Short report: A practical technique for the cryopreservation of Dirofilaria immitis, Brugia malayi, and Wuchereria bancrofti microfilariae

A technique to cryopreserve microfilariae has been developed. This method was used to cryopreserve microfilariae of Dirofilaria immitis, Brugia malayi, and Wuchereria bancrofti at a controlled rate of 1 degree C/min by use of a freezing tank. Microfilariae of each of these species retained their ability to infect susceptible mosquito species and develop to the infective stage after cryopreservation. The method presented here is quickly and easily carried out with inexpensive equipment.     

In vitro development of Brugia pahangi and Brugia malayi in cultured mosquito thoraces.

In vitro cultivation of Brugia pahangi and subperiodic Brugia malayi one-day old larvae to infective stage larvae (L3) within thoraces excised from Aedes aegypti (Black Eye, Liverpool) and Anopheles quadrimaculatus was attempted. The mosquito thoraces were excised under aseptic conditions, 24 h after a blood meal on either B. pahangi- or B. malayi-infected jirds. The excised thoraces were washed aseptically and inoculated into a diphasic media. A nutrient agar base was overlaid with either Grace's insect cell culture medium or Schneider's Drosophila medium or a mixture (1:1) of these two media. Each overlay medium contained a 1 x concentration of antibiotic/antimycotic mixture plus 20% fetal bovine serum. The excised thoraces provided the intracellular milieu for development of Brugia larvae. In Grace's or Schneider's insect tissue culture medium alone, the filaria larvae of both species developed only to the second larval stage after 12 days; whereas, in a mixture (1:1) of Grace's and Schneider's media, some one-day old larvae of both Brugia species developed to the infective larval (L3) stage after 12 days. However, large numbers of both species of larvae developed to the infective larval stage when, prior to providing an infective blood meal, the mosquitoes of both species were fed 1 x concentration of antibiotic/antimycotic mixture in a 10% sucrose solution containing 0.1% p-aminobenzoic acid for 6 days. These results showed for the first time that if one-day old Brugia larvae are confined intracellularly in excised thoraces, they can then develop in insect tissue culture media without adding a feeder layer of mosquito cells or conditioning the media with mosquito cell lines.     

Combined detection of Brugia malayi and Wuchereria bancrofti using single PCR

A single step PCR method has been developed for the combined detection of the human filarial parasites, Brugia malayi and Wuchereria bancrofti. Parasites' DNA were isolated from filaria positive blood samples that were collected from endemic areas. The primers used were Hha1 and Ssp I, which amplified the DNA fragments of 322 bp and 188 bp specific to B. malayi and W. bancrofti, respectively. The sensitivity of the assay was tested with blood and mosquito samples having one W. bancrofti in a pool of 10 B. malayi. The assay was further evaluated on field collected blood and mosquito samples. Use of this assay as a diagnostic tool for the detection of filariasis being the most promising aspect of this study, offers scope for detection of both the parasites even at low levels of infection.     

Development of Brugia malayi in Mongolian gerbils previously exposed to Wuchereria bancrofti

Twelve Mongolian gerbils, Meriones unguiculatus, were infected with 100 third-stage larvae of Wuchereria bancrofti. One month later these animals, along with 4 control animals, were given 100 third-stage larvae of Brugia malayi. Eleven of the 12 experimental animals and the 4 controls survived, and 8 of the experimental animals and all of the controls demonstrated microfilaremia after 3 months. The animals were killed at 6-months post-infection and examined for parasites. One W. bancrofti larva was found in one of the experimental animals, and 15% of the B. malayi given were recovered as adults from the testes, viscera, and carcass. Thirty-eight percent of the worms given to the controls were recovered from the testes, viscera, and pelt. The worms from the experimental animals also appeared to be smaller. This study suggests that gerbils are able to develop partial resistance to Brugia malayi following a previous infection with Wuchereria bancrofti.     

Release of prostaglandin E2 by microfilariae of Wuchereria bancrofti and Brugia malayi.

To elucidate the local release of immunomodulatory prostaglandins by intravascular filarial parasites, the formation of prostaglandin E2 (PGE2) was examined in individual microfilariae of Wuchereria bancrofti and Brugia malayi. Following incubation of living microfilariae immobilized in an agar matrix, prostaglandins released by the parasites were fixed by carbodiimide and localized by indirect immunofluorescence. Prostaglandin E2 was specifically detected around the entire surface of microfilariae with anti-PGE2 antiserum, but not with control nonimmune or PGE2 affinity-immunoadsorbed antiserum. These results provide direct evidence that individual microfilariae of W. bancrofti as well as B. malayi release prostaglandins into their microenvironment. The release of PGE2 by these intravascular parasites may modulate host leukocyte responses, and thereby contribute to the immune defects observed in infected humans with peripheral microfilaremia.     

Diethylcarbamazine: inhibitory effect on acetylcholinesterase of Dirofilaria immitis and Brugia pahangi

Anti-acetylcholinesterase activity of diethylcarbamazine (DEC) was studied. Acethylcholinesterase (AchE) of adult worms of Dirofilaria immitis, those of the 4th-stage larvae, early 5th-stage larvae and adults worms of Brugia pahangi, and that of hamster brain tissue were all inhibited by DEC. Michaelis constant (Km) of D. immitis and B. pahangi adult worm AchE were 1.47 x 10(-4) and 1.81 x 10(-4) M respectively. DEC was a competitive inhibitor of the filarial AchE. Inhibition constant (Ki) for AchE of D. immitis and B. pahangi adult worms were 2.56 x 10(-4) and 6.39 x 10(-4) M, respectively. DEC is a less potent anticholinesterase inhibitor, because Ki of DEC is 10(4) times higher than that of eserine, a potent anti-cholinesterase agent.     

Quantitative aspects of the development of mosquito transmitted Brugia malayi and Brugia pahangi and their distribution in Jirds, Meriones unguiculatus.

Twenty-two jirds, Meriones unguiculatus, were exposed to the bites of 2250 females of Aedes aegypti carrying an estimated total of 2464 larvae of Brugia malayi, and 13 jirds were offered for blood feeding to 1450 mosquitoes infected with about 4460 larvae of Brugia pahangi. On necropsy of the jirds, four months after feeding of the mosquitoes, a total of 88 adult filariae of B. malayi and 143 of B. pahangi were recovered in 20 and 13 jirds respectively. The majority of the adult filariae was obtained from the testes (48,9% of B. malayi and 53,2% of B. pahangi), from the heart-lung-system (26,1% and 45,6%), and additional in B. malayi from the tail (19,3%). It can be estimated that 3,6% (3,2%) of all infective larvae of B. malayi (B. pahangi), carried by Aedes aegypti females before feeding, reached maturity in the jird host after they had left the vectors during the blood meal. Microfilariae were found in the peripheral blood in seven of B. malayi infected jirds and in eleven of the jirds infected with B. pahangi.     

Differentiation of infective larvae of Brugia malayi and Wuchereria bancrofti by scanning electron microscopy

A comparative scanning electron microscopy of the infective (third stage) larva of Wuchereria bancrofti and Brugia malayi revealed the following features: The lateral caudal papillae in both species are rounded and the terminal papilla is relatively pointed and smaller. The caudal papillae in W. bancrofti are more protruding while in B. malayi they are flattened. The lateral caudal papillae in B. malayi have an indentation around their bases which is absent in W. bancrofti. This is the most useful distinguishing feature and easily recognizable. The oral opening and the cephalic papillae in both the species are similar and not useful for differentiation.     

Interaction of monoclonal antibodies with cuticular antigens of filarial parasites, Brugia malayi and Wuchereria bancrofti

Monoclonal antibodies (mAbs) have been prepared against excretory-secretory-metabolic (ESM) antigens of microfilariae (mf) of Wuchereria bancrofti (WbmfESM) and against third stage larvae (L3) of Brugia malayi (BmL3), and purified from ascites fluids with ammonium sulphate. Both antibodies were of the IgM type and did not react with phosphorycholine. The mAb against BmL3 (F46) reacted in ELISA with antigens of L3 of B. malayi, B. pahangi and W. bancrofti and of adults of B. malayi. The mAb raised against wbmfESM (F32) resembled F46 in this respect, though with a lower titer towards the antigens, and in addition reacted with the ESM-antigens of mf and of L3 of W. bancrofti. F46 was able to detect L3 antigens of filarial parasites in spiked serum samples with a detection limit of 8-16 ng in absolute amount. The antibody was found to label the cuticular portion of L3 and adults of the lymphatic parasites, and not the epicuticular surface, in immunoelectron microscopic studies. The antibody recognized a 36 kDa component of the beta-mercaptoethanol extracts of B. pahangi-adults in Western blot analysis.     

班氏丝虫和马来丝虫感染期幼虫体外培养的进一步研究

在4种培养系统中,马来丝虫Ⅲ期幼虫在改良RPMI1640、20%小牛血清和人胚肾细胞系为饲养层的培养系统中生长发育良好,可以从Ⅲ期幼虫蜕皮2次发育到童虫,最长存活时间为54d。在单纯改良RPMI1640、TC199和20％小牛血清中培养,从Ⅲ期幼虫发育到童虫的最长存活时间为42d。班氏丝虫Ⅲ期幼虫在上述2种培养系统中,分别存活57和36d,从Ⅲ期幼虫蜕皮进入Ⅳ期幼虫和童虫。对马来丝虫幼虫体外培养蜕皮时间、虫体大小与沙鼠体内发育情况进行了比较。     

Differential pathogenicity of Brugia malayi, B. patei and B. pahangi in immunodeficient nude mice

Immunodeficient nude mice chronically parasitized by subperiodic Brugia malayi developed an elephantoid appearance with persistent lymphoedema of limbs and massive lymphangiectasis of subcutaneous vessels containing viable adult worms. Removal of worms reversed the process. The syndrome was not caused by B. patei or B. pahangi and was not correlated with the presence or absence of microfilaremia. Histologic examination of elephantoid mice revealed dilated and tortuous lymphatics containing small nonobstructive lymph thrombi composed of small mononuclear cells and multinucleate giant cells. Draining lymph nodes were not enlarged or congested and mast cells in oedematous tissue were not degranulated. Analysis of lymph aspirated from dilated lymphatics showed increased total protein content: bacterial sepsis was not detected. This work suggests that viable adult B. malayi exert direct pathologic effects upon lymphatics and that this parasite is more pathogenic than related Brugia spp.     

Localization and immunogenicity of tubulin in the filarial nematodes Brugia malayi and B. pahangi

Tubulin was identified in the filarial nematodes Brugia malayi and B. pahangi by several approaches. Initially, a monoclonal antibody (6D8) was selected for its unusual binding to B. malayi microfilariae in indirect immunofluorescence assays: 6D8 showed granular, heterogeneously dispersed fluorescence on fixed parasites but did not bind to unfixed microfilariae. The microfilarial sheath did not bind 6D8, although it did bind fluoresceinated wheatgerm agglutinin. By Western blotting against microfilarial sonicate, 6D8 reacted with a 50,000-55,000 mol. wt protein, and also bound to purified chicken brain beta-tubulin. Additionally, this monoclonal antibody reacted with a recombinant fusion protein expressed by a clone (Bpa-7) originally isolated from an adult B. pahangi cDNA expression library by its reaction with chronic human filariasis serum. This clone encodes a small 40 amino acid C-terminal segment corresponding to residues 409-449 of beta-tubulin, and shows complete amino acid sequence homology with vertebrate beta-tubulin from 409 to 430 but 55% divergence (six amino acid substitutions, four insertions and one deletion) from human and chicken beta-tubulin over positions 431-449 at the C terminus. Antibody to both parasite and vertebrate (chicken) tubulin was found in filarial infection sera, with higher levels of autoreactive antibody apparent in amicrofilaraemic individuals. Immunogold electron microscopy was then used to localize beta-tubulin in B. malayi microfilariae and adult worms. Tubulin was shown not to be exposed on the microfilarial sheath or in the cuticle of either stage, but was found to be abundant in the somatic tissues. In microfilariae, 6D8 bound myofibril structures under the hypodermal layer, and also bound within cell nuclei. In the adult stage, tubulin was associated with muscle blocks, as well as the intestinal brush border and the embryonic uterine microfilariae.     

The influence of the gene sb in Culex pipiens on the development of sub-periodic Brugia malayi and Wuchereria bancrofti

The gene sb (filarial susceptibility, Brugia pahangi) in Culex pipiens controls the development also of sub-periodic B. malayi, but has no influence on the development of periodic Wuchereria bancrofti (Ceylon strain). C.p. fatigans (Kuala Lumpur), C.p. molestus (London) and Aedes aegypti (re fm strain) were all susceptible to the Ceylon strain of W. bancrofti, with susceptibility rate of 90.3%, 92.9% and 52.6% respectively. However, a low proportion of the larvae in A. aegypti developed to maturity, and this mosquito is less well adapted to W. bancrofti than is C. pipiens.     

Sensitivity and specificity of skin reactivity to Brugia malayi and Dirofilaria immitis antigens in Bancroftian and Malayan filariasis in the Philippines.

Saline antigen extracts of microfilariae, adult worms and third-stage larvae of subperiodic Brugia malayi maintained in gerbils were prepared for use as skin test reagents. Patients were studied on three different islands in the Philippines, one endemic for Bancroftian filariasis (Sorsogon, Luzon), another endemic for Malayan filariasis (Palawan) and the third without endemic filariasis (Cebu). A dose-response curve was established initially in patients with Bancroftian filariasis: thereafter 1.0 microng of the B. malayi antigens and 0.05 microng of Dirofilaria immitis FST antigen (obtained from Dr. T. Sawada) were used. Sizes of reactions were measured by recording the diameters of wheals at 20 minutes, 24 and 48 hours. There was a very high correlation in immediate hypersensitivity reactions among the three B. malayi antigens. Reaction sizes followed a normal distribution. When an area of an antigen-induced wheal 3 X that of the saline control was considered a positive reaction, 99% of 150 patients with Bancroftian filariasis and 96% of 45 subjects with Malayan filariasis reacted to B. malayi larval antigen. Only 68% of patients with Bancroftian filariasis but 90% of those with Malayan filariasis reacted to D. immitis FST antigen. There was no relationship between skin reactivity and age, sex, microfilaremia or severity of clinical disease. Approximately half of 50 patients who lived in an endemic area for W. bancrofti but had neither patent infection nor clinical disease reacted to B. malayi antigens. A maximum of 7% of 120 age- and sex-matched controls from Cebu gave false positive reactions with any of the antigens. Only a small proportion of patients gave 24- and 48-hour reactions. It is concluded that the use of antigens prepared from a human parasite, subperiodic B. malayi, which is easily maintained in a laboratory animal host, improves the ability to diagnose filarial infections by immunological means.     

Epidemiology of Brugia malayi infection and its co-existence with Wuchereria bancrofti in and around Sillaberia PHC, District Midnapur, West Bengal

Of 2186 persons investigated in thirteen villages of Sillaberia PHC, 19 were found to be infected with Brugia malayi and only one person harboured microfilaria (mf) of Wuchereria bancrofti. Similarly 41 persons exhibited signs and symptoms of chronic filariasis. The mf and disease rates percent worked out to be 0.914 and 1.87 respectively. The earliest ages showing mf and disease manifestations were 3 and 11 respectively. The mean mf density ranged from 2 to 12.2 per 20 cumm of blood. The male and female ratio in terms of mf carriers and chronic cases worked out to be 1.4:1 and 1:2 respectively. The entomological collections revealed a high ten man hour density (163.20) in case of Culex quinquefasciatus and comparatively much lower in case of Mansonia (Mansonioides) annulifera (47.51) and Mansonia (Mansoni oides) uniformis (23.83) respectively. The infection and infectivity rates in case of Mansonia (Mansonioides) annulifera were 6.1 and 1.2 per cent respectively.     

The effect of 5-fluorouracil and 5-fluorocytosine on the development of the filarial nematodes Brugia pahangi and Dirofilaria immitis

5-fluorouracil and 5-fluorodeoxyuridine at 30 mg/kg body weight daily for four days inhibit microfilarial production in Brugia pahangi in the jird. Disruption of intrauterine embryogenesis was observed in treated female worms but the compounds were not macrofilaricidal or microfilaricidal under the conditions employed. 5-fluorocytosine possessed no filaricidal or embryostatic activity. The inhibition of microfilaria production by 5-fluorouracil was temporary and larval production was resumed within nine weeks. The compound also inhibited the development of B. pahangi and Dirofilaria immitis larvae in the mosquito Aedes aegypti, when administered to cages of mosquitoes as a 0.01 or 0.001% solution in a 10% aqueous sucrose solution on cotton wool wicks. The development of infective larvae of B. pahangi in the jird was inhibited by 5-fluorouracil.