinococcus granulosus adult worms. Immunoblotting revealed that both predominantly recognized a 50 kDa antigen in the somatic extract and an 85 kDa component in the E/S products. Immunolocalization showed that both MAbs reacted with the tegument of the parasite, and additionally EgC3 reacted with parenchyma and the tegument lining the external surface of the reproductive organs. A coproantigen capture ELISA was developed using a rabbit polyclonal antibody against E/S products from adult tapeworms as catching antibodies, and each one of MAbs as detecting antibody. The assays detected seven out of eight (EgC1), and eight out of eight (EgC3) experimentally infected dogs (worm burdens ranging from 61 to 57,500), using heat-treated samples obtained at prepatent period, and none (n=8) of helminth-free samples. Time course analysis showed that, after a 12-25 days lag, coproantigen levels rose above cut off O.D. values and typically peaked around 30 days post-infection (DPI) at the end of the experiment. One dog experimentally infected with Taenia hydatigena metacestodes was slightly detected as positive at different time points after 30 DPI. Both MAbs showed a similar pattern of recognition, but T. hydatigena antigens were undetectable for a longer period, and reached lower O.D. values with EgC1. Interestingly, fecal samples from two experimentally infected dogs with Echinococcus multilocularis were not recognized by the EgC1 assay, suggesting a potential value as species-specific diagnostic tool.     

KCl-Extractable surface antigens of Schistosoma mansoni: immunological characterization and applicability in immunodiagnosis

A Schistosoma mansoni antigen preparation was obtained by extraction of adult worms with a 3 M KCl solution. An indirect immunofluorescence reaction on cryostat sections of adult worms showed that the extracted antigens mainly originated from the tegument. The complex antigenic composition of the tegument extract was shown by immunoelectrophoresis against serum from infected mice and immunized rabbits, which gave up to 9 and 17 precipitation lines, respectively. When we compared the use of adult worm antigens and the tegument antigen preparation in the DASS and ELISA tests for immunodiagnosis of human schistosomiasis, the average sensitivity of the tests with the two preparations was about equal, although considerable differences between individual sera occurred. Analysis of tegument antigens, fractionated by gel filtration, showed that the main serological activity of the tegument antigen preparation was due to high molecular weight antigens.     

Leishmania amazonensis: humoral response to amastigote excreted-antigens in murine leishmaniasis

With the purpose of studying the antigenic role that factors excreted by Leishmania amastigotes might have during murine infection, immunoblots were carried out with sera from C57BL/6 and BALB/c mice infected with two strains of Leishmania (L.) amazonensis, NR and IFLA/BR. Both strains differ widely in virulence in BALB/c mice. BALB/c but not C57BL/6 sera recognized several excretion products. The excreted antigens showed a strong response towards IgG1 and IgG2a isotypes whilst they reacted only weakly against IgG2b and IgG3. A low-molecular weight antigen (about 20 kDa) excreted by both Leishmania strains was strongly recognized by IgG1 from BALB/c mice sera infected with IFLA/BR, the most virulent strain. Sera from NR infected mice were incapable of recognizing this antigen in spite of its presence in NR excreted products. The results indicate that the humoral immune response to excreted antigens of amastigotes depends on both the host genetic background and the parasite strain.     

Ultrastructural localization of Sm15 and Sm25, two major tegumental adult worm antigens of Schistosoma mansoni.

Sm15 and Sm25 are two of the principal tegumental antigens recognized by antibodies from mice protectively vaccinated with adult worm tegumental membranes and may therefore be potential vaccine candidate antigens. Using antibodies affinity purified from anti-tegumental membrane anti-sera, and antibodies raised against the recombinant antigens, Sm15 and Sm25 were shown to be located specifically in the tegument of adult worms being distributed throughout the syncitium but not associated with the outer membrane.     

Antigenic community between Schistosoma mansoni and Biomphalaria glabrata: on the search of candidate antigens for vaccines

We have previously confirmed the presence of common antigens between Schistosoma mansoni and its vector, Biomphalaria glabrata. Cross-reactive antigens may be important as possible candidates for vaccine and diagnosis of schistosomiasis. Sera from outbred mice immunized with a soluble Biomphalaria glabrata antigen (SBgA) of non-infected B. glabrata snails recognized molecules of SBgA itself and S. mansoni AWA by Western blot. Recognition of several molecules of the SBgA were inhibited by pre-incubation with AWA (16, 30, 36, 60 and 155 kDa). The only specific molecule of AWA, inhibited by SBgA, was a 120 kDa protein. In order to determine which epitopes of SBgA were glycoproteins, the antigen was treated with sodium metaperiodate and compared with non-treated antigen. Molecules of 140, 60 and 24 kDa in the SBgA appear to be glycoproteins. Possible protective effects of the SBgA were evaluated immunizing outbred mice in two different experiments using Freund's Adjuvant. In the first one (12 mice/group), we obtained a significant level of protection (46%) in the total worm load, with a high variability in worm recovery. In the second experiment (22 mice/group), no significant protection was observed, neither in worm load nor in egg production per female. Our results suggest that SBgA constitutes a rich source of candidate antigens for diagnosis and prophylactic studies.