Identification and partial characterization of a parasite antigen in sera from humans infected with Wuchereria bancrofti

The purpose of this study was to identify and characterize soluble parasite antigens present in sera from humans infected with the filarial nematode Wuchereria bancrofti. Affinity chromatography and immunoblot methods were used to demonstrate a 200,000 m.w. circulating parasite antigen in sera from infected humans which corresponded to an antigen released by adult W. bancrofti during in vitro culture. Two monoclonal antibodies were produced to this antigen by immunizing mice with antigens from Dirofilaria immitis, a filarial parasite that is closely related to W. bancrofti, and screening cell fusion supernatants by enzyme immunoassay and counterimmunoelectrophoresis inhibition. The antibodies bound to a single repeated epitope (not phosphorylcholine) that was resistant to heat, acid, and protease treatments but sensitive to periodate oxidation. Immunoperoxidase studies showed that the epitope was concentrated in the cuticle and reproductive organs in D. immitis, and it was released in relatively large amounts by adult female D. immitis in vitro. The epitope is also present in antigens of other species of filarial and nonfilarial nematodes, but on the basis of preliminary studies, its presence in human serum appears to be specific for W. bancrofti infection.     

Monoclonal antibodies to parasite antigens found in the serum of Dirofilaria immitis-infected dogs

We recently reported that parasite antigens are detectable in the serum of Dirofilaria immitis-infected dogs by counterimmunoelectrophoresis (CIE). Hybridoma cell lines that produce monoclonal antibodies specific for these antigens were obtained by immunizing mice with a partially purified antigen preparation, fusing spleen cells with SP-2 myeloma cells, and screening cell culture supernatants for antibody by ELISA and CIE inhibition. Antibodies specific for two epitopes shared by the two major circulating parasite antigens were identified. Immunoperoxidase studies showed that the epitopes recognized by the monoclonals were widely distributed in D. immitis, but the female uterus and eggs were particularly strongly labeled. A monoclonal antibody-based ELISA was developed to measure parasite antigens in dog sera. Parasite antigens were detected in 45 of 46 sera from infected dogs but were absent in sera from uninfected dogs and sera from dogs infected with Dipetalonema reconditum. Serum antigen content was significantly correlated with the number of female worms recovered from infected dogs (r = 0.82, p less than 0.001). Antigenemia was first detected 6 mo after infection, and antigen levels remained fairly stable between 9 and 21 mo after infection. Parasite antigen detection with this monoclonal antibody-based ELISA appears to be superior to previously described diagnostic methods for canine dirofilariasis in terms of sensitivity, specificity, and relation to infection intensity.     

Use of parasite antigen detection to monitor the success of drug therapy in Dirofilaria immitis-infected dogs

Recently the authors developed a monoclonal antibody-based enzyme immunoassay for circulating Dirofilaria immitis antigen and demonstrated its utility as a diagnostic tool for canine dirofilariasis. In the present study, serum parasite antigen measurements were used to monitor the success of thiacetarsamide therapy in 2 controlled trials that involved 24 naturally infected dogs. Parasite antigen levels correlated significantly with adult worm burdens in untreated control dogs. Antigen levels fell dramatically by 8 wk after treatment in successfully treated dogs and were undetectable 12 wk after treatment in dogs that were parasitologically cured. Microfilarial counts exhibited seasonal periodicity in both treated and control dogs and were not useful in monitoring the success of adulticide therapy. Parasite antigen detection is quite useful in monitoring the efficacy of adulticide therapy for dogs infected with D. immitis. This approach may lead to improved clinical use of thiacetarsamide, and it should facilitate evaluation of new drugs for this important infection.     

Immunisation of mice with fractions derived from the intestines of Dirofilaria immitis

Antigens that are not normally seen by the host but that are nevertheless, accessible to host immune effector molecules and cells such as the native endoantigens associated with the intestinal epithelium of haematophagous tissue-dwelling parasites, could be potentially useful vaccine antigens. In this study, intestines were dissected from adult Dirofilaria immitis, homogenised, and a 105,000 x g pellet obtained and extracted with Triton X-100. The soluble 105,000 x g supernatant from this extract induced partial protection (51%) against a challenge infection of third stage larvae (L3) implanted in micropore chambers. Sera from mice immunised with this soluble detergent extract reacted with proteins ranging in size from 38 to 130 kDa. Immunolocalisation studies indicated the mouse sera reacted primarily to the lumenal surface of the intestines of adult D. immitis, though reactivity to the lateral nerve/epithelial chords, hypodermis and reproductive tracts was also noted, indicating the presence of shared antigens. Tissues of L3s were also recognised by the immunised mouse sera. These mouse sera did not react to a dog blood fraction prepared identically to the D. immitis fraction. Only those sera from D. immitis-infected dogs with heavy or long-term infections were reactive to a single 42 kDa protein. After 24 h incubation in fluorescein isothiocyanate-conjugated serum the intestinal tract of Onchocerca volvulus and D. immitis L3 and L4 fluoresced, indicating the serum had been ingested. These data suggest that filarial gut-associated antigens (apart from the single 42 kDa antigen) are not seen by normally infected hosts, that they can be accessible to antibodies and that they can induce an immune response which is partially protective.     

The detection of antibodies in human and animal filariases by counterimmunoelectrophoresis with Dirofilaria immitis antigens.

Counterimmunoelectrophoresis revealed the presence of precipitin antibody in all of 6 dogs and the 1 cat infected with Dirofilaria immitis and in the serum of 17 of 24 individuals living in a setting of hyperendemic subperiodic bancroftian filariasis. Antigens used in the test were prepared from microfilariae and adult male D. immitis. Some humans and animals had antibodies to both antigens while others had antibodies against microfilariae or adult worms only. The presence of soluble circulating antigen was detected in the sera of two dogs with high microfilaraemias.     

Passive transfer of protective immunity to larval Dirofilaria immitis from dogs to BALB/c mice

Protective immunity to larval Dirofilaria immitis has been demonstrated in both the natural host, the dog, and in an experimental host, the mouse. In the present study, sera were collected and pooled from dogs that had been shown to have protective immunity to larval D. immitis. The pooled serum was inoculated into normal BALB/cByJ mice that then were challenged with third-stage larvae (L3) implanted in diffusion chambers. Two weeks postchallenge no significant difference was seen in either parasite survival or growth. Three weeks postchallenge, there was a significant decrease in parasite survival in mice receiving serum from immune dogs. Living larvae recovered at 3 wk postchallenge were significantly shorter than cohorts recovered from control mice. Antibody responses to L3 and forth-stage larvae (L4) surface antigens, to L3 and L4 aqueous soluble antigens, and to an excretory-secretory antigen fraction were measured. Only antibody responses to L3 surface antigens were elevated in the immune serum as compared to controls, thus suggesting a possible role for antibodies with specificity for surface antigens in protective immunity.     

A rapid detection of circulating antigens of Dirofilaria immitis in dogs by a dot enzyme-linked immunosorbent assay

This report describes a dot enzyme-linked immunosorbent assay (Dot-ELISA) for detecting circulating antigens in the sera of dogs infected with Dirofilaria immitis (D. immitis). Circulating D. immitis antigens could be detected in 24 of 25 infected dogs. The remaining animal had two immature worms. However, non-infected dogs and dogs infected with other parasites were all negative. Few cross-reactions to different parasite antigens were observed. The advantages of the Dot-ELISA include; 1) there is no need for pretreatment and dilution of sera and samples could be immediately bound to nitrocellulose paper set into microfiltration apparatus, 2) this assay could be carried out within 2 h at room temperature, 3) the resulting enzyme-reaction could be measured by both visual observation and densitometric reading.     

A rapid detection of circulating antigens of Dirofilaria immitis in dogs by a dot enzyme-linked immunosorbent assay

Abstract This report describes a dot enzyme-linked immunosorbent assay (Dot-ELISA) for detecting circulating antigens in the sera of dogs infected with Dirofilaria immitis (D. immitis) . Circulating D. immitis antigens could be detected in 24 of 25 infected dogs. The remaining animal had two immature worms. However, non-infected dogs and dogs infected with other parasites were all negative, Few cross-reactions to different parasite antigens were observed. The advantages of the Dot-ELISA include; 1) there is no need for pretreatment and dilution of sera and samples could be immediately bound to nitrocellulose paper set into microfiltration apparatus, 2) this assay could be carried out within 2 h at room temperature, 3) the resulting enzyme-reaction could be measured by both visual observation and densitometric reading.     

Increased rat alveolar macrophage expression of functional iNOS induced by a Dirofilaria immitis immunoglobulin superfamily protein.

Dirofilaria immitis is a worldwide filarial nematode causing heartworm disease in dogs and cats. Several mosquito species, which are able to feed both on humans and animals, can transmit this parasite. Inflammatory progression of host tissues induced by parasites are mediated by several molecules, including nitric oxide (NO), which usually exerts deleterious effects on parasites and occasionally on the host. We analyze the in vitro effect of total D. immitis adult worm somatic antigens on na?ve rat alveolar macrophage NO production and further separation of parasite proteins to define specific D. immitis somatic molecules influencing host cell NO secretion. Additionally, we address the possible influence of Wolbachia spp. on the in vitro production of NO by macrophages. Our results demonstrate that D. immitis adult worm soluble antigens are able to specifically induce NO production from host macrophages. Furthermore, we demonstrated that this effect is due to nematode antigens rather than to defined components (LPS and metabolic molecules) derived from its endosymbiont, Wolbachia spp. In addition, we were able to isolate and identify one of the parasite specific components from the DiSo extract, denominated DiID35.3 and putatively belonging to the Immunoglobulin Superfamily Protein (ISP) group, triggering NO release from macrophages in a dose-dependent and specific manner.     

Dirofilaria immitis: identification and characterization of circulating parasite antigens

A method for the identification of circulating parasite antigens in filarial nematode infections was developed using canine infections with Dirofilaria immitis as a model. Filarial antigens ranging in molecular weight from 211 to 13 kDa were extracted from the sera of microfilaremic dogs by a solid phase immunobinding procedure and identified by immunostaining of Western blots. A major antigen of 104 kDa was selected for further characterization. The 104 kDa circulating antigen showed antigenic and biochemical identity with 104 kDa peptides found in extracts of adult male and microfilarial stages of the parasite. The 104 kDa peptide was antigenically stable under a variety of storage conditions. Its potential as a diagnostic target is discussed.     

Brugia malayi: detection of parasite antigen in sera from infected jirds

Sera from Brugia malayi-infected jirds were demonstrated to contain a heat-stable, 95- to 105-kDa parasite antigen by immunoblot with rabbit antibody to the parasite and with a monoclonal antibody that binds to phosphorylcholine. This antigen is a major component of B. malayi adult worm excretory/secretory antigen, and it is present in lavage fluid obtained from ip-infected animals. The antigen was detected by enzyme immunoassay in all sera collected from jirds 9-54 weeks after sc injection with 100 or 300 infective larvae (L3). Parasite antigen titers were higher in animals infected with the higher L3 dose. Antiphosphorylcholine antibodies were present in jird sera for the first 12 weeks after larval injection, but thereafter, antibody titers decreased to undetectable levels. Parasite antigen was not detected by immunoblot or enzyme immunoassay in sera from 21 human subjects with B. malayi microfilaremia. Antigen may be cleared from human sera by antiphosphorylcholine antibodies, which were present in all sera tested. The practical significance of B. malayi antigen detection in the jird is that it provides a sensitive means of noninvasively monitoring the status of infection in this important experimental filariasis model.     

Biochemical and immunologic characterization of a major surface antigen of Dirofilaria immitis infective larvae

A 35 kD major surface antigen of Dirofilaria immitis third-stage larvae was characterized biochemically and immunologically. Living larvae were iodinated by using Iodo-gen, iodosulfanilic acid, lactoperoxidase-glucose oxidase, and Bolton-Hunter reagents. Detergent extracts of larvae labeled by the first three methods showed one major 35 kD component and a number of smaller components of about 6 kD, as analyzed by one-dimensional SDS-PAGE. In contrast, extracts from larvae labeled with the Bolton-Hunter reagent showed multiple bands on gels. The 35kD molecule was shown to be exposed on the larval surface, insofar as it was accessible to trypsin-proteolysis on living radiolabeled larvae. Two-dimensional gel electrophoresis resolved the 35 kD band into two components: a major one with a pI of 3.8, and a minor one of pI 7.3. The lower m.w. bands were resolved into about 12 constituents with pI values from 3.5 to 8.0. Of all these surface molecules, the only one that was antigenic was the 35 kD component. It could be immunoprecipitated with sera from dogs carrying an occult experimental D. immitis infection or with sera from dogs immunized with irradiated third-stage larvae of this parasite. Similarly, sera from rabbits immunized repeatedly with normal unirradiated larvae also precipitated the 35 kD antigen. None of these sera, however, contained detectable antibodies to the surface-labeled low m.w. molecules. Sera from rabbits immunized with D. immitis adult worms and microfilariae precipitated the 35 kD antigen, which is therefore not stage specific. In contrast, sera from dogs experimentally infected with Toxocara canis and Ancylostoma caninum or with Uncinaria stenocephala (a canine hookworm) did not contain antibodies to the 35 kD antigen, but did cross-react with many other D. immitis adult and microfilarial antigens. This molecule may therefore be species specific. Evidence for glycosylation of the 35 kD molecule was not found: it did not bind to peanut, wheat germ, lentil, or Ulex europeus lectins, and its electrophoretic mobility was not altered after treatment with endoglycosidase-F or mild alkali solutions.     

Use of parasite antigen detection to monitor macrofilaricidal therapy in Brugia malayi-infected jirds

Improved methods are needed to evaluate new treatments for filarial infections. We have recently developed a monoclonal antibody-based enzyme immunoassay to detect circulating parasite antigen in sera from Brugia malayi-infected jirds. In the present study, parasite antigen levels were compared to parasitological parameters after treatment of B. malayi-infected jirds with CGP 20376 that has been reported to be active against both microfilariae and adult worms of this parasite. Microfilariae were cleared promptly and permanently after CGP 20376 treatment, and no adult worm was recovered in jirds at necropsy 20 wk after treatment. In contrast, untreated animals had sustained microfilaremia throughout the course of the study, and adult worms were recovered in all control animals (mean worm recovery; 24.3 +/- 7.8 SE). Parasite antigen was present in sera from all infected animals before treatment. Parasite antigen titers in sera were unchanged 5 wk after treatment but fell to undetectable levels in 4 of 6 animals by 20 wk after treatment. Low-level antigenemia was detected in 2 of 6 animals at 20 wk, perhaps suggesting incomplete killing of parasites or incomplete clearance of antigen. Parasite antigen levels were stable throughout the study in control animals. These preliminary results suggest that parasite antigen detection is useful as a means of noninvasively monitoring the efficacy of anti-filarial drug therapy.     

Trichinella spiralis: recognition of muscle larva antigens during experimental infection of swine and its potential use in diagnosis

Longitudinal studies with Trichinella spiralis experimentally infected pigs were carried out to identify muscle larva antigens recognized during infection. This was approached using Western blot analysis and ELISA assays. Immunoblots of sera from experimentally infected pigs using total parasite extracts revealed five principal parasite antigens throughout infection. A similar pattern of antigen recognition was given by sera from backyard pigs in areas of Mexico, some of them endemic for Trichinella. Four of the five antigens recognized (MW 47, 52, 67, and 72 kDa) corresponded to surface/stichosomal antigens purified by monoclonal antibody NIM-M1. In addition, Western blots of excretions-secretions of muscle larva contained three (MW 52, 67, and 72 kDa) of the four surface/stichosomal components recognized by NIM-M1. Affinity-purified surface/stichosomal components, total soluble extracts, and excretory-secretory antigens of muscle larva were then evaluated in ELISA for detection of T. spiralis infections in experimentally infected, noninfected control, and 295 backyard pigs. These assays showed that purified surface/stichosomal components and excretory-secretory antigens increased the specificity of ELISA. These results suggest that muscle larva components purified by monoclonal antibody NIM-M1 are the major antigens recognized during infection of pigs with T. spiralis and therefore potentially useful for diagnosis of swine trichinellosis.     

Identification of Dirofilaria immitis larval antigens with immunoprophylactic potential using sera from immune dogs.

Previous research has demonstrated that dogs that received chemically abbreviated Dirofilaria immitis larval infections were significantly immune to challenge infections. Sera from those immune animals have been effective in passively transferring larval killing and stunting. In the present study, sera from immune and control animals were used to screen various Ag subsets for unique Ag. Through Western blot analysis of larval extracts and excretory-secretory products, and immunoprecipitation of metabolically labeled proteins and larval surface Ag, it was determined that as many as 12 molecules were uniquely recognized by protective immune sera. A 39-kDa molecule was present in both soluble lysates of third- and fourth-stage larvae and larval excretory-secretory products; it was recognized by each of the immune dogs and by none of the infected or uninfected control animals. The 39-kDa molecule appeared to be absent from adults and microfilariae of the parasite. In addition to the unique recognition by immune dog sera, larval stage specificity of this molecule suggests that it may be useful as a vaccine candidate.     

Antigens of Dirofilaria immitis which are immunogenic in the canine host: detection by immuno-staining of protein blots with the antibodies of occult dogs

We describe here the profiles of antigens of Dirofilaria immitis that are immunogenic in dogs. Purebred beagle dogs were inoculated with a standard number of the infective third-stage larvae of the heartworm. Microfilaremia and anti-heartworm antibody levels were monitored by the Knott's test and by ELISA, respectively. Antibody-binding polypeptides were detected by immunoperoxidase staining of protein blots of detergent extracts of adult parasites from SDS-PAGE gels. Densitometric scans of these blots revealed considerable variation in the profiles of dirofilarial antigens detected by the sera obtained at different stages of the infection. Sera obtained during the prepatent phase, i.e., 3 mo post-infection (titer 1:2000), detected antigens of Mr 75, 80, 100, 130, and 200 kilodaltons. In addition to these antigens, sera obtained at the onset of microfilaremia, 6 mo post-infection (titer 1:30,000), detected antigens of Mr 15, 16, 18, 34, and 38 kilodaltons. Protein blots stained with sera from dogs, which subsequently cleared the microfilaremia and in which the infection became occult, showed that most of the antibody reactivities were directed at antigens of Mr 15, 21, and 38 kilodaltons. The variations in the species of molecules detected in sera obtained during the course of an infection seem to reflect fluctuations in the levels of specific antibodies directed at the individual heartworm antigens. We discuss the apparent role that the metamorphic differentiation of the parasite may play in determining the levels of reactivities of these antibodies at specific stages of the infection.     

Circulating parasite antigen in Brugia pahangi-infected jirds

The Mongolian jird is used widely in filariasis research for studies of protective immunity, pathogenesis, and therapy. The purpose of this study was to evaluate parasite antigen detection as a means of noninvasively monitoring Brugia pahangi infection in jirds. A parasite antigen with Mr of 105-110 kDa was identified in sera from i.p.- and s.c.-infected jirds by immunoblot with a monoclonal antibody to phosphorylcholine. The same antibody was used in a direct sandwich enzyme immunoassay to measure antigen in jird sera. Parasite antigen was detectable as early as 2 wk after i.p. or s.c. injection of L3. Antigen titers increased between 2 and 12 wk and stabilized between 12 and 36 wk after infection in s.c.-infected animals. A different pattern was seen in i.p.-infected jirds with antigen titers peaking at 16 wk and falling significantly between 16 and 32 wk after infection. Parasite antigen titers correlated significantly with adult worm infection intensities in jirds with mature i.p. and s.c. infections. Antigenemia was also detectable in sera from jirds after i.p. implantation of adult parasites of either sex. However, antigen was not detected in sera from infant offspring of antigenemic infected mothers. We conclude that parasite antigen detection allows B. pahangi development and survival as well as infection intensity to be monitored in living animals with unprecedented sensitivity and accuracy. This technique should facilitate drug and vaccine studies in this important experimental filariasis model.     

Experimental infection of Dirofilaria immitis in raccoon dogs

Canine heartworm (Dirofilaria immitis) is a nematode that naturally parasitizes in the pulmonary arteries and the right ventricle of domestic dogs (Canis familiaris) as final hosts. Japanese raccoon dogs (Nyctereutes procyonoides viverrinus) also are known to be susceptible to infection by the parasite. However, prevalence of this infection among free-ranging raccoon dogs is low and so is the worm burden. To examine the susceptibility of the raccoon dog to D. immitis infection, 3 raccoon dogs and 2 beagles were inoculated 4 times with 25 third-stage larvae (L3s) of D. immitis at 3-wk intervals. Worms were recovered from 2 raccoon dogs and both domestic dogs. The average percentage of recovery (2.3%) of the raccoon dogs was almost 10 times lower (24.5%) than that of the domestic dogs, but there was no significant difference in the body length of worms recovered from 2 types of hosts. To examine microfilaremia, 2 raccoon dogs were infected with 100 L3s. Microfilaremia was observed for 180 days postinoculation (PI) but disappeared at about 300 days PI. The raccoon dog was mildly susceptible to infection with D. immitis, but surviving worms developed and matured normally.     

Dirofilaria immitis: biochemical and immunological characterization of the surface antigens from adult parasites

The molecules associated with the surface of adult Dirofilaria immitis were identified and characterized employing IODO-GEN-mediated surface labeling methods. D. immitis female and male parasites were found to have a limited number of surface-associated proteins (17.5, 16, and 14.5 kDa) and glycoproteins (49 and 20 kDa) which were readily extracted from parasite homogenates in the absence of detergent. The major surface labeled proteins and glycoproteins were antigenic in rabbits, but appeared to elicit only a weak humoral response in dogs with patent dirofilariasis. In addition, a 10- to 6-kDa surface-associated glycolipid was identified which may form a coat on the outside of the parasite and play a role in immune evasion. In immunoprecipitation experiments, the glycolipid was not recognized by the antibodies from rabbits exposed to the glycolipid or by antibodies in the sera of patently infected animals. The glycolipid and the 14.5-kDa surface protein were selectively released by the adult parasite during in vitro culture.     

Survey of canine heartworm in the city of Recife, Pernambuco, Brazil.

Six hundred and eleven random-source dogs (338 male, 273 female) one year of age or older, from six sections of the city of Recife, Pernambuco, were examined antemortem for circulating microfilariae Dirofilaria immitis and Dipetalonema reconditum adult heartworm (D. immitis) antigen, and examined postmortem for adult heartworms. The prevalence of heartworm infection was 2.3% (14/611), as determined by necropsy for adult worms, and 1% (6/611) had circulating microfilariae of D. immitis; thus, 57.1% of the heartworm-infected dogs had occult infections. The results of serological testing indicated that 1.3% (8/611) of the dogs were positive for adult heartworm antigen. A total of 42 (6.9%) of the dogs had microfilariae of D. reconditum; 40 of these had only D. reconditum and two additional dogs had microfilariae of both species, D. immitis and D. reconditum.