Genetic control of murine immune responses to larval Dirofilaria immitis

Previous studies have demonstrated that BALB/c mice, immunized against infection with Dirofilaria immitis, were capable of killing a significant percentage of challenge larvae found within diffusion chambers. The percentage of larvae killed by immunized mice was, however, less than in immunized dogs and unlike immunized dogs, mice were unable to retard the development of the surviving larvae. The objective of the present study was to test 3 inbred strains of mice to determine whether a higher level of protective immunity would develop in these hosts and if larval growth retardation would occur. DBA/2J and C57BL/6J mice and their F1 hybrids B6D2F1/J were used in these studies; it was determined that there were differences in susceptibility among the 3 strains but no difference in ability to eliminate larvae from challenge infections. Growth retardation was seen in larvae recovered from immunized DBA/2J and C57BL/6J mice but not in B6D2F1/J. No difference was noted between immune and control mice in the cell types found in the diffusion chambers. The predominant cell types seen were mononuclear macrophages, multinucleate syncytial cells, and neutrophils. Antibody responses to soluble third- and fourth-stage larval antigens and larval excretory/secretory antigens were measured. Although antibodies to all 3 antigen groups were found in higher concentrations in immunized mice than in their respective controls, only antibody responses to soluble L-3 antigens provided a clear correlation with protective immunity.     

Induction of protective immunity against Schistosoma mansoni by a non living vaccine. I. Partial characterization of antigens recognized by antibodies from mice immunized with soluble schistosome extracts

A single intradermal injection of frozen and thawed schistosomula in conjunction with the bacterial adjuvant Mycobacterium bovis strain Bacille Calmette Guerin, Phipps substrain (BCG) induced significant levels of resistance to challenge Schistosoma mansoni infection in C57BL/6 mice. Immunization with the aqueous fraction remaining after 100,000 X G centrifugation of the larval lysate was also protective under these conditions, suggesting that some immunogenic determinants may not be membrane associated. Frozen-thawed cercariae and soluble components of adult worms also protected against challenge infection in these experiments. These observations indicate that soluble immunogens are present in both early and late developmental stages of the parasite, and therefore may be good candidate antigens for an immunochemically defined vaccine against schistosomiasis. Induction of humoral reactivity against soluble or membrane antigens was examined in mice protected against cercarial challenge by prior exposure to frozen-thawed larvae, soluble larval, or soluble adult antigens plus BCG. Animals that were immunized with frozen-thawed larvae produced low but significant levels of antibodies against larval surface antigens when examined by indirect immunofluorescence or by immunoprecipitation of surface-labeled schistosomula. Mice immunized with soluble antigens, however, showed negligible antibody reactivity against surface membrane antigens. Because mice immunized with soluble antigens were resistant to challenge infection, these results strongly suggest that anti-surface membrane reactivity is not required in the mechanism of protective immunity in this model. Sera from mice immunized with either total freeze-thaw larval lysate or soluble schistosome extracts all showed strong reactivity against soluble antigens, as detected by ELISA. Western blot analysis showed these antisera to react with a restricted number of high m.w. antigens that were present both in schistosomula and in adult worms. These antigens are therefore likely to play a major role in the development of resistance in this model as immunogens and/or as targets of protective immune response.     

Secretion of anti-parasite substances and leukotrienes from ovine gastrointestinal tissues and isolated mucosal mast cells

The presence of larval migration inhibitory (LMI) compounds in the gastrointestinal mucus of nematode resistant sheep has been shown previously to be associated with increased numbers of gastrointestinal mucosal mast cells (MMC) and globule leukocytes (GL). This experiment was designed to determine if LMI compounds were secreted by MMC/GL in response to nematode antigenic challenge and if so, could secretion account for levels observed in mucus. Rommey sheep were immunized by repeated cycles of infection with Trichostrongylus colubriformis or Haemonchus contortus larvae and anthelmintic treatment. After slaughter, gastrointestinal tissue was taken for examination of histology and mucus anti-parasite activity. Segments of small intestine were ligatured to form sacs which were incubated with exsheathed nematode larvae or larval excretory/secretory antigens. Tissue slices from small intestine or abomasum were also incubated with nematode larvae or antigens. After homologous challenge, levels of leukotrienes secreted into small intestinal tissue sacs were significantly higher than levels in heterologously challenged sacs or unimmunized sheep intestinal sacs challenged with larvae of any nematode species (279.4±33.7, 141.0±27.8 and 39.5±15.2 ng h⁻¹ respectively). Tissue slices gave a similar pattern of leukotriene secretion. LMI activity was also significantly elevated in intestinal sacs from immunized sheep challenged homologously with nematode larvae or antigen (64±10 and 68±14% respectively cf. heterologous challenge 32±10% and unimmunized sheep sacs 15±6%). Histological examination of abomasal and small intestinal sections showed that immunized sheep had significantly greater numbers of MMC/GL than unimmunized sheep. MMC/GL isolated and purified from immunized sheep secreted leukotrienes and compounds having LMI activity when cultured with homologous nematode larvae or antigens. Secretion of leukotrienes and molecules having LMI activity from MMC/GL could account for the levels of these substances observed in small intestinal mucus.     

Induction of protective immunity against Schistosoma mansoni by a nonliving vaccine is dependent on the method of antigen presentation

A preparation of nonliving parasite antigens containing both soluble and particulate components of frozen-and-thawed invasive larvae was used to immunize C57BL/6J mice against challenge Schistosoma mansoni infection. The method of antigen presentation was observed to be critical to the ability of this preparation to induce protective immunity, because intradermal administration in conjunction with a bacterial adjuvant (BCG) resulted in strong protection against challenge parasites (51% reduction in worm burden in six experiments), whereas i.v. injection of the same antigenic preparation was completely ineffective. Induction of resistance was accompanied by specific immune responsiveness toward schistosome antigens. Protection correlated more closely with sensitization for specific delayed hypersensitivity than with elicitation of circulating antibodies to larval surface antigens or immediate hypersensitivity in these models. These results suggest that it will be possible to design a defined vaccine against S. mansoni infection, but that identification of the route of antigen presentation that most effectively elicits relevant immune effector mechanisms will be crucial to the success of any vaccination protocol involving nonliving antigens.     

Immunological aspects of murine infection with the rat nematode Strongyloides ratti Sandground, 1925

In a study of the immune response of the rat to infection with the nematode Strongyloidis ratti, the antigens of the infective larval stage (L3) and of the parasitic, parthenogenetic female (Fp) were investigated. From both the larvae and the adult females, one metabolic (exoantigen) and two somatic antigens were extracted. Of the two somatic antigens, one was soluble and obtainable by physical means while the other was separated by chemical means from the tegument of the parasite. Humoral responses to the various antigens were evaluated by immunodiffusion and ELISA techniques, while the overall immune response was assayed by the worm burden in the immunized and subsequently infected rats. Agar-gel double diffusion yielded precipitin bands only with larval somatic antigens. ELISA proved positive at a titer of 20,000 with larval metabolic antigen and sera of rats immunized against either larval metabolic or somatic antigens. By 20 days post challenge infection, however, this titer diminished to 4000. In vivo studies of worm burden in rats immunized with the various antigens and then exposed to the live L3 of the nematode showed that there were significantly fewer adult worms in the rats immunized with larval somatic antigen and adult metabolic antigen than in those immunized with adult somatic antigen or larval metabolic antigen.     

Immunoaffinity-isolated antigens induce protective immunity against larval Strongyloides stercoralis in mice

The objective of this study was to identify soluble protein antigens that would induce protective immunity against infective-stage larvae (L-3) of Strongyloides stercoralis in mice. Deoxycholate (DOC)-soluble proteins derived from L-3, adsorbed to aluminum hydroxide, induced protective immunity in BALB/c mice. The immunized mice generated parasite-specific IgG that could transfer passive immunity to na?ve animals. The protective antibodies bound to parasite antigens found in the muscles and nerve cords of the L-3. An IgG affinity chromatography column generated with IgG from the sera of DOC-immunized mice was used to purify specific larval antigens. Proteins were eluted from the affinity column with sizes of 80, 75, 61, 57, 43, and 32 kDa. This antigen pool stimulated both proliferation and IL-5 production by splenocytes recovered from mice immunized with live L-3. Vaccination of mice with the immunoaffinity-isolated antigens led to significant protective immunity, with 83% of challenge larvae killed. This study demonstrates that IgG-isolated proteins are candidate antigens for a vaccine against larval S. stercoralis.     

Taenia taeniaeformis: immunoprecipitation analysis of the protein antigens of oncospheres and larvae

Biosynthetically or exogenously labeled proteins and immunoprecipitated protein antigens of established 28-day-old larvae of Taenia taeniaeformis were compared with proteins and antigens of infective oncospheres using single and two-dimensional gel electrophoresis. Immunoprecipitation was carried out using sera from infected mice and mouse antisera raised to larvae or oncospheres, and emphasis was placed on identifying antigens common to both oncospheres and larvae. Two major larval antigens of Mr 40,000 and 200,000, designated Tt40 and Tt200, are common to somatic larval preparations and oncospheres. Additionally, two major oncosphere antigens of Mr 55,000 and 60,000, designated Tt55 and Tt60, are also present in larval excretory and secretory (i.e., ES or exoantigen) products. Information obtained from these immunoprecipitation analyses will facilitate isolation and production of common as well as stage-specific protein antigens in the development of defined-antigen vaccines in this model system of cysticercosis.     

The skin-reactive antigens of Mycoplasma pneumoniae.

Guinea pigs experimentally infected with Mycoplasma pneumoniae or immunized with the orgnaism in combination with Freund's complete adjuvant developed a delayed hypersensitive skin reaction following on intradermal injection of the M. pneumoniae antigen. The amount of protein necessary to produce the delayed skin reaction was as low as 0.01 mug. When the sonicated whole cells were extracted with aqueous acetone, the delayed skin reactivity was found mostly in the acetone insoluble (lipid-depleted) fraction. On the other hand, the lipid fraction which was isolated by a chloroform-methanol extraction of the acetone-soluble fraction and had a high titer of complement-fixing activity, exhibited little delayed skin reactivity. The lipid-depleted antigens as the whole cell antigens produced delayed skin reactivities in human patients.     

Protective immunity against Brugia malayi infective larvae in mice. II. Induction by a T cell-dependent antigen isolated by monoclonal antibody affinity chromatography and SDS-PAGE

A mAb directed against filarial worm secretory/excretory product and reactive with Brugia malayi larval worm surface was used in conjunction with preparative SDS-PAGE to isolate protective Ag from extracts of adult B. malayi. The IgM mAb OVH bound to a repeating carbohydrate epitope present in adult, infective, and fourth stage larvae and microfilariae of B. malayi, and on the surface of fourth stage larvae. Ag bearing this epitope were also present in the sera of hosts infected with a variety of helminths, including Brugia, Onchocerca, Dirofilaria, and Paragonimus. Affinity chromatography of SDS extract of adult Brugia, using mAb OVH immobilized on agarose beads, isolated several Ag that separated into multiple protein staining bands on SDS-PAGE. In comparing SDS-PAGE-fractionated Ag from the crude SDS extract with fractionated mAb OVH-isolated Ag for the ability to protect BALB/c mice from challenge with B. malayi-infective larvae, it was found that of the mAb OVH-isolated Ag only those at a molecular mass of 26 to 32 kDa were protective while the original SDS extract yielded protective Ag at the following molecular mass: greater than 200, 170 to 200, 40 to 44, 33 to 36, 23 to 28, 20 to 22, and 17 to 19 kDa. Although Ag isolated by mAb OVH were highly protective, they failed to induce high antibody levels against the immunogen or SDS extracts compared to crude SDS extract immunized mouse sera, as determined by immunoblot and ELISA. Transfer of nylon wool non-adherent T cells from BALB/c mice immunized with the 26- to 28-kDa fraction of mAb OVH-isolated Ag to naive mice just before challenge with infective larvae of B. malayi resulted in a 70% reduction in larvae recovered 14 days after challenge.     

A cell-free culture system for development of large numbers of Brugia pahangi larvae.

Techniques used in the in vitro culture of massive numbers of Brugia pahangi third-stage larvae (L3) are described. Procedures for larval preparation and four culture conditions, with or without animal cell co-cultures, were studied, resulting in the adoption of a relatively simple cell-free culture system for routine harvesting of larval moulting excretory/secretory product.     

Immunization of sheep with larval antigens of Lucilia cuprina

Sheep were immunized with antigens extracted from third-instar larvae of L. cuprina. This procedure produced substantial titres of circulating antibody as measured by solid-phase radioimmunoassay or immunodiffusion or by both techniques. However, immunization did not confer protection against subsequent implant challenge with first-instar larvae. In vitro studies indicated that pooled sera from immunized sheep (mean immunodiffusion titre = 3) significantly reduced larval survival. Antigen specificity and the modulating effects of concomitant humoral responses to larval challenge are discussed in relation to the findings.     

Ascaris suum: development of intestinal immunity to infective second-stage larvae in swine

The development of protective immunity to Ascaris suum was examined in pigs naturally exposed to eggs on a contaminated dirt lot. Pigs became almost totally immune to second-stage larvae migrating from the intestines because few larvae from a challenge inoculum could be found in the lungs, and liver white-spot lesions (an immunopathologic response to migrating larvae) were absent. Blood from these pigs contained lymphocytes that responded blastogenically to larval antigens in vitro, while the serum contained antibody to larval antigens. Immunity was related to parasite exposure and not to the age of the host, and was not affected by the removal of adult A. suum from the intestines. Naturally exposed pigs responded to a variety of A. suum antigens with an immediate-type skin reactivity, and their intestinal mucosa contained relatively large numbers of mast cells and eosinophils. Other pigs were maintained on a dirt lot not contaminated with A. suum eggs and the effects of common environmental conditions on development of resistance to A. suum were studied. Resistance also developed in these pigs because 72% fewer larvae were detected in their lungs following a challenge exposure than in control pigs confined indoors on concrete floors and challenged similarly. This response was not expressed at the intestinal level, however, because their livers had numerous, intense white-spot lesions. To verify that the intestinal immunity that developed in pigs after natural exposure to A. suum was a direct result of homologous infection and not related to other stimuli encountered on a dirt lot, pigs maintained indoors on concrete floors, free from inadvertent helminthic infection, were inoculated orally with A. suum eggs daily for 16 weeks. Intestinal immunity was induced because larvae from a challenge inoculum were not detected in the lungs, and few white-spot lesions appeared on the livers of these pigs. Apparently, continual exposure of the intestinal mucosa to larvae eventually elicits the appropriate effector components necessary to prevent larval migration from the intestines.     

Glycans as targets for monoclonal antibodies that protect rats against Trichinella spiralis

We have investigated the role of glycans on Trichinella spiralisantigens in recognition by rat monoclonal antibodies (mAbs)which protect rat pups against challenge with the parasite.In pups born to infected dams or pups passively immunized withmAbs, antibodies eliminate a challenge dose from the intestinewithin hours (‘rapid expulsion’). Because such dramaticprotection can be afforded by mAbs, we have sought to characterizethe parasite antigens they target In this report we show thatprotective antibodies were unable to bind excretory/secretory(ES) antigens de-glycosylated with trifluoromethanesulphonicacid (TFMS). In addition, oligosaccharides isolated from glycoproteinsby alkaline hydrolysis or peptlde: Nglycosidase F (PNGase F)digestion were bound by protective, but not non-protective,mAbs. Glycans affinity purified with protective mAb 9D boundto all but one protective mAb. These antibodies have been shownpreviously to bind to the surfaces of intact larvae, indicatingthat the glycan is exposed on the parasite surface. Candidateglycans that may be involved in binding protective mAbs haveunusual tri- and tetra-antennary structures with terminal tyvelosemoieties (Reason et al., Glycobiology, 4, 000-000, 1994). Coatingof the larval surface with such glycans may serve to protectthe parasite and its secreted products from enzymatic attackas the parasite travels to and resides in its epithelial niche. glycans protective antibodies Trichinella spiralis     

Active and passive immunization of mice against larval Dirofilaria immitis

The objective of this study was to determine if Dirofilaria immitis larvae would survive in diffusion chambers implanted in dogs and mice and secondly to determine if mice could be immunized against infection with D. immitis. Dirofilaria immitis third-stage larvae (L3) survived and grew in diffusion chambers implanted in dogs and mice for at least 3 wk. BALB/c mice, which were repeatedly infected with live L3, showed resistance to challenge infections. Dead L3, with or without adjuvants elicited no protective immunity. A correlation was found between the degree of immune protection seen in mice and antibody levels to soluble larval antigen but not to antibody levels to surface antigens. A monoclonal antibody was prepared that reacted with the surface of D. immitis and Onchocerca lienalis L3, but not to the surfaces of other stages and species of various filarial worms. When this antibody was administered to mice prior to challenge no significant reduction in larval survival was observed.     

Fasciola hepatica: attempts to induce protection against infection in rats and mice by injection of excretory/secretory products of immature worms

In vitro excretory/secretory products of 4-week (immature) and 8-week-old (mature) Fasciola hepatica parasites, derived from rats, were injected together with adjuvant into naive rats and mice. Resistance to infection was assessed in rats by counting adults in the bile ducts at 9 weeks, or in mice by recording deaths after oral challenge with a high dose of viable metacercariae. Exposure of rats to excretory/secretory products of immature F. hepatica conferred a significant degree of resistance which was comparable to the level of resistance induced following oral administration of a low number of metacercariae. No protection against infection was seen in rats injected with excretory/secretory products from mature, bile duct-derived worms. In mice, no obvious mouse strain variation in susceptibility to first infection existed and hypothymic nude mice were as susceptible to infection as intact mice. As determined by protection against death, vaccination with excretory/secretory products derived from immature F. hepatica was without effect in mice. It is concluded that "host protective antigens", at least for rats, were present in the excretory/secretory products of immature F. hepatica larvae.     

Trichinella spiralis: Immunization of rats with an antigen fraction enriched for allergenicity

Trichinella spiralis whole muscle larval extract was fractionated by gel filtration and anion-exchange chromatography, and the protein fractions were assayed for allergenicity by a footpad-swelling test in mice; IgE antibody levels in rats immunized with the fractions were determined by passive cutaneous anaphylaxis test in rats. By these methods, an allergenic fraction from T. spiralis was isolated. The fraction, F1-b, was shown to be monodisperse by analysis with SDS-PAGE, IEP, and isoelectric focusing, indicating that it is a single protein moiety with a molecular weight of approximately 45,000 and a pI of approximately 5.1. The Schiff-periodate test showed Fl-b to be a glycoprotein. Rats immunized with Fl-b had significantly fewer intestinal worms than did nonimmunized controls at 24 hr and 7 days after oral challenge with T. spiralis larvae.     

Schistosoma mansoni: Use of antigens from excretions and secretions in immunodiagnosis

The use of antigens from excretions and secretions (ESA) of Schistosoma mansoni in two immunodiagnostic tests, the enzyme-linked immunosorbent assay (ELISA), and the defined antigen substrate spheres (DASS) system, has been extensively investigated. In comparison with total adult worm antigens (AWA), the sensitivity of the DASS tests remained the same, while that of the ELISA increased slightly when ESA was used. For further analysis, the ESA preparation was fractionated according to molecular weight, by gel filtration. The humoral immune response of immunized rabbits, infected mice, and humans to each of these molecular-weight fractions was determined by incubating an equal, nonsaturating amount of each ESA fraction in a double-antibody sandwich system, using Sepharose beads as a carrier. The humoral immune response of rabbits immunized with ESA was primarily directed against antigens with molecular weight between 50,000 and 70,000. In contrast, immunoglobulins from sera of infected mice or humans, reacted well with antigens from a large molecular-weight range. Screening of a large number of sera for the presence of specific antibodies is most conveniently executed with tests in which antigens, instead of antibodies, are bound to a matrix. However, binding of antigens to Sepharose beads or polystyrene microtiter plates was shown to decrease considerably with decreasing molecular weight of the antigen. Therefore, of all ESA fractions, those containing the high-molecular-weight antigens (MW > 200,000) gave the most sensitive DASS and ELISA tests. These high-molecular-weight excretory and secretory antigens, in contrast to a total-worm homogenate, and excretory and secretory antigens with a molecular weight lower than 200,000, possessed a high specificity for S. mansoni. The specificity of the high-molecular-weight preparation was shown to be mainly due to the presence of the circulating anodic polysaccharide antigen, since removal of this antigen by immunoadsorption led to a considerable decrease in specificity.     

The Skin-Reactive Antigens of Mycoplasma pneumoniae

Guinea pigs experimentally infected with Mycoplasma pneumoniae or immunized with the organism in combination with Freund's complete adjuvant developed a delayed hypersensitive skin reaction following on intradermal injection of the M. pneumoniae antigen. The amount of protein necessary to produce the delayed skin reaction was as low as 0.01 μg. When the sonicated whole cells were extracted with aqueous acetone, the delayed skin reactivity was found mostly in the acetone insoluble (lipid-depleted) fraction. On the other hand, the lipid fraction which was isolated by a chloroform–methanol extraction of the acetone-soluble fraction and had a high titer of complement-fixing activity, exhibited little delayed skin reactivity. The lipid-depleted antigens as the whole cell antigens produced delayed skin reactivities in human patients.     

Trichinella spiralis: immunization of mice using monoclonal antibody affinity-isolated antigens

An antigen epitope was identified from the excretory-secretory products of Trichinella spiralis first-stage larvae using monoclonal antibodies, and the glycoprotein antigens bearing this epitope (Ts.49 and Ts.53) were isolated from the crude excretory-secretory preparation by affinity chromatography. In immunization experiments carried out in mice, antigen priming with Ts.49 and Ts.53 resulted in a reduction of muscle larvae resulting from a challenge infection at a level comparable to priming with crude excretory-secretory antigens. In addition, antigens Ts.49 and Ts.53 induced an accelerated expulsion of adult worms from the intestines of immunized mice and reduced the fecundity of remaining female worms.     

Strongyloides stercoralis: antigenic analysis of infective larvae and adult worms

The protein composition of Strongyloides stercoralis infective larvae and adult worms solubilized sequentially in water, sodium deoxycholate and sodium dodecyl sulphate (SDS) and their excretory/secretory products were analysed by one- and two-dimensional SDS-polyacrylamide electrophoresis. These extracts were demonstrated to be complex mixtures containing many proteins, some of which were common and others which were stage-specific. Western blot analysis of these antigens with infected human sera showed most sero-reactivity against larval antigens, whilst normal human sera were unreactive. These data identify immunogenic antigens which may be available for detection in an antigen assay.