Your search keyword '"Curwen RS"' showing total 16 results

1. The orthologue of Sjögren's syndrome nuclear autoantigen 1 (SSNA1) in Trypanosoma brucei is an immunogenic self-assembling molecule.

Author

Price HP, Hodgkinson MR, Curwen RS, MacLean LM, Brannigan JA, Carrington M, Smith BA, Ashford DA, Stark M, and Smith DF

Subjects

Animals, Antibodies, Protozoan immunology, Cell Survival, Gene Deletion, Genes, Protozoan genetics, Humans, Mice, Models, Molecular, Parasites immunology, Protein Transport, Proteomics, Protozoan Proteins chemistry, Protozoan Proteins genetics, Protozoan Proteins ultrastructure, Subcellular Fractions metabolism, Tropomyosin metabolism, Trypanosoma brucei brucei cytology, Trypanosoma brucei brucei genetics, Trypanosomiasis, African blood, Trypanosomiasis, African immunology, Autoantigens chemistry, Nuclear Proteins chemistry, Protozoan Proteins immunology, Sequence Homology, Amino Acid, Sjogren's Syndrome immunology, Trypanosoma brucei brucei immunology

Abstract

Primary Sjögren's Syndrome (PSS) is a highly prevalent autoimmune disease, typically manifesting as lymphocytic infiltration of the exocrine glands leading to chronically impaired lacrimal and salivary secretion. Sjögren's Syndrome nuclear autoantigen 1 (SSNA1 or NA14) is a major specific target for autoantibodies in PSS but the precise function and clinical relevance of this protein are largely unknown. Orthologues of the gene are absent from many of the commonly used model organisms but are present in Chlamyodomonas reinhardtii (in which it has been termed DIP13) and most protozoa. We report the functional characterisation of the orthologue of SSNA1 in the kinetoplastid parasite, Trypanosoma brucei. Both TbDIP13 and human SSNA1 are small coiled-coil proteins which are predicted to be remote homologues of the actin-binding protein tropomyosin. We use comparative proteomic methods to identify potential interacting partners of TbDIP13. We also show evidence that TbDIP13 is able to self-assemble into fibril-like structures both in vitro and in vivo, a property which may contribute to its immunogenicity. Endogenous TbDIP13 partially co-localises with acetylated α-tubulin in the insect procyclic stage of the parasite. However, deletion of the DIP13 gene in cultured bloodstream and procyclic stages of T. brucei has little effect on parasite growth or morphology, indicating either a degree of functional redundancy or a function in an alternative stage of the parasite life cycle.

Published

2012

2. Abundance of tegument surface proteins in the human blood fluke Schistosoma mansoni determined by QconCAT proteomics.

Author

Castro-Borges W, Simpson DM, Dowle A, Curwen RS, Thomas-Oates J, Beynon RJ, and Wilson RA

Subjects

Animals, Aquaporins analysis, Humans, Immunity, Membrane Proteins immunology, Schistosoma mansoni immunology, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Helminth Proteins analysis, Membrane Proteins analysis, Proteomics methods, Schistosoma mansoni chemistry

Abstract

The schistosome tegument provides a major interface with the host blood stream in which it resides. Our recent proteomic studies have identified a range of proteins present in the complex tegument structure, and two models of protective immunity have implicated surface proteins as mediating antigens. We have used the QconCAT technique to evaluate the relative and absolute amounts of tegument proteins identified previously. A concatamer comprising R- or K-terminated peptides was generated with [(13)C(6)] lysine/arginine amino acids. Two tegument surface preparations were each spiked with the purified SmQconCAT as a standard, trypsin digested, and subjected to MALDI ToF-MS. The absolute amounts of protein in the biological samples were determined by comparing the areas under the pairs of peaks, separated by 6m/z units, representing the light and heavy peptides derived from the biological sample and SmQconCAT, respectively. We report that aquaporin is the most abundant transmembrane protein, followed by two phosphohydrolases. Tetraspanin Tsp-2 and Annexin-2 are also abundant but transporters are scarce. Sm200 surface protein comprised the bulk of the GPI-anchored fraction and likely resides in the secreted membranocalyx. Two host IgGs were identified but in amounts much lower than their targets. The findings are interpreted in relation to the models of protective immunity., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2011

3. Proteomic analysis of secretory products from the model gastrointestinal nematode Heligmosomoides polygyrus reveals dominance of venom allergen-like (VAL) proteins.

Author

Hewitson JP, Harcus Y, Murray J, van Agtmaal M, Filbey KJ, Grainger JR, Bridgett S, Blaxter ML, Ashton PD, Ashford DA, Curwen RS, Wilson RA, Dowle AA, and Maizels RM

Subjects

Animals, Antigens, Helminth, Disease Models, Animal, Helminth Proteins metabolism, Gastrointestinal Diseases parasitology, Helminth Proteins analysis, Nematospiroides dubius chemistry, Proteomics methods

Abstract

The intestinal helminth parasite, Heligmosomoides polygyrus bakeri offers a tractable experimental model for human hookworm infections such as Ancylostoma duodenale and veterinary parasites such as Haemonchus contortus. Parasite excretory-secretory (ES) products represent the major focus for immunological and biochemical analyses, and contain immunomodulatory molecules responsible for nematode immune evasion. In a proteomic analysis of adult H. polygyrus secretions (termed HES) matched to an extensive transcriptomic dataset, we identified 374 HES proteins by LC-MS/MS, which were distinct from those in somatic extract HEx, comprising 446 identified proteins, confirming selective export of ES proteins. The predominant secreted protein families were proteases (astacins and other metalloproteases, aspartic, cysteine and serine-type proteases), lysozymes, apyrases and acetylcholinesterases. The most abundant products were members of the highly divergent venom allergen-like (VAL) family, related to Ancylostoma secreted protein (ASP); 25 homologues were identified, with VAL-1 and -2 also shown to be associated with the parasite surface. The dominance of VAL proteins is similar to profiles reported for Ancylostoma and Haemonchus ES products. Overall, this study shows that the secretions of H. polygyrus closely parallel those of clinically important GI nematodes, confirming the value of this parasite as a model of helminth infection., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2011

4. Enzymatic shaving of the tegument surface of live schistosomes for proteomic analysis: a rational approach to select vaccine candidates.

Author

Castro-Borges W, Dowle A, Curwen RS, Thomas-Oates J, and Wilson RA

Subjects

Animals, Enzymes metabolism, Female, Male, Tandem Mass Spectrometry, Helminth Proteins analysis, Membrane Proteins analysis, Proteome analysis, Proteomics methods, Schistosoma mansoni chemistry

Abstract

Background: The membrane-associated and membrane-spanning constituents of the Schistosoma mansoni tegument surface, the parasite's principal interface with the host bloodstream, have recently been characterized using proteomic techniques. Biotinylation of live worms using membrane-impermeant probes revealed that only a small subset of the proteins was accessible to the reagents. Their position within the multilayered architecture of the surface has not been ascertained., Methodology/principal Findings: An enzymatic shaving approach on live worms has now been used to release the most accessible components, for analysis by MS/MS. Treatment with trypsin, or phosphatidylinositol-specific phospholipase C (PiPLC), only minimally impaired membrane integrity. PiPLC-enriched proteins were distinguished from those released in parasite vomitus or by handling damage, using isobaric tagging. Trypsin released five membrane proteins, Sm200, Sm25 and three annexins, plus host CD44 and the complement factors C3 and C4. Nutrient transporters and ion channels were absent from the trypsin fraction, suggesting a deeper location in the surface complex; surprisingly, two BAR-domain containing proteins were released. Seven parasite and two host proteins were enriched by PiPLC treatment, the vaccine candidate Sm29 being the most prominent along with two orthologues of human CD59, potentially inhibitors of complement fixation. The enzymes carbonic anhydrase and APD-ribosyl cyclase were also enriched, plus Sm200 and alkaline phosphatase. Host GPI-anchored proteins CD48 and CD90, suggest 'surface painting' during worm peregrination in the portal system., Conclusions/significance: Our findings suggest that the membranocalyx secreted over the tegument surface is not the inert barrier previously proposed, some tegument proteins being externally accessible to enzymes and thus potentially located within it. Furthermore, the detection of C3 and C4 indicates that the complement cascade is initiated, while two CD59 orthologues suggest a potential mechanism for its inhibition. The detection of several host proteins is a testimonial to the acquisitive properties of the tegument surface. The exposed parasite proteins could represent novel vaccine candidates for combating this neglected disease.

Published

2011

5. Protein variation in blood-dwelling schistosome worms generated by differential splicing of micro-exon gene transcripts.

Author

DeMarco R, Mathieson W, Manuel SJ, Dillon GP, Curwen RS, Ashton PD, Ivens AC, Berriman M, Verjovski-Almeida S, and Wilson RA

Subjects

Amino Acid Sequence, Animals, Base Sequence, Biological Evolution, Molecular Sequence Data, Proteomics, Sequence Homology, Amino Acid, Transcription, Genetic, Up-Regulation, Alternative Splicing genetics, Exons, Helminth Proteins genetics, Schistosoma mansoni genetics

Abstract

Schistosoma mansoni is a well-adapted blood-dwelling parasitic helminth, persisting for decades in its human host despite being continually exposed to potential immune attack. Here, we describe in detail micro-exon genes (MEG) in S. mansoni, some present in multiple copies, which represent a novel molecular system for creating protein variation through the alternate splicing of short (< or =36 bp) symmetric exons organized in tandem. Analysis of three closely related copies of one MEG family allowed us to trace several evolutionary events and propose a mechanism for micro-exon generation and diversification. Microarray experiments show that the majority of MEGs are up-regulated in life cycle stages associated with establishment in the mammalian host after skin penetration. Sequencing of RT-PCR products allowed the description of several alternate splice forms of micro-exon genes, highlighting the potential use of these transcripts to generate a complex pool of protein variants. We obtained direct evidence for the existence of such pools by proteomic analysis of secretions from migrating schistosomula and mature eggs. Whole-mount in situ hybridization and immunolocalization showed that MEG transcripts and proteins were restricted to glands or epithelia exposed to the external environment. The ability of schistosomes to produce a complex pool of variant proteins aligns them with the other major groups of blood parasites, but using a completely different mechanism. We believe that our data open a new chapter in the study of immune evasion by schistosomes, and their ability to generate variant proteins could represent a significant obstacle to vaccine development.

Published

2010

6. The secretome of the filarial parasite, Brugia malayi: proteomic profile of adult excretory-secretory products.

Author

Hewitson JP, Harcus YM, Curwen RS, Dowle AA, Atmadja AK, Ashton PD, Wilson A, and Maizels RM

Subjects

Amino Acid Sequence, Animals, Blotting, Western, Chromatography, Liquid, Computational Biology, Electrophoresis, Gel, Two-Dimensional, Filariasis parasitology, Galectins analysis, Humans, Macrophage Migration-Inhibitory Factors analysis, Molecular Sequence Data, N-Acetylglucosaminyltransferases analysis, Proteomics methods, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Brugia malayi chemistry, Helminth Proteins analysis, Helminth Proteins metabolism, Proteome analysis, Proteome metabolism

Abstract

The secretome of a parasite in its definitive host can be considered to be its genome in trans, to the extent that secreted products encoded by the parasite fulfill their function in the host milieu. The 'extended phenotype' of the filarial parasite, Brugia malayi, is of particular interest because of the evidence that infection results in potent down-modulation of the host immune response. We collected B. malayi 'excretory-secretory' (BES) proteins from adult parasites and using a combination of shotgun LC-MS/MS and 2D gel electrophoresis, identified 80 B. malayi and two host proteins in BES, of which 31 (38%) were detectable in whole worm extract (BmA). Products which were enriched in BES relative to BmA included phosphatidylethanolamine-binding protein (PEB), leucyl aminopeptidase (LAP, homologue of ES-62 from the related filaria Acanthocheilonema viteae), N-acetylglucosaminyltransferase (GlcNAcT) and galectin-1, in addition to the previously described major surface glycoprotein, glutathione peroxidase (gp29, GPX-1) and the cytokine homologue macrophage migration inhibitory factor (MIF-1). One of the most abundant released proteins was triose phosphate isomerase (TPI), yet many other glycolytic enzymes (such as aldolase and GAPDH) were found only in the somatic extract. Among the more prominent novel products identified in BES were a set of 11 small transthyretin-like proteins, and three glutamine-rich-repeat mucin-like proteins. Notably, no evidence was found of any secreted protein corresponding to the genome of the Wolbachia endosymbiont present in B. malayi. Western blotting with anti-phosphorylcholine (PC) monoclonal antibody identified that GlcNAcT, and not the ES-62 homologue, is the major PC-bearing protein in BES, while probing with human filariasis sera showed preferential reactivity to galectin-1 and to processed forms of myotactin. Overall, this analysis demonstrates selective release of a suite of newly identified proteins not previously suspected to be involved at the host-parasite interface, and provides important new perspectives on the biology of the filarial parasite.

Published

2008

7. Proteomic profiling reveals that Th2-inducing dendritic cells stimulated with helminth antigens have a 'limited maturation' phenotype.

Author

Ferret-Bernard S, Curwen RS, and Mountford AP

Subjects

Animals, Dendritic Cells immunology, Electrophoresis, Gel, Two-Dimensional, Female, Lipopolysaccharides immunology, Mice, Mice, Inbred C57BL, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Antigens, Helminth immunology, Dendritic Cells chemistry, Proteome analysis, Schistosoma mansoni immunology, Th2 Cells immunology

Abstract

Dendritic cells (DCs) are important in the initiation of primary immune responses against pathogens. To aid understanding of how DCs guide T helper (Th)2-type responses, we employed 2-DE in association with MS/MS to identify proteins which characterise pro-Th2 DCs (matured with zero-to-three hours released proteins (0-3hRP), released by Schistosoma mansoni cercariae) versus pro-Th1 DCs (matured with lipopolysaccharide, LPS) and immature DCs. Software analysis of average 2-DE gels (three replicates per DC type) showed many similarities in the pattern of spots between the three groups of DCs but also marked changes. The major and significant changes in protein expression mainly affected cytoskeletal proteins. Other differences included chaperone proteins and enzymes involved in protein folding, S100 calcium-binding proteins, peroxiredoxin 1, superoxide dismutase 1, several annexins and arginase 1. Our study demonstrates that pro-Th2 DCs matured with 0-3hRP exhibit a proteome that is intermediate between that of immature DCs and pro-Th1 DCs. Finally, the differential regulation of protein spots identified by MALDI-MS/MS as having cytoskeletal and morphological functions was confirmed by contrast, confocal and scanning electron microscopy examination of DCs. Together, our results support the view that Th2 differentiation results from a 'limited maturation' of DCs.

Published

2008

8. Glycomics analysis of Schistosoma mansoni egg and cercarial secretions.

Author

Jang-Lee J, Curwen RS, Ashton PD, Tissot B, Mathieson W, Panico M, Dell A, Wilson RA, and Haslam SM

Subjects

Amino Acid Motifs, Animals, Antigens, Helminth chemistry, Carbohydrates chemistry, Fucose chemistry, Ions, Ligands, Peptide-N4-(N-acetyl-beta-glucosaminyl) Asparagine Amidase chemistry, Polysaccharides chemistry, Protein Structure, Tertiary, Proteomics methods, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Glycoproteins chemistry, Schistosoma mansoni metabolism

Abstract

The parasitic helminth Schistosoma mansoni is a major public health concern in many developing countries. Glycoconjugates, and in particular the carbohydrate component of these products, represent the main immunogenic challenge to the host and could therefore represent one of the crucial determinants for successful parasite establishment. Here we report a comparative glycomics analysis of the N- and O-glycans derived from glycoproteins present in S. mansoni egg (egg-secreted protein) and cercarial (0-3-h released protein) secretions by a combination of mass spectrometric techniques. Our results show that S. mansoni secrete glycoproteins with glycosylation patterns that are complex and stage-specific. Cercarial stage secretions were dominated by N-glycans that were core-xylosylated, whereas N-glycans from egg secretions were predominantly core-difucosylated. O-Glycan core structures from cercarial secretions primarily consisted of the core sequence Galbeta1-->3(Galbeta1-->6)GalNAc, whereas egg-secreted O-glycans carried the mucin-type core 1 (Galbeta1-->3GalNAc) and 2 (Galbeta1-->3(GlcNAcbeta1-->6)GalNAc) structures. Additionally we identified a novel O-glycan core in both secretions in which a Gal residue is linked to the protein. Terminal structures of N- and O-glycans contained high levels of fucose and include stage-specific structures. These glycan structures identified in S. mansoni secretions are potentially antigenic motifs and ligands for carbohydrate-binding proteins of the host immune system.

Published

2007

9. The 20S proteasome of Schistosoma mansoni: a proteomic analysis.

Author

Castro-Borges W, Cartwright J, Ashton PD, Braschi S, Guerra Sa R, Rodrigues V, Wilson RA, and Curwen RS

Subjects

Amino Acid Sequence, Animals, Blotting, Western, Electrophoresis, Gel, Two-Dimensional, Humans, Mice, Molecular Sequence Data, Proteasome Endopeptidase Complex isolation & purification, Schistosoma mansoni growth & development, Sequence Alignment, Snails, Proteasome Endopeptidase Complex chemistry, Schistosoma mansoni enzymology

Abstract

Proteasomes are molecular machines found in virtually all cells that provide one of the mechanisms for protein turnover. We have analysed the 20S proteasome of Schistosoma mansoni, the first multimeric complex isolated from this helminth parasite. Three chromatographic steps were employed to yield a highly homogeneous preparation. 2-DE of the purified complex revealed 58 spots, of which 46 could be assigned either an alpha or a beta proteasome signature by MS. Most of the 14 transcripts (7alpha and 7beta) encoded by the parasite genome were represented by multiple spots and we suggest that this diversity is due to PTMs of subunits. For most of the isoforms, variations in pI predominated although alterations in mass were also observed. 2-DE separations of extracts from infective cercariae and blood-dwelling adult worms probed by Western blotting, using a human anti-alpha subunit antibody, revealed different patterns of reactivity, most probably in alpha3 and alpha6 subunits, on the basis of sequence conservation. This difference was rapidly lost following transformation of the cercaria to the skin schistosomulum stage, suggesting that changes in the proteasome structure, likely caused by the introduction of a new set of PTMs, precede remodelling of the parasite body prior to intravascular migration.

Published

2007

10. Identification of novel proteases and immunomodulators in the secretions of schistosome cercariae that facilitate host entry.

Author

Curwen RS, Ashton PD, Sundaralingam S, and Wilson RA

Subjects

Amino Acid Sequence, Animals, Electrophoresis, Gel, Two-Dimensional, Helminth Proteins biosynthesis, Helminth Proteins chemistry, Host-Parasite Interactions, Mice, Molecular Sequence Data, Pancreatic Elastase metabolism, Protein Isoforms, Schistosoma metabolism, Snails parasitology, Transport Vesicles chemistry, Immunologic Factors metabolism, Peptide Hydrolases metabolism, Schistosoma enzymology, Schistosoma immunology

Abstract

Schistosomiasis, caused by parasitic helminths, remains a serious human disease in the tropics. Cercariae of Schistosoma mansoni infect their hosts by direct skin penetration, aided by secretions from acetabular and head glands. Both proteolytic and immunomodulatory properties have been ascribed to the released material, but to date only five isoforms of elastase and one putative anti-inflammatory protein (Sm16) have been cloned. We analyzed secretions from mechanically transformed cercariae by two-dimensional electrophoresis. An average gel image was created and compared with a separation of soluble larval extract, revealing a less complex spot pattern in the secretions with 60% of the spots matched to the larval extract. Subsequent tandem mass spectrometric analysis identified 48 spots from the released material, representing approximately 80% of its normalized volume. Twenty-nine of these are likely to originate in the vesicles, and 18 are likely to originate in the cytosol of the glands (the latter class being present due to holocrine secretion); one is unknown. The vesicular proteins were significantly more enriched than the cytosolic proteins in the released material when compared with the larval extract. A novel metalloproteinase (termed SmPepM8) was the second most abundant constituent after three isoforms of cercarial elastase. In addition, a dipeptidyl peptidase IV (SmDPP IV) was discovered but in much smaller quantity. A new serine protease inhibitor (SmSerp&#95;c) was also prominent. Along with Sm16, four potential immunomodulators were identified, three with similarity to venom allergens (SmSCP&#95;a, &#95;b, and &#95;c) and one with homology to the potassium channel blockers in scorpion venom (SmKK7). Interrogation of the expressed sequence tag database found transcripts encoding the majority of vesicular proteins present solely in the intramolluscan stages of the life cycle. Distinct patterns of radiolabel incorporation suggested three separate origins for the vesicular proteins. All the novel constituents merit investigation as vaccine candidates, and the potential immunomodulators merit investigation as therapeutic agents.

Published

2006

11. The tegument surface membranes of the human blood parasite Schistosoma mansoni: a proteomic analysis after differential extraction.

Author

Braschi S, Curwen RS, Ashton PD, Verjovski-Almeida S, and Wilson A

Subjects

Animals, Electrophoresis, Gel, Two-Dimensional, Humans, Mass Spectrometry, Membrane Proteins genetics, Membrane Proteins isolation & purification, Molecular Sequence Data, Protozoan Proteins genetics, Protozoan Proteins isolation & purification, Schistosoma mansoni anatomy & histology, Membrane Proteins analysis, Proteome analysis, Protozoan Proteins analysis, Schistosoma mansoni chemistry

Abstract

The blood fluke Schistosoma mansoni can live for years in the hepatic portal system of its human host and so must possess very effective mechanisms of immune evasion. The key to understanding how these operate lies in defining the molecular organisation of the exposed parasite surface. The adult worm is covered by a syncytial tegument, bounded externally by a plasma membrane and overlain by a laminate secretion, the membranocalyx. In order to determine the protein composition of this surface, the membranes were detached using a freeze/thaw technique and enriched by sucrose density gradient centrifugation. The resulting preparation was sequentially extracted with three reagents of increasing solubilising power. The extracts were separated by 2-DE and their protein constituents were identified by MS/MS, yielding predominantly cytosolic, cytoskeletal and membrane-associated proteins, respectively. After extraction, the final pellet containing membrane-spanning proteins was processed by liquid chromatographic techniques before MS. Transporters for sugars, amino acids, ions and other solutes were found together with membrane enzymes and proteins concerned with membrane structure. The proteins identified were categorised by their function and putative location on the basis of their homology with annotated proteins in other organisms.

Published

2006

12. The Schistosoma mansoni soluble proteome: a comparison across four life-cycle stages.

Author

Curwen RS, Ashton PD, Johnston DA, and Wilson RA

Subjects

Animals, Antigens, Helminth metabolism, Electrophoresis, Gel, Two-Dimensional, Humans, Mass Spectrometry, Mice, Peptide Mapping, Schistosoma mansoni metabolism, Solubility, Helminth Proteins metabolism, Life Cycle Stages, Proteome, Schistosoma mansoni growth & development

Abstract

Differential analysis of immune responses to schistosomes has routinely been performed using complex mixtures of soluble proteins from various life-cycle stages, on the assumption that these differed significantly in composition. Proteomic techniques now allow us to characterise and compare such mixtures. The soluble proteins from cercariae, lung-schistosomula, adult worms and eggs of Schistosoma mansoni were separated by high-resolution two-dimensional electrophoresis and the resulting images analysed using appropriate software. A high degree of quantitative and qualitative similarity in spot pattern was revealed across the life-cycle, greatest between adjacent stages. To initiate mapping of these soluble proteomes, the 40 most abundant spots in each preparation, accounting for 21-46% of the total protein, were subjected to peptide fingerprinting by mass spectrometry. On average 55% of the spots were identified, but overall, these comprised only 32 different protein species. With one exception all proteins originated in the cytosol and 24 of the 32 had previously been pinpointed by virtue of their immunoreactivity, including four of the WHO priority vaccine candidates. The similarity in composition between the four preparations means that they are unlikely to discriminate adequately between immune responses to different life-cycle stages and argues strongly for the need to identify true stage-specific marker proteins. Equally, it is difficult to reconcile the abundance and immunogenicity of such cytosolic proteins with their status as vaccine candidates, as it is unlikely they will be accessible to the immune system in an intact parasite.

Published

2004

13. From genomes to vaccines via the proteome.

Author

Wilson RA, Curwen RS, Braschi S, Hall SL, Coulson PS, and Ashton PD

Subjects

Animals, Antigens, Helminth immunology, Chromatography, Liquid, Electrophoresis, Gel, Two-Dimensional, Humans, Mass Spectrometry, Schistosoma mansoni genetics, Schistosomiasis mansoni prevention & control, Vaccines immunology, Antigens, Helminth genetics, Genome, Proteomics, Schistosoma mansoni immunology, Schistosomiasis mansoni immunology, Vaccines genetics

Abstract

An effective vaccine against schistosomiasis mansoni would be a valuable control tool and the high levels of protection elicited in rodents and primates by radiation-attenuated cercariae provide proof of principle. A major obstacle to vaccine development is the difficulty of identifying the antigens that mediate protection, not least because of the size of the genome at 280Mb DNA encoding 14,000 to 20,000 genes. The technologies collectively called proteomics, including 2D electrophoresis, liquid chromatography and mass spectrometry, now permit any protein to be identified provided there is extensive DNA data, and preferably a genome sequence. Applied to soluble (cytosolic) proteins from schistosomes, proteomics reveals the great similarity in composition between life cycle stages, with several WHO vaccine candidates amongst the most abundant constituents. The proteomic approach has been successfully applied to identify the secretions used by cercaria to penetrate host skin, the gut secretions of adult worms and the proteins exposed on the tegument surface. Soluble proteins can also be separated by 2D electrophoresis before western blotting to identify the full range of antigenic targets present in a parasite preparation. The next step is to discover which target proteins represent the weak points in the worm's defences.

Published

2004

14. Molecular evolutionary convergence of the flight muscle protein arthrin in Diptera and hemiptera.

Author

Schmitz S, Schankin CJ, Prinz H, Curwen RS, Ashton PD, Caves LS, Fink RH, Sparrow JC, Mayhew PJ, and Veigel C

Subjects

Actins chemistry, Actins metabolism, Amino Acid Sequence, Animals, Diptera classification, Drosophila melanogaster chemistry, Drosophila melanogaster genetics, Hemiptera classification, Insect Proteins, Microfilament Proteins chemistry, Microfilament Proteins metabolism, Models, Molecular, Muscle Proteins chemistry, Muscle Proteins metabolism, Phylogeny, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Ubiquitin chemistry, Ubiquitin genetics, Diptera genetics, Evolution, Molecular, Hemiptera genetics, Microfilament Proteins genetics, Muscle Proteins genetics

Abstract

Uniquely, the asynchronous flight muscle myofibrils of many insects contain arthrin, a stable 1:1 conjugate between actin and ubiquitin. The function of arthrin is still unknown. Here we survey for the presence of arthrin in 63 species of insect across nine orders using Western blotting. Analysis of the evolutionary distribution shows that arthrin has evolved a limited number of times but at least once in the Diptera and once in the Hemiptera. However, the presence of arthrin does not correlate with any observed common features of flight mechanism, natural history, or morphology. We also identify the site of the isopeptide bond in arthrin from Drosophila melanogaster (Diptera) and Lethocerus griseus (Hemiptera) using mass spectrometry. In both species, the isopeptide bond is formed between lysine 118 of the actin and the C-terminal glycine 76 of ubiquitin. Thus, not only the ubiquitination of actin but also the site of the isopeptide bond has evolved convergently in Diptera and Hemiptera. In terms of the actin monomer, lysine 118 is near neither the binding sites of the major actin-binding proteins, myosin, tropomyosin, or the troponins, nor the actin polymerization sites. However, molecular modeling supports the idea that ubiquitin bound to an actin in one F-actin strand might be able to interact with tropomyosin bound to the actin monomers of the other strand and thereby interfere with thin filament regulation.

Published

2003

15. Invasion of skin by schistosome cercariae: some neglected facts.

Author

Curwen RS and Wilson RA

Subjects

Adaptation, Physiological, Animals, Host-Parasite Interactions, Humans, Pancreatic Elastase metabolism, Schistosoma enzymology, Schistosoma growth & development, Skin Diseases, Parasitic parasitology, Schistosoma physiology, Schistosomiasis parasitology, Skin parasitology

Abstract

The process of skin invasion by Schistosoma cercariae was reviewed in a recent Trends Research Update, accompanied by a computer animation. Some aspects of that article were misleading and perpetuated misconceptions about parasite migration through the skin that should by now have been dispelled. This article sets out a different interpretation of events, taking account of the extensive data on migration and larval structural changes that have been documented for Schistosoma mansoni over the past 20 years.

Published

2003

16. Linking proteome and genome: how to identify parasite proteins.

Author

Ashton PD, Curwen RS, and Wilson RA

Subjects

Amino Acid Sequence, Animals, Brugia malayi genetics, Genome, Protozoan, Leishmania genetics, Mass Spectrometry methods, Molecular Sequence Data, Phosphopyruvate Hydratase chemistry, Plasmodium genetics, Schistosoma mansoni genetics, Genome, Helminth Proteins chemistry, Proteome, Protozoan Proteins chemistry

Abstract

Parasite genome projects are generating an avalanche of sequence data. If this resource is to be exploited effectively for drug and vaccine design, there is an urgent need to make the link between these DNA sequences and the functional proteins of the parasite, which they encode. Here, we seek to demystify the revolutionary advances in protein identification based on mass spectrometry.

Published

2001