Setaria cervi: immunoprophylactic potential of glutathione-S-transferase against filarial parasite Brugia malayi

Glutathione-S-transferase (GST) has been detected in the adult female Setaria cervi, a bovine filarial parasite. The role of S. cervi GST antigen in inducing immunity in the host against Brugia malayi microfilariae and infective larvae was studied by in vitro antibody dependent cell mediated reaction as well as in situ inoculation of filarial parasites within a microchamber in Mastomys. The immune sera from glutathione-S-transferase immunized Mastomys promoted the adherence of peritoneal exudate cells to B. malayi microfilariae and infective larvae in vitro inducing 80.7 and 77.6% cytotoxicity, respectively in 72 h. In the microchambers implanted in the immunized Mastomys host cells could migrate and adhere to the microfilariae and infective larvae and induced 77.8 and 75% cytotoxicity to B. malayi microfilariae and infective larvae in 72 h, respectively. These results suggest that native GST from S. cervi is effective in inducing protection against heterologous B. malayi filarial parasite and thus has potential in immunoprophylaxis.     

Effect of ferulic acid from Hibiscus mutabilis on filarial parasite Setaria cervi: Molecular and biochemical approaches

In the reported work the in vitro activity of a methanolic extract of leaves of Hibiscus mutabilis (Malvaceae) against bovine Setaria cervi worms has been investigated. Bioassay-guided fractionation led to isolation of ferulic acid from ethyl acetate fraction. The crude extract and ferulic acid, the active molecule, showed significant microfilaricidal as well as macrofilaricidal activities against the microfilaria (L(1)) and adult of S. cervi by both a worm motility and MTT reduction assay. The findings thus provide a new lead for development of a filaricidal drug from natural products. To examine the possible mechanism of action of ferulic acid, the involvement of apoptosis in adult worms of S. cervi was investigated. We found extreme cellular disturbances in ferulic acid-treated adult worms characterized by chromatin condensation, in situ DNA fragmentation and nucleosomal DNA laddering. In this work we are reporting for the first time that ferulic acid exerts its antifilarial effect through induction of apoptosis and by downregulating and altering the level of some key antioxidants (GSH, GST and SOD) of the filarial nematode S. cervi. Our results have provided experimental evidence supporting that ferulic acid causes an increased proapoptotic gene expression and decreased expression of anti-apoptotic genes simultaneously with an elevated level of ROS and gradual dose dependent decline of parasitic GSH level. We also observed a gradual dose dependent elevation of GST and SOD activity in the ferulic acid treated worms.     

Partial purification and characterization of acetylcholinesterase isozymes from adult bovine filarial parasite Setaria cervi

Filariasis is a major health problem, affecting millions of people in tropical and sub-tropical regions of the world. The isolation and characterization of parasite-specific enzyme targets is essential for developing effective control measures against filariasis. Acetylcholinesterase (AchE, E.C. 3.1.1.7), an important enzyme of neuromuscular transmission is found in a number of helminths including filarial parasites and may be playing a role in host-parasite interactions. Earlier, we demonstrated the presence of two isozymes of AchE, different from the host enzyme in the human (Brugia malayi) and bovine (Setaria cervi) filarial parasites. In the present study, two isozymes of AchE (pAchE1 and pAchE2) were isolated from S. cervi adults and characterized biochemically and immunochemically. The AchE was partially purified on Con-A Sepharose column and then subjected to preparative polyacrylamide gel electrophoresis (PAGE) for separation of the isozymes. The AchE activity was localized by the staining of gel and the isozymes were isolated from the PAGE strips by electroelution. Both isozymes preferentially utilized acetylcholine iodide as substrate and were strongly inhibited by the true AchE inhibitor (BW284c51), suggesting that they were true AchE. The polyclonal antibodies produced against the isozymes showed significant cross-reactivity with B. malayi AchE, but not against the host enzyme. These findings suggested that both the isozymes were biochemically (in terms of their substrate specificity and inhibitor sensitivity) and immunochemically similar, but different from the host enzyme.     

Effect of diethylcarbamazine, butylated hydroxy anisole and methyl substituted chalcone on filarial parasite Setaria cervi: proteomic and biochemical approaches

For survival, parasite exerts several lines of defense of which drug neutralization is one of the major phenomena. Lack of phase I cytochrome P450 in some of the nematode render them depend on the phase II detoxification system involving GST as a major detoxifying enzymes. In present study, the antifilarial DEC, phenolic compound BHA and methyl chalcone have been evaluated for proteomic and biochemical studies in Setaria cervi. BHA and methyl chalcone showed cytotoxic effect leading to irreversible inhibition in motility and viability of parasites. These drugs showed marked alteration in proteomic profile of S. cervi at 100 μM concentration with 10.82, 8.52 and 6.75% downregulated (<0.5) and 7.64, 31.78 and 24.32% upregulated (>1.5) in DEC, BHA and methyl chalcone treatment respectively. Significant depletion in GSH level with increase in NO production was observed. Amongst these compounds, methyl chalcone demonstrated significant inhibitory effect (p<0.05) on GST, PGHS and PTP activity leading to loss of metabolic homeostasis and parasite death. The cytotoxic response and altered expression profile of major enzymes under drug exposure suggested the oxidative stress induced apoptosis as a major cause of parasite killing which was further supported by DNA fragmentation in BHA and methyl chalcone.     

Cytosolic and microsomal glutathione-S-transferases from bovine filarial worms Setaria cervi

The work presented here deals with the status of glutathione-S-transferase (GST; E.C. 2.5.1.18), the major enzyme of the phase II detoxification pathway, in bovine filarial worms Setaria cervi. GST activity was determined in various subcellular fractions of bovine filarial worms S. cervi (Bubalus bubalis Linn.) and was found to be mainly associated with cytosolic and microsomal fractions. The respective specific activities of the enzyme from cytosolic and microsomal fractions of S. cervi females were determined to be 0.122 +/- 0.024 and 0.010 +/- 0.0052 micromol/min/mg protein, respectively. Cytosolic enzyme was found to possess optimal activity between pH 6.5 and 7.5, whereas the microsomal enzyme showed a broad pH optima, centered at pH 6.0. Kinetic studies on the cytosolic and microsomal forms of the enzyme revealed significant differences between them, thereby indicating that microsomal GST from S. cervi is quite distinct to the cytosolic protein catalyzing the same reaction.     

Characterization of Ca(2+)-ATPase of Setaria cervi (Nematoda: Filarioidea): effect of phenothiazines and anthelmintics.

1. A Mg2+ independent, Ca(2+)-ATPase requiring high concentrations of Ca2+ (5 mM) for the activation, equally distributed in cuticle-muscular-hypodermis, genital organs and gastrointestinal tissues and mainly localized in 10,000 g pellet fraction, was identified in Setaria cervi, a bovine filarial parasite. 2. Filarial enzyme showed Km value of 3.33 mM for ATP as computed from the double reciprocal Lineweaver-Burk plot. 3. The enzyme could be completely solubilized by sonication with about 4-fold increase in specific activity of the enzyme. 4. The enzyme showed about 2-fold activation by the calmodulin fractions isolated from S. cervi and rat brain homogenates. 5. The enzyme was highly sensitive to inhibition with some phenothiazine derivatives. Trifluoperazine was observed to be the most potent inhibitor followed by promethazine and chlorpromazine. 6. Some anthelmintics viz. diethycarbamazine and centperazine were found to be highly potent inhibitors of the enzyme, significant inhibition of filarial Ca(2+)-ATPase was also observed with levamisole and suramine. 7. Studies indicate Ca(2+)-ATPase of S. cervi as a potential chemotherapeutic target.     

Purification and biochemical characterization of cytosolic glutathione-S-transferase from filarial worms Setaria cervi

The present study reports the purification and characterization of GST from cytosolic fraction of Setaria cervi. GST activity was determined in various subcellular fractions of bovine filarial worms S. cervi (Bubalus bubalis Linn.) and was found to be localized mainly in the cytosolic and microsomal fractions. The soluble enzyme from S. cervi was purified to homogeneity using a combination of salt precipitation, centrifugation, cation exchange and GSH-Sepharose affinity chromatography followed by ultrafiltration. SDS-PAGE analysis revealed a single band and activity staining was also detected on PAGE gels. Gel filtration and MALDI-TOF studies revealed that the native enzyme is a homodimer with a subunit molecular mass of 24.6 kDa. Comparison of kinetic properties of the parasitic and mammalian enzymes revealed significant differences between them. The substrate specificity and inhibitor profile of cytosolic GST from S. cervi appeared to be different from GST from mammalian sources.     

Excretory secretory antigens of filarial parasite Setaria digitata

Excretory Secretory (ES) material isolated from the culture fluid of S. digitata was highly antigenic. Neither oesophagus nor excretory cells and excretory pore of the parasite showed reasonable fluorescence with ES antisera. However, the uterine tissue and the egg showed strong fluorescence. The egg showed fluorescence mainly in the space between embryo and egg membrane (amniotic fluid). The amniotic fluid was highly antigenic and appears to be the most important source of ES material released by the filarial parasites.     

Cuticle specific antigens from filarial parasite Setaria digitata

A fairly clean antigenic cuticle was isolated from the S. digitata by dissection. Crossed immunoelectrophoresis of cuticular antigens against rabbit antiserum to cuticular antigens gave 30 anodic and 5 cathodic precipitin arcs. The cuticle antiserum cross reacted with muscle, uterus and pseudocoelomic fluid. When the antiserum was absorbed individually with these cross reacting somatic preparations, analysis against cuticle antigens gave only a limited number of precipitin arcs. But the results are clear enough to indicate the presence of cuticle specific antigens. As the cuticle of the parasite is in contact with the host system, an antigenic preparation from it may prove a useful tool for the detection of filariasis.     

Voltage activated calcium channels in somatic muscle of filarial nematode Setaria cervi

Acetylcholine (Ach), levamisole and pyrantel pamoate all cause stimulation of spontaneous rhythmic movements of whole worm and nerve muscle preparation of filarial nematode Setaria cervi. These stimulant effects are manifested only in the presence of available Ca2+ or extracellular Ca2+. Electrical stimulation of nerve muscle preparation of Setaria cervi elicited depolarization and increase in amplitude and tone of contractions. Electrical current stimulates Ca2+ entry leading to depolarization and during the phase of depolarization addition of any of the three stimulants viz. Ach, levamisole or pyrantel pamoate fails to elicit any response on nerve muscle preparation. The findings indicate that electrical stimulation, excitatory neurotransmitter Ach and stimulant anthelmintics levamisole and pyrantel pamoate all produce their stimulant effect by triggering entry of Ca2+ into the muscle cell. Further, blocking the calcium channels by nifedepine and thereby the entry of Ca2+ into the cells blocks the stimulant effect of Ach levamisole and pyrantel pamoate.     

Fumarate reductase system of filarial parasite Setaria digitata.

In the cattle filarial parasite Setaria digitata the mitochondria like particles have been shown to possess NADH dependent fumarate reduction coupled with site I electron transport associated phosphorylation. This reduction is catalysed by the fumarate reductase system. The Km for fumarate is 1.47 mM and that for NADH is 0.33 mM. This activity is sensitive to rotenone, antimycin A and o-Hydroxy diphenyl. One ATP is produced for each pair of electrons transferred to fumarate. The fumarate reductase system consisting of NADH-coenzyme Q reductase, cytochrome b like component(s) and succinate dehydrogenase/fumarate reductase is thus very important and hence specific inhibitors of the system may prove useful in the effective control of filariasis.     

Succinate oxidase and fumarate reductase systems of filarial parasite Setaria digitata

Activities of succinate oxidase, fumarate reductase (FR) and succinate dehydrogenase (SDH) under a set of defined conditions were determined in the mitochondrial isolate from Setaria digitata, the filarial parasite from the cattle Bos indicus. Presence of only two activities namely SDH and succinate--UQ reductase of the succinate oxidase system could be detected in S. digitata. In the absence of cytochromes, the 3rd enzyme of the complex namely cytochrome oxidase is absent and it is proposed that an alternative oxidase is responsible for completing the succinate oxidation expressed as succinate oxidase activity. Though SDH and FR catalyse reverse reactions, they responded differently to modulators such as oxaloacetate, aspartate, alanine, pyruvate and fumarate. The degree of response of the two activities against inhibitors of electron transport was also different. Interestingly fumarate caused only 50% inhibition of succinate oxidation, while the effect against FR was more convincing.     

Setaria cervi: kinetic studies of filarial glutathione synthetase by high performance liquid chromatography

The bovine filarial worm Setaria cervi was found to have abundance of glutathione synthetase (GS; EC 6.3.2.3) activity, the enzyme being involved in catalysing the final step of glutathione (GSH) biosynthesis. A RP-HPLC method involving precolumn derivatization with o-phthalaldehyde has been followed for the estimation of GS activity in crude filarial preparations. Subcellular fractionation of the enzyme was undertaken and it was confirmed to be a soluble protein residing mainly in cytosolic fraction. Attempts to determine the Km value for L-gamma-glutamyl-L-cysteine gave a distinctly nonlinear double-reciprocal plot in which data obtained at relatively high dipeptide concentrations (>1 mM) extrapolate to a Km value of about 400 microM whereas data obtained at lower concentrations (<0.1 mM) extrapolate to a value of about 33 microM. Km was determined to be around 950 and 410 microM for ATP and glycine, respectively. The effect of various amino acids was studied on enzyme activity at 1mM concentration. L-cystine caused a significant enzyme inhibition of 11%. Preincubation with N-ethylmaleimide also resulted in significant inhibition of GS activity.     

Quinone mediated ATP production in the filarial parasite Setaria digitata

The cattle filarial parasite Setaria digitata, a facultative anaerobe which is reported to be cyanide insensitive, lacks cytochromes and presents many unique characters. Experiments showed the occurrence of two lower quinones Q6 and Q8 and its rapid synthesis is revealed by a [14C] acetate incorporation study. A schematic quinone mediated hydrogen peroxide production with the generation of ATP through oxidation of substrates has been proposed. Search for specific blockers at the level of quinone might prove to be an effective measure for the control of filarial parasites and thereby filariasis.     

Biochemical composition and metabolic pathways of filarial worms Setaria cervi: search for new antifilarial agents

The main problem regarding the chemotherapy of filariasis is that no safe and effective drug is available yet to combat the adult human filarial worms. Setaria cervi, the causal organism of setariasis and lumbar paralysis in cattle, is routinely employed as a model organism for conducting biochemical and enzymatic studies on filarial parasites. In view of the practical difficulties in procuring human strains of Wuchereria bancrofti and Brugia malayi for drug screening, the bovine filarial parasite S. cervi, resembling the human species in having microfilarial periodicity and chemotherapeutic response to known antifilarial agents, is widely used as a model in such studies. For a rational approach to antifilarial chemotherapy, knowledge of the biochemical composition and metabolic pathways of this helminth parasite may be of paramount importance, so that more potent antifilarial agents based on specific drug targets can be identified in drug discovery programmes. The present review provides an update on the biochemistry of the important metabolic pathways functioning within this potentially important bovine parasite, that have so far been studied, and on those that need to be investigated further so as to identify novel drug targets that can be exploited for designing new antifilarial drugs.     

Functional importance of the different ubiquinones in the filarial parasite Setaria digitata

The cattle filarial parasite Setaria digitata is reported to have two ubiquinones, Q6 and Q8. These quinones are synthesized within the parasite itself and are not of host origin. Maximum concentration is found in the mitochondria of the parasite. When both Q6 and Q8 are formed and present in the adult stage, the microfilarial stage is now shown to contain only one quinone, namely Q6. Both in the adult and the mf stage, Q6 is associated with the process of electron transport. Though reduction of oxygen in S. digitata results in the generation of high concentrations of oxidants, antioxidants such as catalase and tocopherol are present in relatively lower concentrations. Hence it is proposed that the higher ubiquinone Q8 which is not involved in the electron transport process, is functioning as an antioxidant compensating for the reduced levels of classical antioxidants.     

Oxidative phosphorylation coupled to electron transfer in the filarial parasite Setaria digitata

The filarial parasite of Bos indicus, Setaria digitata is reported to have many unique characteristics such as cyanide insensitivity and mitochondrial hydrogen peroxide production. The latter is more sensitive to the alternative oxidase inhibitor salicylhydroxamic acid (SHAM). Studies on the generation of ATP molecules through mitochondriae in the presence of different substrates and inhibitors showed that the oxidative phosphorylation coupled to electron transport occurs mainly at site I and involves the participation of quinone Q8. Based on the data, a scheme for the filarial electron transport system is proposed in which the quinones have a central role. Hence inhibitors at the quinone level might prove to be effective targets for chemotherapy.     

Oxidative activities in mitochondria-like particles from Setaria digitata, a filarial parasite.

The oxidative metabolic potential of Setaria digitata, a filarial parasite found in the intraperitoneal cavity of cattle, was investigated. These worms showed active wriggling movements which were not affected by respiratory poisons such as cyanide, rotenone and malonate. They also possessed cyanide-insensitive and glucose-independent oxygen consumption pathways. By differential centrifugation of sucrose homogenates, a fraction containing mitochondria-like particles was obtained in which the activity of the marker enzyme, succinate dehydrogenase, was recovered. This fraction catalysed succinate- and NADH-dependent reduction of both cytochrome c and dyes. Oxygen uptake found with succinate, NADH and ascorbate as substrates was not sensitive to cyanide. Cytochromes could not be detected in either this fraction or homogenates of the worms. H2O2 generation with a number of substrates and lipid peroxidation by measuring malondialdehyde formed as well as by accompanying oxygen uptake were demonstrated in the mitochondria-like particles. A lipid quinone, possibly with a short side chain and related to ubiquinone, was detected in the worms. The results suggested the existence of two cyanide-insensitive oxygen-consuming reactions in Setaria: one respiratory substrate-independent lipid peroxidation, and a second substrate-dependent reaction that requires an auto-oxidizable quinone but not a cytochrome system.     

In silico characterization of a RNA binding protein of cattle filarial parasite Setaria digitata

Human lymphatic filariasis (HLF) is a neglected tropical disease which threatens nearly 1.4 billion people in 73 countries worldwide. Wuchereria bancrofti is the major causative agent of HLF and it closely resembles cattle filarial parasite Setaria digitata. Due to difficulties in procuring W. bancrofti parasite material, S. digitata cDNA library has been constructed to identify novel drug targets against HLF and many of the cDNA sequences are yet to be assigned structure and function. In this study, a 549 bp long cDNA (sdrbp) has been sequenced and characterized in silico. The shortest ORF of 249 bp from the isolated cDNA encodes a polypeptide of 82 amino acids and shows an amino acid identity of 54% with the RRM domain of human cleavage stimulation factor-64 kDa subunit (CstF-64). Structure of the protein (sdRBP) obtained by homology modelling using RRM of CstF-64 as template adopts classical RRM topology (β1α1β2β3α2β4). sdRBP model built was validated by superimposition tools and Ramachandran plot analysis. CstF-64 plays an important role in pre-mRNA polyadenylation by interacting with specific GU-rich downstream sequence element. Molecular docking studies of sdRBP with different RNA molecules revealed that sdRBP has greater binding affinity to GU-rich RNA and comparable results were obtained upon similar docking of RRM of CstF-64 with the same RNA molecules. Therefore, sdRBP is likely to perform homologous function in S. digitata. This study brings new dimensions to the functional analysis of RNA binding proteins of S. digitata and their evaluation as new drug targets against HLF.