Degenerative changes in lymphatic endothelium of jirds infected with Brugia pahangi

The quantitative changes of cytoplasmic vesicles and vacuoles in lymphatic endothelial cells of the mongolian jirds associated with Brugia pahangi infections were observed by transmission electron microscopy. The present study revealed a decrease in the proportion of cytoplasm occupied by vesicles and in the number of cytoplasmic vesicles in endothelial cells from lymphatic vessels harboring B. pahangi at 3, 4, and 10 mo after infection (3.55, 3.36, and 2.55 vesicles/micron 2, respectively) when compared with cells from uninfected control vessels (7.03 vesicles/micron 2). On the contrary, there was an increase in the area of vacuoles in endothelial cells of jirds at 3, 4, and 10 mo postinfection. The mean +/- SD diameter of vesicles in cells from lymphatic vessels at 10 mo after infection was significantly smaller (78.6 +/- 5.6 nm) compared to vesicles in uninfected vessels (87.5 +/- 9.7 nm).     

Induction of protective immunity to Brugia pahangi in jirds by drug-abbreviated infection.

Protective immunity of homologous challenge infection was examined in jirds after drug-abbreviated infection with Brugia pahangi. Mebendazole (MBZ) treatment at the early prepatent (5-7 weeks of post infection) or the late prepatent (7-9 weeks of post infection) period was highly effective in causing almost complete eradication of the primary infection. After challenge infection, the worm burden was significantly reduced 19% (31.1 in average) and 77% (9.5) to that of the controls (38.8 and 41.7), respectively. The magnitude of eosinophil response paralleled the degree of protection. No or only a few microfilariae were seen after challenge infection in jirds treated during the prepatent periods. They were also resistant to intravenous challenge with the microfilariae of B. pahangi. MBZ treatment at the patent period was, on the contrary, incomplete against primarily infected adult worms, and was not able to induce either significant protection (30.1 vs 33.1 in control) or eosinophil response to the challenge infection.     

Brugia pahangi: infections and their effect on the lymphatic system of Mongolian jirds (Meriones unguiculatus)

Brugia pahangi has been found to be primarily a lymphatic-dwelling parasite in jirds when infections are induced by the subcutaneous injection of infective larvae or by allowing infected Aedes aegypti to feed.Migration to the regional lymphatics occurred as early as 1–4 days. Although some injected larvae remained in the skin for as long as 30 days and some became localized in the heart, lungs, pleural cavity, or peritoneal cavity, about three-fourths of the recovered filariae were found in the regional lymphatics. In contrast, when larvae were injected peritoneally they remained largely in the peritoneal cavity for at least 30 days.The relevant lymphatics and their drainage patterns in jirds have been described.The major pathological changes noted in jirds involved the regional lymphatic vessels and nodes, which were severely affected when they contained dead worms. Pulmonary granulomas due to dead microfilariae and occasionally to dead larvae or adult worms were noted.Observations are included on the susceptibility and course of B. pahangi infections in jirds.     

Brugia pahangi: granulomatous lesion development in jirds following single and multiple infections

The development of adult worm burdens and microfilaremias were determined in jirds which received 2, 3, or 4 subcutaneous inoculations of 50 Brugia pahangi infective larvae. Parasite burdens in multiply inoculated jirds were compared to those in four different groups of jirds which received single inoculations of 50 infective larvae. One of each of these singly inoculated groups was infected on the same day that one of the inoculations was given to the multiply infected jirds. Thus, the duration of the infections in the four groups of jirds receiving one inoculation was 54, 118, 189, and 254 days. The development of lymphatic lesions and granulomatous hypersensitivity to B. pahangi antigen was assessed in all jirds at necropsy. The percentage recoveries of adult worms and their locations did not differ in the singly inoculated jirds with infections of different durations. A protective resistance to reinfection, as measured by adult worm recovery in multiply infected jirds, did not occur. The lymphatic lesion scores and numbers of intralymphatic thrombi was greatest in singly inoculated jirds examined 54 days after infection. Pulmonary granuloma areas around adult filarial antigen coated beads embolized in the lungs of jirds 3 days prior to necropsy were also greatest in singly inoculated jirds examined 54 days after infection. Using criteria of lesion scores and lymph thrombi numbers to assess lymphatic lesion severity, a decrease in lesion severity as well as pulmonary granuloma size around antigen coupled beads was seen by 118 days after infection in singly inoculated jirds.(ABSTRACT TRUNCATED AT 250 WORDS)     

Induction of host resistance to Brugia pahangi in jirds (Meriones unguiculatus) protected by chemoprophylaxis

Jirds were given a chemoprophylactic inoculation of flubendazole (FMBZ) and then five injections of infective larvae of Brugia pahangi whilst still protected by the FMBZ. When the drug was thought to be non-effective the jirds (and controls) were given a challenge infection of B. pahangi larvae. By comparison with control jirds the treated-infected-challenged jirds had 40% fewer adult worms. The control treated-challenged jirds contained mostly sterile female worms showing that they were still partially protected by FMBZ but worms numbers were not significantly reduced as compared with untreated controls.     

Qualitative characterization of antibody responses to single and multiple Brugia pahangi infections in jirds

Antibody responses of jirds, singly and multiply inoculated with Brugia pahangi infective larvae (L3), to soluble somatic extracts of adult parasites were characterized by western blot analysis. Forty-two protein bands ranging in molecular weight from 12 to 160 kDa were recognized by sera from infected jirds. Antibody recognition of individual B. pahangi antigen bands in this assay appears to be independent of antibody enzyme-linked immunosorbent assay (ELISA) titers to crude parasite extract, severity of lymphatic lesions, levels of microfilaremia, numbers of L3 inoculated, or numbers of adult parasites in individual jirds. Antibody recognition of protein bands with molecular weights of 37 kDa, 21 kDa, and 17 kDa, however, did temporally correspond with certain parasitological and pathologic events. Antibody against the 37-kDa protein band first was identified at the onset of patency, reaching a 90% prevalence rate by 90 days postinfection (DPI). The prevalence of this antibody remained high. Antibody recognition of the 21-kDa protein band first occurred at 90 DPI and gradually increased in prevalence during the course of infection temporally similar to the increase in microfilaremia. Recognition of the 17-kDa protein band first occurred at 48 DPI, reached a maximum prevalence of 80% at 90 DPI, and decreased to a minimal prevalence by 160 DPI. Prevalence of antibody responses to the 17-kDa protein band corresponded temporally with the kinetics of the rise and fall of numbers of intralymphatic thrombi. The patterns of antibody response to these 3 bands were similar in both singly and multiply inoculated animals.(ABSTRACT TRUNCATED AT 250 WORDS)     

Comparative susceptibility to anthelmintics of Brugia pahangi in jirds infected by different methods

It is possible to infect jirds with Brugia pahangi by three methods. Infective larvae (L3) can be injected either intraperitoneally (ip), when adults develop in the peritoneal cavity, or sub-cutaneously (sc), when they develop in the lymphatics or the heart and blood vessels associated with the lungs. Alternatively adult worms which have been grown in the peritoneal cavities of jirds can be implanted into the peritoneal cavities of other jirds. This latter system has been widely used for screening for new filaricides. We have compared the activity of 9 macrofilaricidal compounds against these 3 types of infection. Mebendazole and albendazole were more active against implanted adults than against L3 induced adults in the peritoneal cavity. Oxibendazole, flubendazole, CGP24588A and oxfendazole were equally active against both types of worm. CGP20376, Mel Ga and Mel Ni were more active against adult worms derived from inoculated L3 than implanted worms. When comparing intra-lymphatic and ip adults (both derived from L3 infections and in the same jirds) albendazole and CGP20376 were active at the same levels against both types of infection. Mebendazole, flubendazole, oxfendazole, CGP24588A, Mel Ga and Mel Ni were more active against ip adults than intra-lymphatic adults. No drug was more active against intra-lymphatic adults than against adults.     

Delayed macrofilaricidal activity of diethylcarbamazine against Brugia pahangi in Mongolian jirds

The macrofilaricidal activity of diethylcarbamazine (DEC) was confirmed in jirds infected with Brugia pahangi. Seventy jirds were inoculated subcutaneously with 100 infective larvae. At 20 weeks post-infection, the microfilaraemic jirds were divided into two groups, untreated and treated. For the treated group, 200 mg kg(-1) of DEC was injected intraperitoneally for 5 consecutive days. One, 4, 8, 12, 16 and 27 weeks after the final treatment, 4-7 jirds in each group were sacrificed to measure adult worm burdens. The number of adult worms recovered from treated jirds was comparable to controls at earlier necropsy (1 and 4 weeks post-treatment). However, at late necropsy (8 weeks and later) the recovery rate of adult worms in treated jirds was significantly lower than that in untreated controls, indicating an adultcidal effect of DEC. The present study demonstrates that DEC requires 8 weeks to kill B. pahangi adult worms in jirds and that the Mongolian jird is a useful model for screening antifilarial activity.     

Oral transmission of Brugia pahangi and Dipetalonema viteae to adult and neonatal jirds

Sullivan J. J. and Chernin E. 1976. Oral transmission of Brugia pahangi and Dipetalonema viteae to adult and neonatal jirds. International Journal for Parasitology6: 75–78. Confirming previous studies, anaesthetized adult jirds became infected after oral doses of 100 infective larvae of B. pahangi; 4 of 5 jirds became microfilaria-positive and all 5 harbored adult worms. Among 7 unanaesthetized adult jirds similarly exposed, none developed microfilaraemia although 5 each harbored a few adult worms. In these unanaesthetized jirds, presumably, rapid passage of the inoculum through the mouth permitted fewer larvae to penetrate the mucosa, and the rest were probably killed in the stomach. Unanaesthetized 4-day old jirds proved highly and equally susceptible to oral or subcutaneous infection with B. pahangi as indicated by microfilaraemias and large worm-burdens. Direct and indirect evidence suggest that the baby's stomach and small intestine are not inimical to swallowed larvae, thus accounting for the relatively numerous mature worms in the peritoneal cavity. Third-stage larvae of D. viteae, readily infective subcutaneously, succeeded relatively infrequently in maturing when given orally to anaesthetized adult or to unanaesthetized baby jirds. Consistent oral infectivity may thus be a feature of filariae more closely related to B. pahangi.     

Increased susceptibility to infection with Brugia pahangi in aged female jirds (Meriones unguiculatus)

Female Mongolian jirds, Meriones unguiculatus, from 5 age groups of 2, 12, 16, 21, and 28 months, were infected with Brugia pahangi. Infections were followed for 125 days by weekly bleedings beginning 55 days postinoculation. Jirds were then killed and adult parasites recovered. Results showed a significant shortening of the prepatent period in the 12-, 21-, and 28-month-old groups. The proportion of gravid female worms did not vary significantly among the 5 groups. Similarly, the ratio of females to male worms showed little variation from group to group. Microfilaremia data for the 5 infection groups show an age-associated increase in numbers of circulating microfilariae. Some individuals in the 28-month group demonstrated 1,500 to 3,000 microfilariae per 0.25 ml peripheral blood, a level that was not approached by young females.     

Induction of protection against Brugia malayi infection in jirds by microfilarial antigens

The development of immunologic methods to reduce transmission of human lymphatic filariasis depends on measures that will enhance the host's ability to eliminate infective larvae, adult worms, or blood-borne microfilariae (mf). The present study was designed to assess the capacity of a crude extract of Brugia malayi mf to decrease the level of microfilaremia and adult worm burden in jirds inoculated with infective larvae, and to identify the filarial antigens that elicit antibody responses in these animals. Thirty weeks after subcutaneous inoculation with 75 infective larvae, 100% of control jirds were patent (i.e., had microfilaremia) compared with 60% of the group immunized with 10 micrograms of crude microfilarial extract (p less than 0.05). In addition, microfilaremia was lower in patent immunized animals compared with controls (p less than 0.05). The mean total number of adult female B. malayi per jird recovered at necropsy in control animals was 16.0 vs 7.0 in immunized jirds (p less than 0.05). Serum of immunized jirds contained anti-mf antibodies with an end titer of 1:8000, a value similar to that of animals with chronic B. malayi infection. Microfilarial antigens of Mr approximately 150,000, 75,000, 42,000, and 25,000 were identified in immunoblotting studies by reactivity with antibodies in sera of immunized jirds. Antibodies induced by immunization with microfilarial extract were not specific for this stage of the parasite life cycle, as jird anti-mf antibodies reacted with a Mr approximately 150,000 and several Mr 50,000 to 110,000 antigens derived from immature and mature adult parasites of both sexes. These data indicate that immunization of jirds with a water soluble microfilarial extract enhances the host's ability to eliminate adult worms and blood-borne mf. The filarial antigens that induce antibodies in immunized jirds have been identified.     

Attempted vaccination of jirds (Meriones unguiculatus) against Brugia pahangi with radiation attenuated infective larvae

Jirds were vaccinated by three to five subcutaneous (SC) injections of infective larvae of Brugia pahangi which had been irradiated at 25, 45 or 90 krads from a 60Co source. They were challenged either SC or intraperitoneally. Vaccination with four doses of 50 larvae irradiated with 25 krads produced 49.3% resistance to IP challenge worms and 39.8% against SC challenge worms. Five doses of larvae irradiated with 45 krads produced 62% resistance to SC challenge. Three doses of larvae irradiated with 90 krads produced 74.9% resistance to SC challenge and five doses produced 76.2% resistance. The reasons why irradiated larvae produce resistance whereas normal larvae do not are discussed.     

Immunoregulation in experimental filariasis. II. Responses to parasite and nonparasite antigens in jirds with Brugia pahangi

Chronic B. pahangi infection (greater than or equal to 5 mo) in the jird, Meriones unguiculatus, leads to the induction of adherent nonspecific suppressor cells that are capable of modulating the in vitro mitogen responsiveness of spleen cells. In the present studies, a correlation between suppression of mitogen responsiveness and lack of reactivity to B. pahangi antigens was observed in vitro with splenic lymphocytes from chronically infected animals. However, the ability of jirds with a chronic B. pahangi infection to develop in vivo humoral responsiveness to SRBC and DTH to DNFB was comparable to that of uninfected controls. Analysis of the relationship between the development of antigen-specific and nonspecific immunoregulatory activity over the course of the infection was undertaken, too. Altered in vitro responsiveness of spleen cells from infected jirds to mitogens and B. pahangi antigens was associated with the onset of microfilaremia (8 wk post-infection). A transient lack of reactivity to SRBC was observed after the development of a patent infection in jirds. However, nonspecific suppressor cells capable of modifying the in vitro mitogen responsiveness of normal lymphocytes were not observed in the spleens of B. pahangi-infected animals exhibiting a lack of reactivity to SRBC. The relationship of antigen-specific suppressor cells to immunoregulation in experimental filariasis is discussed.     

Brugia pahangi: circulating antibodies to adult worm antigens in uninfected progeny of homologously infected female jirds

Serum IgG antibody levels to adult Brugia pahangi antigens were measured in uninfected offspring from uninfected and B. pahangi-infected female jirds. Antibody titers to B. pahangi antigens in sera of offspring from infected females mimicked the maternal titer during the suckling period. Neonate titers peaked at 2 weeks of age at levels as high as 1:4100, then decreased to levels well below maternal titers by 8-12 weeks of age. Concurrent maternal and 2-week-old neonate sera recognized identical B. pahangi antigens in Western blots. Spleen cells from 2-week-old filariae-exposed and unexposed offspring failed to produce measurable antibody to B. pahangi in vitro. Progeny of uninfected mothers nursed by B. pahangi-infected females showed circulating IgG antibody titers to adult worm antigens similar to those of homologously reared offspring. Conversely, offspring born to B. pahangi-infected females and nursed by an uninfected female had no serum antibodies to B. pahangi antigens. Blastogenic responses of spleen cells to the mitogens phytohemagglutinin and pokeweed mitogen, and adult B. pahangi antigens, were not different between offspring groups. Mean areas of pulmonary granulomas induced by the intravenous inoculation of B. pahangi antigen-coated beads also did not differ between 4- and 8-week-old progeny of uninfected or infected females. These results suggest that the circulating IgG antibodies to adult B. pahangi antigens demonstrated in offspring of infected female jirds are maternally derived via the milk and do not alter the cellular responses of uninfected offspring to B. pahangi antigens as measured by antigen-stimulated blastogenesis or pulmonary granulomatous inflammatory response.     

Experimental Brugia pahangi and B. malayi infections of callitrichid primates

The callitrichid primates, Callithrix jacchus jacchus (the marmoset) and Saguinus labiatus (the tamarin) were inoculated with infective larvae of Brugia malayi and B. pahangi. Microfilaraemia at low levels developed in 3 out of 4 C.j. jacchus infected with B. malayi and living or dead adult worms found in all 4. Only one of 4 C.j. jacchus became microfilaraemic (mf + ve) when given B. pahangi and adults were found in two. Of 4 S. labiatus given B. pahangi one became very lightly mf + ve and adults were found in 3. It is concluded that these animals are not suitable hosts for chemotherapeutic experiments.     

Brugia malayi and Brugia pahangi: transmission blocking activity of ivermectin and brugian filarial infections in Aedes aegypti

Brugia malayi- or Brugia pahangi-infected, microfilaremic jirds (Meriones unguiculatus) were treated with ivermectin at a single dose of 200 micrograms/kg body weight, administered subcutaneously. After different time intervals, Aedes aegypti mosquitoes were fed on treated or untreated jirds. Sausage stage, L2, and L3 larvae failed to develop in mosquitoes that fed on jirds from 15 to 30 days post-treatment. After 1 month, the numbers of L3 larvae recovered from mosquitoes fed on treated B. pahangi jirds were comparable to controls. However, the number of L3's recovered from mosquitoes fed on B. malayi jirds remained significantly lower than controls, 2 and 3 months after treatment. This reduction suggests that ivermectin may be more effective in blocking transmission of B. malayi than B. pahangi. Ivermectin treatment had no effect on the mean number of circulating microfilariae in treated jirds. Therefore, mosquitoes ingested comparable numbers of microfilariae when compared to those mosquitoes fed on untreated controls. Only in the case of jirds infected with B. malayi did the circulating microfilarial counts fall 30 days after treatment. The failure of microfilariae to develop to the L3 stage in mosquitoes fed on jirds within 30 days of treatment was not due to failure of mosquitoes to ingest microfilariae. Brugia malayi microfilariae also failed to develop to L3 in mosquitoes that were allowed to feed on microfilaremic jird blood treated with ivermectin (50 ng/ml) in vitro, indicating its efficacy at low concentrations. In addition to N-acetyl glucosamine, microfilariae obtained for a period of 15 days from ivermectin-treated but not control jirds showed D-mannose, N-acetyl galactosamine, and L-fucose moieties on the surface of the sheath.(ABSTRACT TRUNCATED AT 250 WORDS)     

Brugia pahangi: effects of duration of infection and parasite burden on lymphatic lesion severity, granulomatous hypersensitivity, and immune responses in jirds (Meriones unguiculatus)

The effects of Brugia pahangi infection duration and parasite burden on parasite-associated inflammatory and immune responses were determined over a 181-day period in jirds receiving from one to eight inoculations of infective larvae. Multiple infections did not produce a protective resistance to reinfection as determined by adult worm recovery at necropsy. Intralymphatic granulomatous lesions, lymph thrombi, were first seen at 48 days post initial inoculation (DPI). The numbers of lymph thrombi reached peak levels in singly inoculated jirds at 90 DPI and significantly decreased to low levels by 160 DPI. The ratio of lymph thrombi to adult worms recovered from the spermatic cord lymphatics followed a similar pattern. Sizes of renal lymph nodes, which drain lymphatics containing parasites, followed a temporal pattern of increase and decrease similar to that of lymph thrombi numbers. Peak granuloma areas around antigen-coated beads embolized in lungs were seen at 27 DPI. Granuloma areas around antigen-coated beads began to decrease after 69 DPI and reached sizes not significantly different from uninfected controls by 118 DPI. Multiple inoculations of infective larvae and increasing worm burdens did not affect the pattern of granulomatous response to antigen-coated beads. Eosinophilia of singly and multiply infected jirds peaked at 26 DPI. Eosinophilia of singly infected jirds returned to normal levels by 103 DPI but those of multiply infected jirds remained elevated until 160 DPI. Lymph node cell blastogenic responses to antigen were greater than those of splenocytes at all time intervals measured. However, significant differences in stimulation indexes between groups with different infection durations were not seen with either cell type. Antibody responses to somatic adult worm antigen as measured by ELISA reached near peak levels by 48 DPI and remained elevated for the course of the study in all infected jirds. The decrease in lymphatic lesion severity seen in chronically infected jirds temporally corresponds to the decrease in granulomatous reactivity measured around antigen-coated beads embolized in the lungs. This observation suggests that host and/or parasite factors associated with these two phenomena may be similar. Although these decreases may be the result of down-regulated immune responses, corresponding decreases in antibody levels and blastogenesis of lymphocytes stimulated by crude worm extracts were not observed in chronic infections.     

Synthetic pathways of glycerophospholipids in adult Brugia pahangi and Brugia patei

The pathways of glycerophospholipid syntheses in adult Brugia pahangi and Brugia patei were examined by radioisotopic incorporation and demonstration of the enzymatic steps. Radiolabelling studies showed that l-U-¹⁴C-glycerol-3-phosphate was rapidly incorporated into glycerophospholipids of B. pahangi and B. patei, respectively, with the label distributed in phosphatidylcholine (PC), phosphatidylethanolamine (PE), phosphatidylserine (PS), phosphatidylinositol (PI), phosphatidylglycerol (PG) and cardiolipin (CL) fractions. Crude extracts of these worms were found to contain significant activities of sn-glycerol-3-phosphate acyl-transferase (EC 2.3.1.15), phosphatidic acid phosphatase (EC 3.1.3.4), choline phosphotransferase (EC 2.7.8.2), ethanolamine phosphotransferase (EC 2.7.8.1), PE methyltransferase (EC 2.1.1.17), PS decarboxylase (EC 4.1.1.65), phosphatidylglycerolphosphate synthetase (EC 2.7.8.5), phosphatidylinositol synthetase (EC 2.7.8.11), and base exchange enzymes of ethanolamine, serine and inositol. These findings suggest that filarial worms can synthesize PC by two pathways, PE by three pathways, and PI by two pathways and fabricate PS, PG and CL.