Wolbachia depletion blocks transmission of lymphatic filariasis by preventing chitinase-dependent parasite exsheathment.

Lymphatic filariasis is a vector-borne neglected tropical disease prioritized for global elimination. The filarial nematodes that cause the disease host a symbiotic bacterium, Wolbachia, which has been targeted using antibiotics, leading to cessation of parasite embryogenesis, waning of circulating larvae (microfilariae [mf]), and gradual cure of adult infection. One of the benefits of the anti-Wolbachia mode of action is that it avoids the rapid killing of mf, which can drive inflammatory adverse events. However, mf depleted of Wolbachia persist for several months in circulation, and thus patients treated with antibiotics are assumed to remain at risk for transmitting infections. Here, we show that Wolbachia-depleted mf rapidly lose the capacity to develop in the mosquito vector through a defect in exsheathment and inability to migrate through the gut wall. Transcriptomic and Western blotting analyses demonstrate that chitinase, an enzyme essential for mf exsheathment, is down-regulated in Wolbachia-depleted mf and correlates with their inability to exsheath and escape the mosquito midgut. Supplementation of in vitro cultures of Wolbachia-depleted mf with chitinase enzymes restores their ability to exsheath to a similar level to that observed in untreated mf. Our findings elucidate a mechanism of rapid transmission-blocking activity of filariasis after depletion of Wolbachia and adds to the broad range of biological processes of filarial nematodes that are dependent on Wolbachia symbiosis.

Inhibition of thioredoxin reductase (TrxR) triggers oxidative stress-induced apoptosis in filarial nematode Setaria cervi channelized through ASK-1-p38 mediated caspase activation.

Inhibition of an imperative antioxidant enzyme with subsequent death is a victorious and widely accepted strategy to combat various infectious diseases. Among different antioxidant enzymes, thioredoxin reductase (TrxR) is an exclusive one. Studies have revealed that direct inhibition of TrxR by different classes of chemical moieties promptly results in the death of an organism. Especially the structural as well as biochemical modifications of the enzyme upon inhibition project serious threat towards the subject organism. Herein, an attempt was made to inhibit TrxR of filarial species by administering Auranofin, 1 chloro 2,4 dinitrobenzene (CDNB), Curcumin, and a novel carbamo dithioperoxo(thioate) derivative (4a). Our study has revealed that inhibition of TrxR resulted in the induction of the classical CED pathway of apoptosis along with the intrinsic and extrinsic pathways of apoptosis (Caspase mediated) routed through the ASK-1/p38 axis. Druggability analysis of filarial TrxR for the selected compounds was performed in silico through molecular docking studies. Therefore, this study attempts to decipher the mechanism of apoptosis induction following TrxR inhibition. The safety of those four compounds in terms of dose and toxicity was taken under consideration. Thitherto, the mechanism of TrxR mediated initiation of cell death in filarial parasite has remained undercover, and therefore, it is a maiden report on the characterization of apoptosis induction upon TrxR inhibition which will eventually help in generating effective antifilarial drugs in the future.

Thioredoxin reductase from the bovine filarial parasite Setaria cervi: Studies on its localization and optimization of the extraction.

Exploration of novel drug targets has been the major thrust area in filarial research. In this regard, identification and characterization of oxidative enzymes that play pivotal role in the survival of filarial parasite inside host are of immense importance. In this study, we are reporting the presence of an important redox regulatory enzyme, thioredoxin reductase (TrxR) in the bovine filarial parasite Setaria cervi. TrxR was found to be exists throughout the developmental stages viz. oocyte, microfilaria and adult of the parasite. Since further studies on this enzyme require adequate quantity, influential extraction parameters were optimized statistically using response surface methodology (RSM) employing a seven factors based Box-Behnken design matrix. ANOVA analysis revealed the relative importance of each parameter and a regression equation was eventually developed that could predict the specific activity (SA) of TrxR. Finally the optimized extraction conditions predicted by RSM was 6.1ml of 61.86mM buffer, pH 6.0, with extraction temperature 39.96°C for 180min in addition to 450rpm agitation and 20µl/ml of protease inhibitor. Therefore this study is going to be the maiden report depicting the identity of TrxR in filarial parasite and the optimized extraction conditions for its isolation with better kinetic efficiency.

Isolation and characterization of endochitinase and exochitinase of Setaria cervi.

Chitin metabolism has been shown to have a role in the development of parasitic nematodes including filarial parasites and the enzymes associated with chitin metabolism have been considered as potential vaccine and drug target. Chitinases are members of the enzyme superfamily of glycoside hydrolases, which are characterized by the ability to hydrolyze glycosidic bonds in chitin chain by either an endolytic or an exolytic mechanism. In the present study, we have demonstrated the chitinase (exochitinase and endochitinase) activity in different stages of Setaria cervi (bovine filarial parasite) and have also purified and characterized the endochitinase from microfilarial stage of the parasite. The chitinase activity has been detected in adult and microfilarial stages of S. cervi using the fluorescent substrates. The S. cervi adult stage was found to have high activity of exochitinase (28.72±0.25 nmol/min/mg) while microfilarial stage showed high activity of endochitinase (24.40±0.25 nmol/min/mg). Native polyacrylamide gel electrophoresis, followed by staining of enzyme activity with fluorescent substrates, revealed single isoenzymic form of exochitinase in adults and endochitinase in microfilariae of S. cervi. The endochitinase from S. cervi microfilariae was purified employing chitin affinity matrix and DEAE-Sephacel ion-exchange chromatography. The enzyme was purified about 55 fold with an enzyme recovery of 22.33%. The purified enzyme exhibited a doublet of protein bands on SDS-PAGE at 65-70 kDa. The closantel (chitinase inhibitor) strongly inhibited the enzyme activity of S. cervi microfilariae endochitinase with a Ki value of 4.3±0.18 µM.

Molecular cloning and characterization of a novel immunoreactive ATPase/RNA helicase in human filarial parasite Brugia malayi.

DEAD box proteins are putative RNA unwinding proteins found in organisms ranging from mammals to bacteria. We have identified a novel immunodominant cDNA clone, BmL3-helicase, encoding DEAD box RNA helicase by immunoscreening of a larval stage cDNA library of Brugia malayi. The cDNA sequence exhibited strong sequence homology to Caenorhabditis elegans and C. briggsae RNA helicase, a prototypic member of the DEAD (Asp-Glu-Ala-Asp) box protein family. The clone also showed similarity with RNA helicase of Wolbachia, an endosymbiotic bacterium of filarial parasite. It was overexpressed as approximately 50 kDa His-tag fusion protein, and ATP hydrolysis assay of recombinant enzyme showed that either ATP or dATP was required for the unwinding activity, indicating BmL3-helicase as an ATP/dATP-dependent RNA helicase. The recombinant protein also demonstrated cross-seroreactivity with human bancroftian sera. The presence of BmL3-helicase in various life stages of B. malayi was confirmed by immunoblotting of parasite-life-cycle extracts with polyclonal sera against the BmL3-helicase, which showed high levels of expression in microfilaria, L(3,) and adult (both male and female) stages. In the absence of an effective macrofilaricidal agent and validated anti-filarial drug targets, RNA helicases could be utilized as a rational drug target for developing agents against the human filarial parasite.

Onchocerca volvulus: expression and immunolocalization of a nematode cathepsin D-like lysosomal aspartic protease.

The N-terminal region of the cathepsin D-like aspartic protease from the human filarial parasite Onchocerca volvulus was expressed as His-tag fusion protein. Light and electron microscopic immunohistology using antibodies against the recombinant protein showed labeling of lysosomes in the hypodermis and epithelia of the intestine and the reproductive organs of Onchocerca. While developing oocytes were negative, mature oocytes and early morulae showed strong labeling. In older embryos and mature microfilariae, stained lysosomes were only found in a few cells. Cell death in degenerating microfilariae of patients untreated and treated with microfilaricidal drugs was associated with strong expression of aspartic protease. IgG1, IgG4, and IgE antibodies reactive with the recombinant protein were demonstrated in sera from onchocerciasis patients indicating exposure and recognition of the enzyme by the host's defence system. The aspartic protease of O. volvulus appears to function in intestinal digestion and tissue degradation of the filaria.

Histochemical differentiation of Dirofilaria immitis, Dirofilaria repens and Acanthocheilonema dracunculoides microfilariae by staining with a commercial kit, Leucognost-SP.

The diagnosis of canine heartworm infection is based upon the presence of circulating Dirofilaria immitis microfilariae or on techniques for the detection of serum antibodies or antigens. In the first of these, discrimination between D. immitis, D. repens and Acanthocheilonema dracunculoides microfilariae is based upon the acid phosphatase histochemical stain. In this paper, we propose an alternative technique for histochemical staining using a commercial kit test of naphthol-AS-OL (Leucognost-SP). This offers the advantages of speed and simplicity as compared to the standard Barka procedure.

The serpin secreted by Brugia malayi microfilariae, Bm-SPN-2, elicits strong, but short-lived, immune responses in mice and humans.

Understanding the basic immunology of an infectious disease requires insight into the pattern of T cell reactivity and specificity. Although lymphatic filariasis is a major tropical disease, the predominant T cell Ags of filarial species such as Brugia malayi are still undefined. We have now identified a prominent T cell Ag from B. malayi microfilariae (Mf) as Bm-SPN-2, a serpin secreted exclusively by this stage. Mf-infected mice mounted strong, but short-lived, Bm-SPN-2-specific Th1 responses, measured by in vitro production of IFN-gamma, but not IL-4 or IL-5, 14 days postinfection. By day 35, responsiveness to Bm-SPN-2 was lost despite enhanced reactivity to whole Mf extract. Single immunization with Mf extract also stimulated typical Th1 reactions to Bm-SPN-2, but IgG1 Ab responses dominated after repeated immunizations. Human patients displayed potent humoral responses to Bm-SPN-2 in both IgG1 and IgG4 subclasses. Thus, 100% (20 of 20) of the microfilaremic (MF(+)) patients bore IgG4 responses to Bm-SPN-2, while only 30% of endemic normal subjects were similarly positive. Following chemotherapy, Bm-SPN-2-specific Abs disappeared in 12 of 13 MF(+) patients, although the majority remained seropositive for whole parasite extract. PBMC from most, but not all, endemic subjects were induced to secrete IFN-gamma when stimulated with Bm-SPN-2. These findings demonstrate that Bm-SPN-2 is recognized by both murine and human T and B cells and indicate that their responses are under relatively stringent temporal control. This study also provides the first example of a stage-specific secreted molecule that acts as a major T cell Ag from filarial parasites and is a prime candidate for a serodiagnostic probe.

[Studies on recombinant chitinase and SXP-1 antigens as antimicrofilarial vaccines].

AIM: To determine whether immunization with recombinant filarial chitinase or a fragment containing the epitope recognized by McAbMF1 and SXP-1 could protect jirds against microfilaremia resulting from infection with B. malayi. METHODS: Test jirds were immunized with the following recombinant parasite antigens: filarial chitinase, the c-terminal fragments F7R2 or F8R2 of r-chitinase, filarial SXP-1, myosin or maltose binding protein (MBP). Employing immunochemical techniqe (SDS-PAGE, Western Blotting) and serology (ELISA) measured antifilarial antibodies level. RESULTS: Immunization of jirds with recombinant chitinase induced partial protection against microfilaremia resulting from subsequent infection with B. malayi, but did not reduce adult worm burdens. Vaccination was much less effective when administered during the prepatent stage of infection and was ineffective when given to microfilaremic jirds. Immunization of jirds with SXP-1, an antigen present in multiple worm stages also reduced microfilaremia and, in some experiments, adult worm burdens. CONCLUSION: The recombinant chitinase, fragments F7R2 and F8R2 and SXP-1 could provide partial protection against microfilaremia in jirds.

Gene structure, activity and localization of a catalase from intracellular bacteria in Onchocerca volvulus.

Within the context of studies on the antioxidant enzymes in Onchocerca volvulus, DNA clones encoding catalase (CAT) were isolated from an O. volvulus adult lambda zapII cDNA library. Analysis of their nucleotide and encoded amino acid sequences revealed that they derive from intracellular bacteria, rather than the O. volvulus nuclear genome. The endobacterial CAT gene was found to lie in a gene cluster, followed by a ferritin gene and an excinuclease gene. The endobacterial CAT gene encodes a functional enzyme capable of detoxifying H2O2, demonstrated by producing an active recombinant protein in an E. coli expression system. The purified 54 kDa protein has CAT activity over a broad pH range, with a specific activity of 103,000 +/- 3000 U mg(-1). The optical spectrum of the endobacterial CAT shows that it is a ferric haem-containing protein with a Soret band at 405 nm. To investigate the phylogeny of the intracellular bacterium in O. volvulus, a segment of the 16S rRNA gene was amplified from total genomic DNA by a polymerase chain reaction using universal eubacterial primers. A phylogenetic analysis of the O. volvulus-derived 16S rRNA sequence revealed that the endobacterium belongs to a distinct Wolbachia clade of the order Rickettsiales. Onchocercomata and biopsies containing different onchocercal species were immunohistochemically stained using polyclonal antibodies raised against the recombinant endobacterial CAT. CAT was detected in the endobacteria in the hypodermis of adult male and female O. volvulus, O. ochengi, O. gibsoni and O. fasciata. The endobacterial enzyme was also detected in onchocercal oocytes and all embryonic stages including intrauterine microfilariae as well as skin microfilariae. O. volvulus thus harbours Wolbachia-like endosymbionts which are transovarially transmitted and show particular affinity for the hypodermal tissues of the lateral chords.

[Is dirofilariasis in dogs spreading in south Switzerland?]. / Breitet sich in der Südschweiz die Dirofilariose beim Hund aus?

Microfilarial infections could be detected by the Difil Test in 11 (2.2%) of 479 blood samples of clinically asymptomatic dogs from the South of Switzerland. Dirofilaria repens and D. immitis were identified in 3 (0.6%) and 8 dogs (1.6%), respectively, by the acid phosphatase activity of the microfilariae. 10 dogs with microfilaremia had been abroad or a stay outside Switzerland could not be excluded. One dog diagnosed with D. immitis could have had acquired the infection in the canton Tessin according to information given by the owner. Dogs with microfilaremia are a potential source of infection for mosquitoes. An indigenous cycle of infection in the South of Switzerland is possible since the mean average temperature in summer is above 18 degrees C which is necessary for optimal parasite development in the vector. A strict control of imported dogs or animals exposed to the disease in endemic regions as well as the therapy of infected dogs in the South of Switzerland is advisable.

Secretory acetylcholinesterase of Setaria cervi microfilariae and its antigenic cross-reactivity with Wuchereria bancrofti.

Setaria cervi, a bovine filarial parasite, secretes acetylcholinesterase during in vitro cultivation. A significant amount of enzyme activity was detected both in culture media and somatic extracts of different developmental stages of the parasite. The microfilarial stage showed a higher level of AChE activity than adult worms, with females being considerably more active than males. The secretory enzyme from microfilariae preferentially utilized acetylthiocholine iodide as substrate and showed two electrophoretically distinct isoforms in native PAGE. Secretory enzyme was purified from the excretory/secretory products of microfilariae using edrophonium chloride linked to epoxy-activated sepharose. Analysis of purified acetylcholinesterase by SDS-PAGE revealed the existence of two proteins of 75kD and 45kD under nonreducing conditions. These secretory enzymes are antigenic and cross-reactive with Wuchereria bancrofti-infected asymptomatic microfilaraemic human sera when tested by enzyme linked immunosorbent assay and immunoblotting. The secretory AChE(s) from S. cervi microfilariae may be utilized for diagnosis of early filarial infections.

Ivermectin-induced killing of microfilariae in vitro by neutrophils mediated by NO.

Rat neutrophil granulocytes isolated after intraperitoneal casein injection of the donors exhibit high cytotoxic efficacy in vitro against microfilariae of Litomosoides carinii in the presence of ivermectin. Optimum effects of 80-90% killing of microfilariae were obtained with 100 ng ivermectin per milliliter and a microfilariae: cell ratio of 1:100. Spleen cells killed approximately 30% of the microfilariae under these conditions. Cytotoxic effects were independent of any adherence of the cell to the larvae. In contrast to the effects of spleen cells, cytotoxicity of neutrophils completely abrogated when cells and targets were separated by a membrane impermeable for the cells, suggesting a very short-living mediator in the latter case. Correspondingly, cytotoxic effects of neutrophils were completely inhibited by the addition of the arginine analogues NG-monomethyl-L-arginine and L-canavanine, indicating the involvement of reactive nitrogen intermediates. The nitric oxide scavenger hemoglobin also protected the microfilariae. Several compounds which are known to interfere with reactive oxygen intermediates were ineffective. An excess of ferrous ions in the medium in the presence of a reducing agent significantly reduced the cytotoxic efficacy of neutrophils.

Evaluation of recombinant chitinase and SXP1 antigens as antimicrofilarial vaccines.

Prior studies indicate that a microfilarial stage-specific chitinase is a possible candidate antigen for a transmission-blocking vaccine against Brugian filariasis. The antigen is a functional enzyme that progressively appears as microfilariae mature and become able to infect and develop in a susceptible mosquito vector. It is recognized by a monoclonal antibody that reduces microfilaremia in infected animals and by a subset of sera from infected persons who remain amicrofilaremic. Immunization of jirds with recombinant chitinase induced partial protection against microfilaremia resulting from subsequent infection with Brugia malayi, but did not reduce adult worm burdens. Vaccination was much less effective when administered during the prepatent stage of infection and was ineffective when given to microfilaremic jirds. The protective epitope appears to be located close to the carboxy terminus of the chitinase molecule. Immunization of jirds with SXP1, an antigen present in multiple worm stages, also reduced microfilaremia and, in some experiments, adult worm burdens, but hyperimmunization with a recombinant filarial myosin was not protective. These observations indicate that the relative timing of immunization and infection is an important factor in the efficacy of antimicrofilarial vaccines.

Discrete transcripts encode multiple chitinase isoforms in Brugian microfilariae.

The blood-borne microfilariae of the Brugian nematodes produce multiple isoforms of chitinase, whose expression is coincident with the onset of microfilarial infectivity for mosquitoes. A single cDNA sequence was previously obtained by screening a Brugia malayi microfilarial cDNA library, yet two chitinase isozymes are readily distinguished in this species. In this paper, we present evidence for the existence of multiple transcripts encoding Brugian microfilarial chitinases. Using primers based on the previously-sequenced cDNA clone, we amplified and sequenced two discrete products from B. malayi microfilarial RNA by RT-PCR. While the shorter fragment was nearly identical to the previously sequenced cDNA, the larger fragment contained an extra copy of a serine/threonine-rich repeat. RNAse protection assays were used to demonstrate that both sequences represent true transcripts, and not PCR artifacts. Using primers based on the B.malayi sequence, two novel sequences were generated by RT-PCR from B. pahangi microfilariae. Homologous and cross-species RNAse protection assays verified that multiple transcripts also encode chitinase isozymes in B. pahangi microfilariae.

Gene cloning and production of active recombinant Brugia malayi microfilarial chitinase.

Canlas and coworkers [Canlas et al. (1984) Am. J. Trop. Med. Hyg. 33, 420-424] isolated a monoclonal antibody (MF1) which, upon passive transfer, led to the clearance of Brugia malayi (Bm) microfilariae (mf) from infected jirds. The target of MF1 is a developmentally regulated mf chitinase (Cht) (Fuhrman et al. (1992) Proc. Natl. Acad. Sci. USA 89, 1548-1552). This paper describes the production of enzymatically active Bm Cht in Escherichia coli. Standard expression conditions resulted in production of an insoluble maltose-binding protein (MBP)::Cht fusion protein, but by optimizing expression conditions, the amount of soluble MBP::Cht was increased 25-fold. The specific activity of the soluble MBP::Cht isolated from the E. coli cytoplasm was low. Exporting MBP::Cht into the E. coli periplasmic space increased the specific activity by 12-fold. This suggests that secretion through the membrane and/or the environment of the periplasmic space results in improved folding of recombinant Bm Cht.

Expression of recombinant microfilarial chitinase and analysis of domain function.

A family of chitinase isozymes was previously characterized from the microfilariae of Brugia malayi and Brugia pahangi. The expression of these enzymes correlates with the onset of microfilarial infectivity for the mosquito vector. To study the role of chitinase activity in filarial transmission, the p70 chitinase from Brugia malayi was cloned and expressed in two forms: a full-length product of approximately 62 kDa and a truncated product of 43 kDa containing only the N-terminal catalytic domain. Two epitopes defined by monoclonal antibodies were preserved only in the full-length recombinant enzyme. It was found that deletion of the cysteine-rich C-terminal domain increased the yield of the recombinant expression product, and did not affect the K(m) for di- or trisaccharide substrates. However, affinity for high molecular weight chitin was specific to the full-length molecule, and is apparently mediated by the cysteine-rich domain, suggesting a role for this part of the protein in targeting the secreted enzyme to its substrate.

Transglutaminase-catalyzed incorporation of host proteins in Brugia malayi microfilariae.

Recently, we have characterized and purified a novel transglutaminase (pTGase) from adults of the filarial worms Brugia malayi. pTGase-catalyzed reactions seem to play an essential role during in utero growth and development of microfilariae. The results presented here demonstrate that exudates from the peritoneal cavity of jirds, the site where adult worms of B. malayi reside and produce microfilariae, contain several host proteins that can serve as substrates in pTGase-catalyzed reactions. The peritoneal exudate proteins are avidly taken up by adult female worms in vitro and incorporated into the developing microfilariae. Among the several host proteins that were crosslinked, a 68-kDa molecular weight protein (p68) was found to be the major protein taken up by the parasites. Following uptake by the parasites, the peritoneal exudate proteins are crosslinked to form high molecular weight aggregates, that are subsequently incorporated into in utero developing embryos and microfilariae. The cross-linking of host proteins was, however, inhibited by monodansylcadaverine (MDC), a competitive inhibitor of pTGase. Antibodies raised against the jird peritoneal exudate proteins strongly immunoreacted with a 68-kDa protein in adult worms and microfilariae extracts but not with infective-stage larvae (L3) of B. malayi. These results suggest that pTGase is involved in covalent incorporation of host proteins (such as p68) into developing embryos and microfilariae of B. malayi.

Differential recognition of microfilarial chitinase, a transmission-blocking vaccine candidate antigen, by sera from patients with Brugian and Bancroftian filariasis.

We examined the reactivity of human sera with recombinant microfilarial chitinase and with the antigenic determinant on the native parasite molecule identified by monoclonal antibody (MAb) MF1. In Brugian filariasis, the MF1 epitope is preferentially recognized by residents of endemic areas who remain amicrofilaremic and asymptomatic despite lifelong exposure to filarial worms. Reactivity with filarial chitinase and its MF1 epitope inversely correlates with microfilaremia levels in Bancroftian filariasis and is associated with a prolonged amicrofilaremic state following a single course of treatment with diethylcarbamazine. Chitinase does not appear to be a target of human antibodies that promote the adherence of cells to microfilariae, even though MAb MF1 itself promotes antibody-dependent, cell-mediated cytotoxic (ADCC) reactions that kill microfilariae in vitro. Such ADCC reactions are most often mediated by sera from amicrofilaremic patients with chronic elephantiasis that contain low or undetectable levels of IgG antibodies to chitinase. In contrast, antibodies to the MF1 epitope on this microfilarial stage-specific antigen are mostly present in amicrofilaremic donors without clinical lymphatic disease. These observations indicate that antibodies to the MF1 epitope of microfilarial chitinase reflect some degree of immune resistance to microfilaremia in a subgroup of patients with asymptomatic lymphatic filariasis. The amicrofilaremic state of individuals with chronic lymphatic disease appears to be mediated by reactivity to a different parasite antigen(s).

Structure and function of a family of chitinase isozymes from Brugian microfilariae.

A family of chitinase isozymes, consisting of three proteins from the microfilariae of Brugia pahangi and two previously described chitinases from the microfilariae of B. malayi, has been characterized. The five members of this family display closely related chitin-degrading activities, characterized by strong endo- rather than exochitinase activity. All five proteins have highly conserved sequences at their amino-termini and appear to share a two-domain tertiary structure, as demonstrated by proteolysis of the native molecules. The amino-terminal domain appears to be responsible for the enzymatic activity and retains this activity when cleaved and separated from the remainder of the molecule(s). Glycosylation differences are apparent for the isozymes from the two different Brugian species. No representatives of this family could be detected in the microfilariae of another filarial species, Dirofilaria immitis, which differs in several aspects of its lifestyle from the Brugian filariae.