Differential effects of diethylcarbamazine, tetracycline and the combination on Brugia pahangi adult females in vitro

Anti-filarial effects of diethylcarbamazine (DEC), tetracycline (TC) and the combination on Brugia pahangi adult females were studied in 7-day cell-free culture, in terms of microfilaria release, parasite motility, MTT assay for parasite viability and embryogram. TC 50 μg/ml (TC50) effectively reduced microfilaria release from day 1 of culture. Combined with DEC 100 μg/ml (DEC100) or DEC 500 μg/ml (DEC500), microfilaria release reduced further and synergistically. TC50 also reduced motility, but DEC100 and DEC500 did not. The combination of TC50 and DEC500 reduced motility synergistically. The MTT assay supported the results of motility study in general. The embryogram showed that only DEC500 reduced the total number of intrauterine embryos, especially ova, indicating that DEC500 inhibited early embryogenesis. TC50 did not affect the total number of embryos, but resulted in apparent accumulation of microfilariae in the uterus, suggesting that the drug inhibited release of microfilariae in this in vitro system. These results clarified different anti-female mechanisms between DEC and TC. A PCR-based study showed that endosymbiont bacteria, Wolbachia, in B. pahangi females decreased significantly after TC treatment. However, this study could not determine whether the effects of TC were direct or Wolbachia-mediated.     

In vitro chemotactic responses of Brugia pahangi infective larvae to sodium ions

In vitro chemotactic responses of infective third-stage larvae (L3) of Brugia pahangi to NaCl, Na2HPO4, KCl, K2HPO4, MgCl2 and CaCl2 were assessed. Compared to deionized water as a control, 200?mm NaCl and 100?mm Na2HPO4 significantly attracted L3 (P?相似文献   

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

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

In vitro activity of levamisole on the infective larvae, microfilariae and adult worms of Breinlia Sergenti

In vitro activity of levamisole on the infective larvae, microfilariae and adult worms of Breinlia sergenti. International Journal for Parasitology4: 207–210. Levamisole shows in vitro activity against the infective larvae, microfilariae and adult worms of Breinlia sergenti. The polygraph studies using the adult worms indicate that levamisole causes an increase in the muscle tone; this action being dose related. The adult worms are more sensitive to the drug than the infective larvae and microfilariae. In vitro, levamisole is more potent compared with diethylcarbamazine against all the three stages of B. sergenti.     

The circadian flight activity of Aedes aegypti parasitized with the filarial nematode Brugia pahangi

ABSTRACT. The circadian flight activity of Aedes aegypti L. infected with the filarial parasite Brugia pahangi was recorded for 16 consecutive days using an acoustic actograph. The flight activity of uninfected control mosquitoes in a LD 12:12h regime rose to a maximum 3 days after bloodfeeding, then decreased slightly and remained steady for the duration of the experiment. The flight activity of parasitized mosquitoes was temporarily depressed for 2 days after feeding on a microfilariaemic cat; this was probably caused by the parasites migrating from the midgut to the flight muscles. As parasitic larvae grew within the flight muscles during days 3—6, the daily activity of all mosquitoes returned to control levels. On days 7—8 the activity of mosquitoes parasitized with thirteen or more larvae fell dramatically to approximately 10% of that of the controls; this change coincided with the emergence of the highly-active infective stage larvae from the flight muscles. The presence of fewer larvae did not impair flight. Because of their reduced flight capability, heavily-infected mosquitoes probably play little if any part in the transmission of filariasis.     

The effect of Brugia pahangi infection on survival of susceptible and refractory species of the Aedes scutellaris complex

Life table statistics were used to examine the survival functions of filarial susceptible and refractory species of the Aedes scutellaris (Walker) group of mosquitoes, following infection with high and moderate doses of Brugia pahangi (Buckley & Edeson). Survivorship curves and hazard function curves were generated, and the median survival times and the proportions of mosquitoes surviving beyond the extrinsic incubation period of the parasite were determined. In the susceptible populations of Aedes polynesiensis Marks, Ae. pseudoscutellaris (Theobald) and Ae.tabu Ramalingam & Belkin a dose-response relationship was detected between parasite load and mortality. This relationship was characterized by a significant reduction in the proportions of infected female mosquitoes surviving at days 1 and 9 postinfection, reduction in the median survival times and an increase in the hazard rates as the infectious dose increased. The survival of the refractory species, Ae.alcasidi Huang and Ae.katherinensis Woodhill was not significantly affected by the infection. A positive correlation between microfilaraemia in the vertebrate host and parasite load in the susceptible mosquito populations was also observed. Regression analysis of the number of parasites recovered from susceptible mosquitoes at the time of death showed that mosquitoes at highest risk of dying harboured from 11.6 to 19.4 infective larvae when fed on a gerbil with sixty-five microfilariae per 20 microliters blood; this resulted in 34.4-40.2% mortality by day 9 postinfection. A mean number of 32.6-46.9 infective larvae was observed when these populations were exposed to a gerbil with a microfilaraemia of 150 mf/20 microliters and resulted in 72.8% to 80% mortality in these populations. Viable infective larvae were recovered from infected mosquitoes up to 50 days postinfection.     

Effect of N-acetyl-D-glucosamine on the migration of Brugia pahangi microfilariae into the haemocoel of Aedes aegypti

Two strains of Aedes aegypti (L.), differing in their susceptibility to Brugia pahangi (Buckley & Edeson), were examined with regard to the effect on the proportion of microfilariae migrating from the mid-gut, of specific carbohydrate supplements in the infecting bloodmeal. N-Acetyl-D-glucosamine (GlcNAc), a sugar also present on the microfilarial sheath, significantly increased the migration rate. This enhancement is greater for the refractory strain of Ae.aegypti. The use of sucrose as a control sugar results in no enhancement of microfilariae migration. It is postulated that the GlcNAc is acting by blocking endogenous gut/peritrophic membrane carbohydrate binding proteins, which would normally inhibit microfilariae migration. Furthermore, there is a significant correlation whereby increasing loads of microfilariae ingested result in decreasing proportions migrating across the mid-gut.     

Defense reactions of mosquitoes to filarial worms: comparative studies on the response of three different mosquitoes to inoculated Brugia pahangi and Dirofilaria immitis microfilariae

The melanization response of Aedes trivittatus and the Rockefeller (RKF) and black-eyed Liverpool (LVP) strains of Aedes aegypti against intrathoracically inoculated Dirofilaria immitis and Brugia pahangi microfilariae (mff) was investigated. All mff of either species were melanized in A. trivittatus following Day 2 postinoculation, and the response of this species was significantly more rapid and effective than either strain of A. aegypti. The refractory RKF strain had a significantly greater response against both D. immitis and B. pahangi than the highly susceptible LVP strain, but data suggest that the increased responsiveness was due to a physiologic incompatibility in RKF A. aegypti, thereby resulting in a greater mortality and subsequent melanization of inoculated mff. Inoculation of large numbers of mff overloaded the defense capabilities of A. aegypti (LVP), but not those of A. trivittatus. The melanization response against D. immitis mff was effectively reduced for up to 4 days in A. aegypti (LVP), but for only 1 day in A. trivittatus, when mosquitoes were maintained on a 0.3 m sucrose diet containing from 0.1 to 1.0% (w/v) phenylthiourea.     

Age-related changes in esterase and acetylcholinesterase activities of the infective larvae of Ancylostom a tubaeforme

Nwosu A. B. C. 1978. Age-related changes in esterase and acetylcholinesterase activities of the infective larvae of Ancylostoma tubaeforme. International Journal for Parasitology8: 355–358. Biochemical assays for non-specific esterase and acetylcholinesterase (ACHE) activities, of physiologically aged infective larvae of Ancylostoma tubaeforme, have been carried out. Butyrylthiocholine iodide (BTC) was not hydrolysed by larval hornogenates. Esterase and ACHE activities decreased with increase in the age of the larvae.     

Defense reaction of mosquitoes to filarial worms: role of the microfilarial sheath in the response of mosquitoes to inoculated Brugia pahangi microfilariae

The melanization response of Aedes trivittatus and A. aegypti (black-eyed Liverpool strain) against intrathoracically inoculated sheathed and chemically exsheathed Brugia pahangi microfilariae (mff) was assessed daily through 5 days postinoculation (PI). Response of A. aegypti against exsheathed mff was significantly reduced on all days compared with the response against sheathed mff, and a significantly greater percentage of exsheathed mff were alive through 4 days PI than were sheathed mff. The melanization response of A. trivittatus was nearly 100% effective against either sheathed or exsheathed mff by Day 2 PI. When mff were allowed to migrate through A. aegypti midguts in vitro before inoculation into intact A. aegypti, nearly 94% ($\text{120}\text{128}$) of the parasites recovered had avoided the response and were developing. Penetration of A. trivittatus midguts in vitro by mff before inoculation into intact A. trivittatus did not prevent a melanization response. Inoculation of mff into A. trivittatus following A. aegypti midgut penetration, however, resulted in almost 60% ($\text{98}\text{171}$) of the mff avoiding the response and developing as normal L₁ larvae after 5 days PI. The possibility of mff acquiring host antigens during midgut penetration and therefore avoiding recognition as nonself by mosquitoes, and (or) the possibility of the midgut environment modifying or stimulating mff to inhibit the response of mosquitoes are discussed.     

The ability of Aedes aegypti mosquitoes to survive and transmit infective larvae of Brugia pahangi over successive blood meals

The mortality of Aedes aegypti mosquitoes increased; immediately following a blood meal containing microfilariae of Brugia pahangi, when infective larvae began to migrate out of the flight muscles and when infective larvae were lost from the mosquitoes during a blood meal. When infective mosquitoes took a second blood meal 86.2% of the infective larvae escaped from their bodies. However, only 50.3% escaped when mosquitoes fed through a thin layer of cotton. Infective larvae in the abdomen of the mosquitoes stood the least chance of escaping from the insects. When infective mosquitoes were offered a third blood meal four days later, the proportion of infective larvae in the head and labium had risen from 56.6% in the control group to 66.0% and 69.4% in the two test groups. At this third feed 54.7% and 75.7% of the infective larvae were lost from mosquitoes with a low and medium pre-feeding worm burden respectively. This suggests that the escape of infective larvae from mosquitoes with only a few worms is less efficient than from mosquitoes with a medium worm burden.     

The effect of sera from cats infected with Brugia pahangi and subsequently treated with levamisole on the infectivity of third-stage larvae of B. pahangi

Cats were treated with levamisole and the infective (L3) stage of Brugia pahangi. Serum from infected cats was subsequently tested for its ability to infect jirds. Jirds autopsied at 33 days postmortem showed significant levels of parasitemia. This is contrary to reports of a previous study wherein serum from humans infected with B. malayi was found to induce cell adherence and death of the L3.     

In vitro activity of diethylcarbamazine on the infective larvae, microfilariae and adult worms of Breinlia sergenti

In vitro activity of diethylcarbamazine on the infective larvae, microfilariae and adult worms of Breinlia sergenti. International Journal for Parasitology. 3: 803–807. The action of diethylcarbamazine, on the infective larvae, the microfilariae and the adult worms of Breinlia sergenti, occurring in slow loris (Nycticebus coucang) is described. The drug immobilized all the three stages of the parasite. In the case of the adult worms an initial increase in the tone of the musculature followed by flaccid paralysis was observed.     

Sequencing and analysis of a 63 kb bacterial artificial chromosome insert from the Wolbachia endosymbiont of the human filarial parasite Brugia malayi.

Wolbachia endosymbiotic bacteria are widespread in filarial nematodes and are directly involved in the immune response of the host. In addition, antibiotics which disrupt Wolbachia interfere with filarial nematode development thus, Wolbachia provide an excellent target for control of filariasis. A 63.1 kb bacterial artificial chromosome insert, from the Wolbachia endosymbiont of the human filarial parasite Brugia malayi, has been sequenced using the New England Biolabs Inc. Genome Priming System() transposition kit in conjunction with primer walking methods. The bacterial artificial chromosome insert contains approximately 57 potential ORFs which have been compared by individual protein BLAST analysis with the 35 published complete microbial genomes in the Comprehensive Microbial Resource database at The Institute for Genomic Research and in the NCBI GenBank database, as well as to data from 22 incomplete genomes from the DOE Joint Genome Institute. Twenty five of the putative ORFs have significant similarity to genes from the alpha-proteobacteria Rickettsia prowazekii, the most closely related completed genome, as well as to the newly sequenced alpha-proteobacteria endosymbiont Sinorhizobium meliloti. The bacterial artificial chromosome insert sequence however has little conserved synteny with the R. prowazekii and S. meliloti genomes. Significant sequence similarity was also found in comparisons with the currently available sequence data from the Wolbachia endosymbiont of Drosophila melanogaster. Analysis of this bacterial artificial chromosome insert provides useful gene density and comparative genomic data that will contribute to whole genome sequencing of Wolbachia from the B. malayi host. This will also lead to a better understanding of the interactions between the endosymbiont and its host and will offer novel approaches and drug targets for elimination of filarial disease.     

Construction of bacterial artificial chromosome libraries from the parasitic nematode Brugia malayi and physical mapping of the genome of its Wolbachia endosymbiont

The parasitic nematode, Brugia malayi, causes lymphatic filariasis in humans, which in severe cases leads to the condition known as elephantiasis. The parasite contains an endosymbiotic alpha-proteobacterium of the genus Wolbachia that is required for normal worm development and fecundity and is also implicated in the pathology associated with infections by these filarial nematodes. Bacterial artificial chromosome libraries were constructed from B. malayi DNA and provide over 11-fold coverage of the nematode genome. Wolbachia genomic fragments were simultaneously cloned into the libraries giving over 5-fold coverage of the 1.1 Mb bacterial genome. A physical framework for the Wolbachia genome was developed by construction of a plasmid library enriched for Wolbachia DNA as a source of sequences to hybridise to high-density bacterial artificial chromosome colony filters. Bacterial artificial chromosome end sequencing provided additional Wolbachia probe sequences to facilitate assembly of a contig that spanned the entire genome. The Wolbachia sequences provided a marker approximately every 10 kb. Four rare-cutting restriction endonucleases were used to restriction map the genome to a resolution of approximately 60 kb and demonstrate concordance between the bacterial artificial chromosome clones and native Wolbachia genomic DNA. Comparison of Wolbachia sequences to public databases using BLAST algorithms under stringent conditions allowed confident prediction of 69 Wolbachia peptide functions and two rRNA genes. Comparison to closely related complete genomes revealed that while most sequences had orthologs in the genome of the Wolbachia endosymbiont from Drosophila melanogaster, there was no evidence for long-range synteny. Rather, there were a few cases of short-range conservation of gene order extending over regions of less than 10 kb. The molecular scaffold produced for the genome of the Wolbachia from B. malayi forms the basis of a genomic sequencing effort for this bacterium, circumventing the difficult challenge of purifying sufficient endosymbiont DNA from a tropical parasite for a whole genome shotgun sequencing strategy.