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ABSTRACT: We have isolated two genes, Hco-lgc-53 and Hco-mod-1, from the parasitic nematode Haemonchus contortus which are orthologues of previously characterized genes that encode dopamine and serotonin-gated chloride channels, respectively, in Caenhorhabditis elegans. A search of transcriptome data for the filarial nematode parasites Loa loa, Brugia malayi and Wucheria bancrofti revealed predicted coding sequences for orthologues of acetylcholine, serotonin and dopamine-gated chloride channels which correspond to the C. elegans clades acc-1, mod-1 and ggr-3, respectively. Genome data for the more distantly related nematode parasite, Trichinella spiralis, contains genes predicted to encode members of the acc-1 clade only, but all three clades were absent from the trematode Schistosoma mansoni. Analysis of the ratio of non-synonymous to synonymous substitutions (ω) for receptor subunit sequences revealed strong selective constraint over the entire protein, consistent with the known highly conserved 3D structure of cys-loop receptors. This constraint was significantly greater for binding loop residues that are predicted to contact bound ligand and residues of the transmembrane domains. The substitution rate for ligand binding residues was significantly higher for branches leading to the acc-1 and mod-1 clades, where the convergent evolution for binding acetylcholine and serotonin, respectively, is thought to have occurred. Homology models of both Hco-MOD-1 and Hco-LGC-53 channels revealed the presence of binding structures typical of the cys-loop receptor family including the presence of an aromatic box that is important for the formation of the binding pocket. Both receptors contain a tryptophan in loop C that appears to be a key residue important for the binding of amines to ligand-gated chloride channels. As additional ligand-gated chloride-channel sequences become available for a wider range of species the combination of molecular modeling and analysis of sequence evolution should provide an effective tool to understand the wide diversity of neurotransmitters that bind to this unique group of receptors.
Parasitology International 04/2013; · 2.13 Impact Factor
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ABSTRACT: Levamisole and pyrantel are old (1965) but useful anthelmintics that selectively activate nematode acetylcholine ion channel receptors; they are used to treat roundworm infections in humans and animals. Interest in their actions has surged, giving rise to new knowledge and technical advances, including an ability to reconstitute receptors that reveal more details of modes of action/resistance. We now know that the receptors are plastic and may form diverse species-dependent subtypes of receptor with different sensitivities to individual cholinergic anthelmintics. Understanding the biology of the levamisole receptors is expected to inform other studies on anthelmintics (ivermectin and emodepside) that act on ion channels.
Trends in Parasitology 05/2012; 28(7):289-96. · 5.14 Impact Factor
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ABSTRACT: Parasitic nematode infection of humans and livestock is a major problem globally. Attempts to control nematode populations have led to the development of several classes of anthelmintic, which target cys-loop ligand-gated ion channels. Unlike the vertebrate nervous system, the nematode nervous system possesses a large and diversified array of ligand-gated chloride channels that comprise key components of the inhibitory neurotransmission system. In particular, cys-loop GABA receptors have evolved to play many fundamental roles in nematode behaviour such as locomotion. Analysis of the genomes of several free-living and parasitic nematodes suggests that there are several groups of cys-loop GABA receptor subunits that, for the most part, are conserved among nematodes. Despite many similarities with vertebrate cys-loop GABA receptors, those in nematodes are quite distinct in sequence similarity, subunit composition and biological function. With rising anthelmintic resistance in many nematode populations worldwide, GABA receptors should become an area of increased scientific investigation in the development of the next generation of anthelmintics.
Invertebrate Neuroscience 03/2012; 12(1):3-12. · 1.32 Impact Factor
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ABSTRACT: Tyramine (TA), a trace amine, is becoming accepted as a main stream neurotransmitter in invertebrates. Recent evidence indicates that part of the function of TA in nematodes involves a novel receptor (Cel-LGC-55) from the ligand-gated chloride channel class of ionotropic receptors. However, the role of TA or its receptors in the biology of nematode parasites is limited. Haemonchus contortus is a deadly parasitic worm which causes significant economic burden in the production of small ruminants in many parts of the world. In this study, we have cloned and characterized a novel LGCC from H. contortus which we have named Hco-LGC-55. This receptor subunit is a clear orthologue of Cel-LGC-55 and is able to form a homomeric chloride channel that is gated by tyramine, dopamine and octopamine. Semi-quantitative reverse transcription-polymerase chain reaction (sqRT-PCR) shows that this subunit is expressed in all life-cycle stages of the worm, but appears to have reduced mRNA expression in the adult male.
Molecular and Biochemical Parasitology 10/2010; 173(2):64-8. · 2.55 Impact Factor
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ABSTRACT: The central theme of Shakespeare's Romeo and Juliet is that names are meaningless, artificial constructs, detached from any underlying reality. By contrast, we argue that a well chosen gene name can concisely convey a wealth of relevant biological information. A consistent nomenclature adds transparency that can have a real impact on our understanding of gene function. Currently, genes in parasitic nematodes are often named ad hoc, leading to confusion that can be resolved by adherence to a nomenclature standard adapted from Caenorhabditis elegans. We demonstrate this with ligand-gated ion-channels and propose that the flood of genome data and differences between parasites and the free living C. elegans will require modification of the standard.
Trends in Parasitology 07/2010; 26(7):334-40. · 5.14 Impact Factor
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ABSTRACT: The molecular mechanisms of levamisole (LEV) activity and expression of resistance remain largely unknown in parasitic nematodes. In contrast, genetic screens for mutants that survive exposure to LEV in the free-living nematode Caenorhabditis elegans have led to the identification of five genes (unc-38, unc-63, unc-29, lev-1 and lev-8) that encode a LEV-sensitive acetylcholine receptor (L-AChR). Loss of these genes leads to LEV resistance. In this study, orthologues of these genes were identified in three species of trichostrongylid nematodes that have a major impact on small ruminants: Haemonchus contortus, Teladorsagia circumcincta and Trichostrongylus colubriformis. Polymorphism associated with LEV resistance have been investigated by comparing transcripts of these subunits in LEV susceptible and LEV-resistant isolates of the three strongylid species.
Partial sequences were identified by PCR experiments and full-length cDNA sequences corresponding to AChR subunits in the three trichostrongylid species were obtained using 3'-rapid amplification of cDNA ends-PCR and 5' rapid amplification of cDNA ends anchored with the spliced leader sequence, SL1. Expression of L-AChR subunits was investigated in LEV-resistant and LEV-susceptible isolates of H. contortus, T. circumcincta and T. colubriformis using reverse transcription PCR.
We have identified a total of 20 full-length cDNA sequences corresponding to L-AChR subunits in three parasitic trichostrongylid species of which 14 correspond to novel sequences. Genes orthologous to unc-29, unc-63, unc-38 and lev-1 were found in each trichostrongylid species, whereas no gene corresponding to lev-8 has yet been identified. We have found 11 distinct paralogous sequences corresponding to the C. elegans unc-29 gene clustered in four groups revealing an unexpected diversity of unc-29-like genes. Complete coding sequences of the L-AChR subunits in two LEV-resistant and three susceptible isolates of H. contortus, T. circumcincta and T. colubriformis were essentially unchanged, but abbreviated transcripts of the unc-63 subunit were specifically expressed in resistant isolates of all three species.
The candidate gene strategy developed in this study revealed an unexpectedly high diversity of L-AChR subunits specific to the trichostrongylid parasites that are a principal target for the drug LEV. Abbreviated variants, predicted to produce nonfunctional unc-63, were associated with LEV resistance. This study contributes significantly to a better understanding of LEV receptor constitution in parasitic nematodes and highlights the putative role of aberrant mRNA encoding L-AChR subunits in LEV resistance.
Pharmacogenetics and Genomics 07/2010; 20(7):414-25. · 3.48 Impact Factor
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ABSTRACT: Anthelmintic resistance in parasitic nematodes of livestock is a chronic problem in many parts of the world. Benzimidazoles are effective, broad-spectrum anthelmintics that bind to and selectively depolymerise microtubules. Resistance to the benzimidazoles, however, developed quickly and is caused by genetic changes in genes encoding beta-tubulins, subunits of microtubules. In Haemonchus contortus, resistance to avermectins has been correlated with genetic changes at a gene encoding a P-glycoprotein, a cell membrane transport protein that has a very high affinity for ivermectin. The substrate specificity of P-glycoprotein is very broad, and resistance to benzimidazoles can be modulated by lectins specific for P-glycoprotein. We investigated the possibility that genetic changes in P-glycoprotein might be correlated with benzimidazole resistance in nematodes. An analysis of restriction fragment length polymorphisms of a P-glycoprotein gene from a sensitive and a cambendazole-selected strain of H. contortus, derived from the sensitive strain, showed a significant difference in allele frequencies between strains. The frequency of one allele in particular increased substantially. The same allele was also found at a high frequency in an independently derived thiabendazole-selected field isolate. We present genetic evidence of selection at a P-glycoprotein locus during selection for benzimidzole resistance in H. contortus.
Veterinary Parasitology 04/2008; 152(1-2):101-7. · 2.58 Impact Factor
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ABSTRACT: Avermectins and milbemycins are believed to exert their anthelmintic effects by binding to glutamate-gated chloride channels (GluCls). Two GluCl subunits have been localized in the pharynx in Caenorhabditis elegans, and the pharynx has been implicated as a major target for avermectins in C. elegans. However, in parasitic nematodes, the pharyngeal localization of the GluCl subunits needs to be determined. The HcGluCla gene encoding an alpha-type GluCl subunit has been cloned from Haemonchus contortus previously. To investigate the expression site of the HcGluCla gene we have isolated a 1439bp 5'-flanking region and determined the genomic organization of this gene. The HcGluCla gene is composed of 12 exons separated by 11 introns and spans approximately 7.3kb of genomic DNA. Analysis of the 1439bp 5'-flanking region of the HcGluCla gene revealed that it contained TATA, CCAAT boxes, and several other consensus transcriptional factor recognition sequences. The 1439bp 5'-flanking region and the first exon and intron and part of the second exon of the HcGluCla gene were fused to green fluorescence protein (GFP) reporter gene and microinjected into the gonads of C. elegans. After microinjection of the construct into C. elegans, four stable transformed lines were established and assayed for GFP expression. The transformed animals exhibited fluorescence in the two pairs of MC and M2 pharyngeal neurons, but no expression was detected in the muscle cells. Expression of HcGluCla in pharyngeal neurons suggests a mechanism for the effects of avermectins and milbemycins on pharyngeal function in parasitic nematodes.
Molecular and Biochemical Parasitology 05/2004; 134(2):267-74. · 2.55 Impact Factor
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ABSTRACT: The mode of action of ivermectin (IVM) in nematodes appears to be the opening of inhibitory ion channels, including the glutamate-gated chloride channel (GluCl). Recently, it has been shown that IVM binds with high affinity to a Haemonchus contortus GluCl subunit (HcGluCla) expressed in COS-7 cells, and this binding is potentiated in the presence of glutamate. To gain further insight into the potentiation of macrocyclic lactone anthlemintics we have screened various glutamatergic and nonglutamatergic ligands for their ability to enhance [ 3H ] IVM binding to HcGluCla. Of the ligands tested, only glutamate and ibotenate potentiated [ 3H ] IVM binding. Interestingly, these ligands have also been shown to open the HcGluCla channel expressed in Xenopus oocytes. We examined the effect of ibotenate on macrocyclic lactone binding in more detail and found that it caused a 7-fold enhancement in [ 3H ] IVM binding affinity and a 4-fold increase in [ 3H ] MOX binding affinity. In in vivo efficacy studies, ibotenate (up to 2mg/kg) had no anthelmintic activity against H. contortus in gerbils. When 1mg/kg ibotenate was used in combination with IVM, IVM efficacy increased by 15% ( P=0.048 ). These results demonstrate that a GluCl agonist enhances IVM activity and provides further information on the mode of action of ivermectin in parasitic nematodes.
Biochemical Pharmacology 04/2004; 67(6):1019-24. · 4.70 Impact Factor
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ABSTRACT: Gamma-aminobutyric acid (GABA) Type A receptors are inhibitory chloride channels in membranes of vertebrate and invertebrate neuromuscular cells. Gating of the channels by GABA leads to an influx of chloride ions into, and hyperpolarisation of, the cell. GABA receptors are believed to form channels by the association of five protein molecules of varying subunit types, with the second transmembrane (M2) domain of each protein molecule forming a central pore through which chloride ions can pass. We have analysed by single-strand conformation polymorphism the genetic variation of a GABA-receptor gene, HG1, from two sets of unselected and anthelmintic-selected strains of the parasitic nematode Haemonchus contortus. Significant differences in allele frequencies were detected between one unselected strain and its derived ivermectin-selected strain and between the other unselected strain and its derived ivermectin- and moxidectin-selected strains. In each set of strains, one allele increased substantially in frequency in the drug-selected strains relative to their respective unselected strains. The selected allele, however, differed between the two sets of strains. Similar analyses were performed on a phosphoenolpyruvate carboxykinase gene and a nicotinic acetylcholine receptor subunit gene. No significant differences were found in allele frequencies between the unselected and their derived anthelmintic-selected strains. These results indicate the GABA receptor as a possible site of action for avermectins and milbemycins, and suggest its involvement in resistance to these anthelmintics.
Molecular and Biochemical Parasitology 11/2003; 131(2):137-45. · 2.55 Impact Factor
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ABSTRACT: Ion channels are targets for many drugs including insecticides and anthelminthic agents such as ivermectin (IVM) and moxidectin (MOX). IVM has been shown to activate glutamate-gated chloride channels (GluCls) from the free-living nematode, Caenorhabditis elegans. Haemonchus contortus is a parasitic nematode that is also extremely sensitive to IVM. The high sensitivity of H. contortus to IVM is probably the result of the fact that, like C. elegans, H. contortus also express GluCls. To investigate the potential physiological response to IVM in H. contortus we have expressed a GluCl from this parasite (H. contortus glutamate-gated chloride channel, HcGluCla) in Xenopus oocytes. HcGluCla expressed in oocytes formed a homomeric channel that responded to glutamate and ibotenate as well as the anthelmintics IVM and MOX. The response to glutamate and ibotenate was fast acting and reversible whereas the response to IVM and MOX was a slower activating channel that was essentially irreversible. These results suggest that IVM toxicity in H. contortus is the result of its irreversible activation of GluCls.
Molecular and Biochemical Parasitology 07/2003; 129(1):115-21. · 2.55 Impact Factor
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ABSTRACT: Two alleles of the HG1 gene, which encodes a putative GABA receptor alpha/gamma subunit, were isolated from Haemonchus contortus. These two alleles were shown previously to be associated with ivermectin susceptibility (HG1A) and resistance (HG1E), respectively. Sequence analysis indicates that they differ in four amino acids. To explore the functional properties of the two alleles, a full-length cDNA encoding the beta subunit, a key functional component of the GABA receptor, was isolated from Caenorhabditis elegans (gab-1, corresponding to the GenBank locus ZC482.1) and coexpressed in Xenopus oocytes with the HG1 alleles. When gab-1 was coexpressed with either the HG1A allele or the HG1E allele in Xenopus oocytes, gamma-aminobutyric acid (GABA)-responsive channels with different sensitivity to the agonist were formed. The effects of ivermectin on the hetero-oligomeric receptors were determined. Application of ivermectin alone had no effect on the receptors. However, when coapplied with 10 micro m GABA, ivermectin potentiated the GABA-evoked current of the GAB-1/HG1A receptor, but attenuated the GABA response of the GAB-1/HG1E receptor. We demonstrated that the coexpressed HG1 and GAB-1 receptors are GABA-responsive, and provide evidence for the possible involvement of GABA receptors in the mechanism of ivermectin resistance.
Journal of Neurochemistry 12/2002; 83(4):870-8. · 4.06 Impact Factor
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ABSTRACT: Glutamate-gated chloride channels (GluCls) are inhibitory ion channels that are sensitive to the antiparasitic drugs ivermectin (IVM) and moxidectin (MOX). We have transiently transfected COS-7 cells with a subunit of a GluCl (HcGluCla) from the parasitic nematode Haemonchus contortus. This subunit bound [3H]-IVM and [3H]-MOX with K(d) values of 0.11+/-0.021 and 0.18+/-0.02nM, respectively. Displacement analysis revealed that IVM and MOX bind to the same site on HcGluCla and that this site is likely distinct from the glutamate binding site. Glutamate was found to be an allosteric modulator of [3H]-MOX and [3H]-IVM binding and increased the affinity of [3H]-MOX for HcGluCla by more than 50% and that of [3H]-IVM by more than 7-fold. These results point to both similarities and differences in the interactions of IVM and MOX with the GluCl. Aspartate, which is structurally similar to glutamate, had little or no effect on [3H]-IVM and [3H]-MOX binding, suggesting that this ligand does not induce the conformational change necessary to potentiate macrocyclic lactone binding. These results also indicate that it may be possible to enhance the efficacy of macrocyclic lactone anthelmintics by administering these compounds with ligands acting allosterically to enhance their binding.
Biochemical Pharmacology 04/2002; 63(6):1061-8. · 4.70 Impact Factor
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ABSTRACT: Resistance to anthelmintics that are used to control parasite populations in domestic animals has become a serious problem worldwide. The development of resistance is an evolutionary process that leads to genetic changes in parasite populations in response to drug exposure. The anthelmintic ivermectin is known to bind to the human membrane transport protein, P-glycoprotein, and P-glycoprotein-deficient mice treated with ivermectin have shown signs of neurotoxicity. P-glycoprotein is believed to be involved in the multidrug resistance phenotype seen in some human cancers and for drug resistance in some protists. We have examined the genetic variation of a P-glycoprotein homologue from the nematode Haemonchus contortus to see if an association exists between specific alleles of this gene and survival to exposure to ivermectin or moxidectin. Two parasite strains passaged without drug treatment and three strains, subjected to anthelmintic selection and derived from the unselected strains, were examined. Allelic variation in the unselected strains showed this locus to be highly polymorphic. χ2 analyses of allele frequencies showed significant differences between the unselected and the drug-selected derived strains. In all three drug-selected strains, an apparent selection for the same allele was observed. These findings suggest that P-glycoprotein may be involved in resistance to both ivermectin and moxidectin in H. contortus.
Molecular and Biochemical Parasitology 10/1998; · 2.55 Impact Factor
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ABSTRACT: The mode of action of ivermectin (IVM) in nematodes appears to be the opening of inhibitory ion channels, including the glutamate-gated chloride channel (GluCl). Recently, it has been shown that IVM binds with high affinity to a Haemonchus contortus GluCl subunit (HcGluCla) expressed in COS-7 cells, and this binding is potentiated in the presence of glutamate. To gain further insight into the potentiation of macrocyclic lactone anthlemintics we have screened various glutamatergic and nonglutamatergic ligands for their ability to enhance [] IVM binding to HcGluCla. Of the ligands tested, only glutamate and ibotenate potentiated [] IVM binding. Interestingly, these ligands have also been shown to open the HcGluCla channel expressed in Xenopus oocytes. We examined the effect of ibotenate on macrocyclic lactone binding in more detail and found that it caused a 7-fold enhancement in [] IVM binding affinity and a 4-fold increase in [] MOX binding affinity. In in vivo efficacy studies, ibotenate (up to 2 mg/kg) had no anthelmintic activity against H. contortus in gerbils. When 1 mg/kg ibotenate was used in combination with IVM, IVM efficacy increased by 15% (P=0.048). These results demonstrate that a GluCl agonist enhances IVM activity and provides further information on the mode of action of ivermectin in parasitic nematodes.
Biochemical Pharmacology.
