Infection of inbred and nude (athymic) rats with Brugia spp.

Summary Infective larvae of Brugia pahangi were injected subcutaneously into inbred PVG (-RIT) rats, and ‘nude’ (PVG -rnu/rnu) (athymic) rats. Adult worms or circulating microfilariae were recovered from 20/34 (59%) of PVG -RTI^C rats and from 30/30 (100%) of ‘nude’ rats. Fertile worms were regularly found in the lumbar lymphatics and hearts of both strains of rat. Blood eosinophilia first developed in PVG -RTI^c rats about 17 days, and in all such animals by 6 weeks. High circulating eosinophil counts persisted only in patent animals, proving a useful hallmark for the presence of microfilariae. Nude rats despite patency, developed eosinophilia only latterly and then to a lesser extent. Specific anti-2?. pahangi IgG antibody was first detected at 7 days in all infected PVG -RTT rats, with levels rising until 8 weeks and remaining high only in microfilaraemic animals; total IgE showed a similar response. Specific IgE rose in all the eight patent rats inconsistently and only to low levels in eight non-patent infected rats. IgG and IgE were undetectable in nude rats. Other strains of inbred rats of different RTI haplotype were also successfully infected with B. pahangi and the human parasite B. malayi, a total of 10/23 (43%) and 5/15 (33%) becoming patent respectively. In the small numbers tested no major influence of RTI haplotype was detected. Infection by the intraperitoneal route did not result in the development of microfilariae. The difference in patency rates between ‘nude’ and normal PVG rats supports the contention that the development of filarial infections is T lymphocyte dependent. Inbred and ‘nude’ rats provide a valuable model of human filariasis, in which many features of filarial immunopathology can be studied.     

IgE responses in cats infected with Brugia pahangi

Passive cutaneous anaphylaxis tests were used to examine the IgE responses of cats repeatedly infected with the filarial nematode Brugia pahangi. Specific IgE was usually detected only in those cats that killed their adult worms and rarely in those cats in which adult worms survived for long periods. We suggest that this specific IgE is actively involved in killing adult worms in the lymphatics.     

Immunity to Brugia pahangi in athymic nude and normal mice: eosinophilia, antibody and hypersensitivity responses

Congenitally athymic nude (nu/nu) mice, immunologically reconstituted by thymus grafting before inoculation with infective larvae, and mice heterozygous for the nu gene (nu/+), mounted potent protective humoral and cellular immune responses to Brugia pahangi. Although responses were not identical, both groups of mice produced IgM, IgG and IgE antibodies specific for adult worm antigen (S-Ag) present in a crude aqueous extract, made immediate and delayed hypersensitivity footpad swelling responses when challenged with S-Ag and eliminated their infection in the early larval stages. Heterozygotes also exhibited a marked eosinophilia which peaked coincident with larval killing. In contrast, thymus grafting of patent nudes had no effect upon microfilaraemias or adult worm burdens and did not completely protect against a challenge larval inoculum although antibodies specific for S-Ag were produced. With the occasional exceptions of moderate immediate footpad swelling and very low titres of IgM specific for S-Ag, no specific immune responses to B. pahangi were found in ungrafted nude mice which allowed full development of adult worms and supported patent infections.     

The BALB/c mouse as a model for immunological studies of microfilariae-induced pulmonary eosinophilia

Tropical pulmonary eosinophilia (TPE) is believed to result from extreme immediate hypersensitivity to microfilariae localized in the pulmonary vasculature of some persons with lymphatic filariasis. Female BALB/c mice repeatedly immunized by ip injection of Brugia malayi microfilariae become amicrofilaremic within 24 hr of iv parasite challenge, whereas non-sensitized control animals remain patent for greater than 72 hr. Immunized, but not control mice, develop peripheral blood and pulmonary eosinophilia (2,000 cells/mm3 and 65,000 cells/bronchoalveolar lavage, respectively). Serum and bronchoalveolar lavage filarial-specific IgG antibodies are greater in sensitized mice than in controls (ELISA absorbance values 20- and 10-fold higher, respectively). Serum IgE antibody levels are also greater (P less than 0.01) in immunized parasite-challenged mice than in controls (mean cpm 125I-labeled anti-mouse IgE bound to B. malayi antigen-coated Sepharose beads: 7,852 vs. 1,741, respectively). This model exhibits several of the major features of human TPE: amicrofilaremia, elevated levels of serum IgG and IgE antibodies to microfilariae, and blood and pulmonary eosinophilia. This model may be useful in the examination of the role of filarial antigen-specific lymphoid cells and antibodies in regulating the pathologic responses to microfilariae trapped in the lung.     

Circulating filarial antigen in cats infected with Brugia pahangi is indicative of the presence of adult worms

Using counterimmunoelectrophoresis with rabbit antisera raised against soluble extracts of adult females of Brugia pahangi parasite antigen was detected in the serum of all cats repeatedly infected with B. pahangi. Antigen was never detected in uninfected cats. The antigen was associated with the presence of adult worms. Antigen was detected consistently in a cat that was amicrofilaraemic but at autopsy harboured only two or three adult worms. Conversely, some cats showed slowly declining numbers of microfilariae and, in these, circulating antigen declined before the number of microfilariae. Eventually no antigen was detectable in circulation whereas microfilariae, although in diminishing numbers, were still present. At autopsy no adult worms were found in these cats. Antigen also appeared in several cats before they became microfilaraemic.     

Influence of Brugia malayi life stages and BmAFII fraction on experimental Leishmania donovani infection in hamsters

The influence of live Brugia malayi parasites and a Sephadex G-200 fraction of the adult parasite extract (BmAFII) on the progression of Leishmania donovani infection was studied. Inbred hamsters were first infected with B. malayi infective 3rd stage larvae (L₃), adult worms or microfilariae (mf), and then with L. donovani amastigotes (Ld), or vice versa or received both the infections simultaneously; a group of animals were first immunized with BmAFII and then infected with Ld. L. donovani parasite burden was determined between 17 and 19 days post amastigote challenge (p.a.c.) and, in case of immunized animals, between 32 and 35 days p.a.c also. Nitric oxide (NO) release from peritoneal macrophages and cellular proliferative responses of lymphnode cells were assessed in BmAFII-immunized animals given leishmania infection or no infection. Leishmanial parasite burden was significantly reduced in animals exposed to filarial L₃ before amastigote inoculation and in animals given filarial adult worms after or together with amastigotes. Prior immunization of leishmania-infected animals with BmAFII also reduced the leishmanial parasite burden (17–19 days p.a.c.: >90%; 32–35 days p.a.c.: 60%). These animals showed upregulation of NO release and cellular proliferative responses to promastigote antigen or BmAFII stimulation in vitro. The findings show, for the first time, that B. malayi L₃/adult worms or immunization with BmAFII inhibits progression of L. donovani infection in hamsters and this is associated with upregulation of NO and lymphocyte proliferative responses indicating that Th1 response might be responsible for this.     

Interleukin-12 suppresses filaria-induced pulmonary eosinophilia, deposition of major basic protein and airway hyperresponsiveness

Tropical Pulmonary Eosinophilia (TPE) is a severe form of allergic asthma caused by the host inflammatory response to filarial helminths in the lung microvasculature, and is characterized by pulmonary eosinophilia, increased filarial-specific IgG and IgE antibodies, and airway hyperresponsiveness. The current study examined the effect of IL-12 on pulmonary eosinophilia, deposition of eosinophil major basic protein and airway hyperresponsiveness in mice inoculated i.v. with Brugia malayi microfilariae. Injection of recombinant murine IL-12 modulated the T helper (Th) response in the lungs from Th2- to Th1-like, with elevated IFN-γ, and decreased IL-4 and IL-5 production. Consistent with this shift in cytokine response, antigen-specific IgG2a was elevated, and IgG1 and total serum IgE were decreased. In addition, eosinophils in BAL fluid from IL-12 treated mice were reduced from 56% to 11%, and there was no detectable MBP on respiratory epithelial cells. Importantly, IL-12 suppressed airway hyperresponsiveness compared with saline-injected control animals. Taken together, these data clearly demonstrate that by modulating Th associated cytokine production, IL-12 down-regulates filaria-induced lung immunopathology .     

Successful development of Brugia pahangi in T-cell deprived CBA mice

CBA mice were thymectomized and treated with anti-thymocyte serum. Seven such mice were given 90--100 infective larvae of Brugia pahangi each by intraperitoneal (ip) injection and 5 given 99-100 larvae each by subcutaneous (sc) injection. From 62 days after infection 6 of 7 mice infected ip had microfilariae in their peritoneal cavities. Only one mouse infected by sc injection showed microfilariae in peripheral blood and this not until 98 days. At autopsy 5-45 adult worms were recovered from the ip infected mice. Only 2 od the 5 sc infected mice had adults and these only 3 each. No microfilariae or adult worms were detected in similarly infected unthymectomized CBA mice.     

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.     

Cats with single Brugia pahangi infections: relationship between parasitological status and humoral responses to somatic and surface parasite antigens

Cats given a single inoculation of Brugia pahangi infective larvae (L3) were retrospectively allocated into three groups according to parasitological outcome of infection. Recognition of somatic and surface antigens of B. pahangi by sera from each group was compared by ELISA, immunoelectroblotting, and immunoprecipitation techniques. In cats that never became microfilaraemic mean serum IgG antibody levels against somatic extracts from adult male worms, L3, and microfilariae (mf) were higher than levels in cats that initially became microfilaraemic (mf + ve) then spontaneously became nonmicrofilaraemic (mf - ve). The lowest levels of antibody against each stage were found in cats that remained persistently mf + ve. Antigenic components of 18 kD and 22 kD in somatic extracts of adult worms and L3 were recognized by sera from cats that never became mf + ve and by spontaneously mf - ve cats, but not by sera of persistently mf + ve cats. When radioiodinated surface antigens of mixed adult worms and microfilariae were immunoprecipitated by sera from cats in the three groups, no correlation was observed between recognition of individual antigen components and parasitological outcome of infection.     

Filarial infections of Mastomys natalensis and their relevance for experimental chemotherapy

Experimental filarial infections of Mastomys natalensis, strain GRA Giessen, with Litomosoides carinii, Dipetalonema viteae, Brugia malayi (subperiodic), and Brugia pahangi were compared. Mean prepatent periods of 52, 57, 107, and 73 days p.i. were observed after subcutaneous inoculation of 40, 50, 85, and 70 infective larvae of L. carinii, D. viteae, B. malayi, and B. pahangi, respectively, in the neck region. All of the L. Carinii, D. viteae, and B. pahangi infected Mastomys showed a regularly detectable microfilaraemia. In B. malayi infections 95.5% of the animals developed parasitaemias, when the larvae had been inoculated in the neck region, whereas after groin infections only in 66.7% of the animals became patient. For both Brugia species, infections in the groin resulted in considerably lower microfilarial levels. Maximum microfilariae densities could be detected at day 120 (L. carinii) and at day 1980 (D. viteae) p.i. In the case of Brugia neck infections, the microfilarial levels increased usually until the end of the observation period, 300-350 days p.i. Worm recovery rates were 63% (L. carinii), 20.6% (D. viteae), 21.1% (B. malayi), and 31.4% (B. pahangi) of the inoculated larvae. When third stage larvae of Brugia species were inoculated in the neck region, adults of B. malayi and B. pahangi were isolated predominantly from the heart of lungs (84.4 and 78.5%, respectively). Only 12.3% of B. pahangi parasites were found in the testes; 3.4% and 18.1% were localized in the lymphatics. After inoculation of infective larvae in the groin more worms could be recovered in the testes and lymphatics, i.e. 23.4% and 14.9% (B. malayi) or 19.1% and 45.2% (B.pahangi), respectively. The results are discussed under the aspect of chemotherapeutic investigations for the evaluation of microfilaricidal, macrofilaricidal or chemoprophylactic compounds. It is concluded, that Mastomys natalensis, an animal with a broad spectrum of susceptibility for filarial infections, can be used as an alternative experimental model system, similar to that of the jird.     

Platelet mediated killing of larvae from different filarial species in the presence of Dipetalonema viteae stimulated IgE antibodies

The platelets from normal rats interact with microfilariae of Dipetalonema viteae in vitro in the presence of antibodies leading to the killing of the parasite. The antibody involved in this reaction is identified as IgE because the absorption of immune rat serum on anti-rat IgE column or the pretreatment of platelets with anti-Fc epsilon receptor resulted in a significant reduction in the percentage of killing of microfilariae. This antibody, which mediates platelet activity towards microfilariae, appears early in the secondary infection and persists for a short period of time. This short-lasting IgE antibody is not apparently present in the form of large complexes since the supernatant but not the pellet after ultracentrifugation was able to mediate killing of microfilariae by platelets. IgE-dependent platelet-mediated parasite killing is neither stage- nor species-specific because the microfilariae (LI) of Brugia malayi or of Loa loa and infective larvae (L3) of D. viteae or of B. malayi were killed when they were incubated with the serum obtained from rats at day 8 after secondary infection with adult D. viteae worms. The results of the present study suggest that platelets can actively participate in the immunological killing of filarial larvae.     

Increased activity of macrophages from mice infected with Brugia pahangi''. in vitro adherence to microfilariae

After the inoculation of infective larvae of Brugia pahangi into the peritoneal cavities of CBA/Ca mice adult worms developed, but by 12 weeks post-infection the parasites were usually dead and surrounded by granulomatous tissue. Macrophages were the most common cell type in these granulomas and were also found in increasing numbers free in the peritoneal cavity. We have investigated the ability of macrophages to damage microfilariae in vitro, in a system where microfilariae were cultured together with cells and serum taken from either uninfected female CBA/Ca mice or at various intervals after infection. Macrophages adhered to and killed microfilariae in this system and there was an increase in vitro adherence of these cells during the course of infection. The peak level of in vitro activity of these cells coincided with the phase of parasite killing in vivo. The presence of serum also affected the degree of macrophage adherence and subsequent death of the parasite. Analysis of serum components using EGTA, zymosan or heat inactivation suggested that complement and possibly heat labile antibody were involved. Immunoglobulins were shown by immunofluorescence to be present on the surface of microfilariae cultured in serum from infected mice. It is concluded from this study that macrophages are actively involved in the termination of murine filarisis.     

Serum-mediated adherence of feline granulocytes to microfilariae of Brugia pahangi in vitro: variations with parasite maturation

Feline eosinophils and neutrophils readily adhered in vitro to the sheaths of microfilariae of Brugia pahangi in the presence of suitable serum. Both cell types flattened along the surface of the parasite undergoing cytoplasmic changes which included degranulation. Adherence was dependent on properties of both the serum and the history of the microfilaria used. Two types of serum factor were found to mediate adherence. Heat labile factors were present in sera from infected and uninfected cats as well as in sera from other species. They were removed by preincubation of sera with zymosan suggesting that complement components were involved. This suggestion was supported by the demonstratior, of C3 on the surface of microfilariae participating in adherence reactions. A heat stable factor, present in the serum of less than 10% of infected cats, also mediated adherence. This factor was demonstrated to be IgG by immunoadsorption and immunofluorescence. The ability of the microfilariae to participate in the adherence reaction mediated by complement factor varied with maturation of the parasite. Microfilariae obtained directly from the uteri of adult worms, or produced in vitro, did not possess the ability to participate in adherence. Young blood microfilariae (i.e. taken from the blood of cats recently patent) were similar to the in vitro produced parasites; however, the majority of blood microfilariae from infections of greater than three weeks patency participated in this form of adherence. No difference between blood and uterinelin vitro microfilariae was seen in adherence reactions mediated by heat stable antibody.     

Variability of the intestinal immunoglobulin E response of rats to infection with Trichinella spiralis, Heligmosomoides polygyrus or Nippostrongylus brasiliensis

Total intestinal IgE level increased in rats infected with Trichinella spiralis or Heligmosomoides polygyrus (peak levels of 2.6 microg and 3.7 microg, respectively), but not in rats infected with Nippostrongylus brasiliensis. Intestinal implantation of young adult N. brasiliensis did not stimulate an intestinal immunoglobulin (Ig)E response, suggesting that mucosal penetration may be required for local intestinal IgE responses in rats. During a T. spiralis infection, total IgE levels in the intestinal lumen were consistently higher in LEWIS and LOU rats (rat strains that eliminate T. spiralis worms earlier in the infection) than in PVG, AO and WKA/H strain rats. There was no correlation in either the total level of serum IgE and IgA, or of intestinal IgA with differences between strains in the rate of worm elimination from the gut. Furthermore, the intestinal IgE immunoprecipitated from LEWIS rats 12 days after infection reacted with T. spiralis adult worm metabolic antigens, while intestinal IgE from PVG rats only became reactive with adult worm metabolic antigens from 14 days after infection. These data emphasize the significance of the intestinal IgE response and its unique features by comparison with serum IgE and IgA or intestinal IgA.     

Comparative efficacy of some benzimidazoles and amoscanate (Go.9333) against experimental filarial infections

The comparative efficacy of mebendazole, fenbendazole, oxibendazole, oxfendazole, albendazole, flubendazole and micronized amoscanate (particle size 5-8 micron) against Litomosoides carinii and Brugia pahangi infections in Mastomys natalensis was studied on administration of the compounds per os (150 mg/kg/day for 5 days) and subcutaneous (100 mg/kg/day for 5 days) routes. It was found that benzimidazoles when given by the oral route had no effect on adults of L. carinii and B. pahangi. With most of these compounds there was a rise in microfilariae before registering a fall to varying degrees in the peripheral circulation. There was a gradual but effective reduction of microfilariae of L. carinii in animals treated orally with mebendazole (99%), flubendazole (95%) and oxfendazole (85%). No such effect was seen against B. pahangi microfilariae. On subcutaneous administration, all the benzimidazoles with the exception of fenbendazole exhibited marked macrofilaricidal activity against L. carinii. Such activity was not seen with oxibendazole, oxfendazole and fenbendazole against adults of B. pahangi. Amoscanate exhibited superiority over the benzimidazoles in that the compound eliminated microfilariae and adult worms of both L. carinii and B. pahangi species when given by oral and subcutaneous routes.     

Eosinophil hyporesponse of jirds induced by microfilariae of Brugia pahangi

Male jirds (Meriones unguiculatus) were inoculated sc with 100 infective larvae of Brugia pahangi. After 16 weeks, the animals were reinoculated with a comparable number of organisms. Blood eosinophil responses during the 5 weeks subsequent to this attempt to reinfect were much lower than those of comparable naive animals, while the response to a heterologous infection (Toxocara canis) was comparable to that of controls. Mebendazole was given to infected animals for 2 weeks beginning 5 weeks (prepatent) or 16 weeks (patent) after infection. At comparable intervals after drug administration, the animals were reinoculated with infective larvae and the blood eosinophil response was measured over a 5 week period. The response in the animals treated during the prepatent period was higher than the untreated infected controls. Treatment during the patent period had no demonstrable effect. Jirds made artificially microfilaremic by intravenous inoculation of viable filaria before and after the standard infecting dose had a low eosinophil response to infective larvae. A primary experience of jirds with the microfilariae of B. pahangi evokes an eosinophil response. Subsequent inoculation of larvae did not produce a comparable response.     

Antifilarial activity in vitro and in vivo of some flavonoids tested against Brugia malayi

We evaluated the antifilarial activity of 6 flavonoids against the human lymphatic filarial parasite Brugia malayi using an in vitro motility assay with adult worms and microfilariae, a biochemical test for viability (3-(4,5-dimethylthiazol-2-yl)-2,5 diphenyltetrazolium bromide (MTT)-reduction assay), and two animal models, Meriones unguiculatus (implanted adult worms) and Mastomys coucha (natural infections). In vitro, naringenin and hesperetin killed the adult worms and inhibited (>60%) MTT-reduction at 7.8 and 31.2 μg/ml concentration, respectively. Microfilariae (mf) were killed at 250-500 μg/ml. The half maximal inhibitory concentration (IC₅₀) of naringenin for motility of adult females was 2.5 μg/ml. Flavone immobilized female adult worms at 31.2 μg/ml (MTT > 80%) and microfilariae at 62.5 μg/ml. Rutin killed microfilariae at 125 μg/ml and inhibited MTT-reduction in female worms for >65% at 500 μg/ml. Naringin had adulticidal effects at 125 μg/ml while chrysin killed microfilariae at 250 μg/ml. In vivo, 50 mg/kg of naringenin elimiated 73% of transplanted adult worms in the Meriones model, but had no effect on the microfilariae in their peritoneal cavity. In Mastomys, the same drug was less effective, killing only 31% of the naturally acquired adult worms, but 51%, when the dose was doubled. Still, effects on the microfilariae in the blood were hardly detectable, even at the highest dose. In summary, all 6 flavonoids showed antifilarial activity in vitro, which can be classed, in a decreasing order: naringenin > flavone = hesperetin > rutin > naringin > chrysin. In jirds, naringenin and flavone killed or sterilized adult worms at 50 mg/kg dose, but in Mastomys, where the parasite produces a patent infection, only naringenin was filaricidal. Thus naringenin and flavone may provide a lead for design and development of new antifilarial agent(s). This is the first report on antifilarial efficacy of flavonoids.     

Detection of antibodies in cats infected with filarial parasites by the indirect immunofluorescence technique

The indirect immunofluorescence technique in cats infected with filarial parasites, Brugia malayi, B. pahangi and D. repens were studied. The antibody level in infected microfilaraemic cats was higher than that in infected amicrofilaraemic cats and uninfected cats. Papain-treated whole microfilariae appeared to be more sensitive than the sonicated antigen. The comparative IFA titres using papain-treated and sonicated microfilarial antigen, in the serodiagnosis of filariasis is presented.     

Experimental infection of subperiodic Brugia malayi in laboratory rats with emphasis on evaluation by four techniques

Infective larvae of subperiodic B. malayi from South Kalimantan (Borneo), Indonesia collected from laboratory-raised Ae. togoi mosquitoes after feeding on infected mongolian gerbils (Meriones unguiculatus) were inoculated subcutaneously into the groin areas of 15 SD and 36 LE rats. Blood was examined weekly by membrane filtration and thick smears starting 10 weeks post-infection. Microfilariae were found in 3 SD and 4 LE rats, the mf infection rate of 20% and 11% respectively. The prepatent period was significantly shorter in the SD rats (99-112 days) than those in the LE rats (110-153 days). The patent period was longer in the LE rats (208-703 days) than in the SD rats (236-543 days), and the mf density was similar (17.5 mf/20 c.mm blood against 16 mf/20 c.mm blood). At necropsy, 6 (3 female and 3 male) adult worms were recovered from 3 of 6 SD rats and 12 (9 female and 3 male) adult worms from 4 of 20 LE rats; all worms were found in the testes. The results of xenodiagnostic, histochemical staining and measuring spicules and protuberances, demonstrated clearly the difference between both species of Brugia. All dissected Ar. subalbatus mosquitoes exposed to B. pahangi became infected (100%), but none of those to subperiodic B. malayi were infected (0%). The mf of both species of Brugia in thick films stained with naphthol-AS-TR-phosphate showed that the excretory and anal pores of subperiodic B. malayi mf exhibited acid phosphatase activity and only a little activity was seen in other parts; while B. pahangi mf showed heavy diffuse acid phosphatase activity along the entire length of the body.(ABSTRACT TRUNCATED AT 250 WORDS)