Generation of a Novel Bacteriophage Library displaying scFv antibody fragments from the natural Buffalo host to identify antigens from adult Schistosoma japonicum for diagnostic development
- Hosking, Christopher, McWilliam, Hamish, Driguez, Patrick, Piedrafita, David, Li, Yuesheng, McManus, Donald, Ilag, Leodevico, Meeusen, Els, De Veer, Michael
- Authors: Hosking, Christopher , McWilliam, Hamish , Driguez, Patrick , Piedrafita, David , Li, Yuesheng , McManus, Donald , Ilag, Leodevico , Meeusen, Els , De Veer, Michael
- Date: 2015
- Type: Text , Journal article
- Relation: PLoS Neglected Tropical Diseases Vol. 9, no. 12 (2015), p. 1-20
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- Description: The development of effective diagnostic tools will be essential in the continuing fight to reduce schistosome infection; however, the diagnostic tests available to date are generally laborious and difficult to implement in current parasite control strategies. We generated a series of single-chain antibody Fv domain (scFv) phage display libraries from the portal lymph node of field exposed water buffaloes, Bubalus bubalis, 11–12 days post challenge with Schistosoma japonicum cercariae. The selected scFv-phages showed clear enrichment towards adult schistosomes and excretory-secretory (ES) proteins by immunofluorescence, ELISA and western blot analysis. The enriched libraries were used to probe a schistosome specific protein microarray resulting in the recognition of a number of proteins, five of which were specific to schistosomes, with RNA expression predominantly in the adult life-stage based on interrogation of schistosome expressed sequence tags (EST). As the libraries were enriched by panning against ES products, these antigens may be excreted or secreted into the host vasculature and hence may make good targets for a diagnostic assay. Further selection of the scFv library against infected mouse sera identified five soluble scFv clones that could selectively recognise soluble whole adult preparations (SWAP) relative to an irrelevant protein control (ovalbumin). Furthermore, two of the identified scFv clones also selectively recognised SWAP proteins when spiked into naïve mouse sera. These host B-cell derived scFvs that specifically bind to schistosome protein preparations will be valuable reagents for further development of a cost effective point-of-care diagnostic test. © 2015 Hosking et al.
- Authors: Hosking, Christopher , McWilliam, Hamish , Driguez, Patrick , Piedrafita, David , Li, Yuesheng , McManus, Donald , Ilag, Leodevico , Meeusen, Els , De Veer, Michael
- Date: 2015
- Type: Text , Journal article
- Relation: PLoS Neglected Tropical Diseases Vol. 9, no. 12 (2015), p. 1-20
- Full Text:
- Reviewed:
- Description: The development of effective diagnostic tools will be essential in the continuing fight to reduce schistosome infection; however, the diagnostic tests available to date are generally laborious and difficult to implement in current parasite control strategies. We generated a series of single-chain antibody Fv domain (scFv) phage display libraries from the portal lymph node of field exposed water buffaloes, Bubalus bubalis, 11–12 days post challenge with Schistosoma japonicum cercariae. The selected scFv-phages showed clear enrichment towards adult schistosomes and excretory-secretory (ES) proteins by immunofluorescence, ELISA and western blot analysis. The enriched libraries were used to probe a schistosome specific protein microarray resulting in the recognition of a number of proteins, five of which were specific to schistosomes, with RNA expression predominantly in the adult life-stage based on interrogation of schistosome expressed sequence tags (EST). As the libraries were enriched by panning against ES products, these antigens may be excreted or secreted into the host vasculature and hence may make good targets for a diagnostic assay. Further selection of the scFv library against infected mouse sera identified five soluble scFv clones that could selectively recognise soluble whole adult preparations (SWAP) relative to an irrelevant protein control (ovalbumin). Furthermore, two of the identified scFv clones also selectively recognised SWAP proteins when spiked into naïve mouse sera. These host B-cell derived scFvs that specifically bind to schistosome protein preparations will be valuable reagents for further development of a cost effective point-of-care diagnostic test. © 2015 Hosking et al.
- Hosking, Christopher, Driguez, Patrick, McWilliam, Hamish, Ilag, Leodevico, Gladman, Simon, Li, Yuesheng, Piedrafita, David, McManus, Donald, Meeusen, Els, De Veer, Michael
- Authors: Hosking, Christopher , Driguez, Patrick , McWilliam, Hamish , Ilag, Leodevico , Gladman, Simon , Li, Yuesheng , Piedrafita, David , McManus, Donald , Meeusen, Els , De Veer, Michael
- Date: 2015
- Type: Text , Journal article
- Relation: International Journal for Parasitology Vol. 45, no. 11 (2015), p. 729-740
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- Description: Antibodies isolated from the local draining inguinal lymph node of field exposed-water buffaloes following challenge with Schistosoma japonicum cercariae showed high reactivity towards S. japonicum antigen preparations and bound specifically to formaldehyde-fixed S. japonicum schistosomules. Using this specific local immune response we produced a series of single-chain antibody Fv domain libraries from the same lymph nodes. Removal of phage that cross reacted with epitopes on adult parasites yielded a single-chain antibody Fv domain-phage library that specifically bound to whole formaldehyde-fixed and live S. japonicum schistosomules. DNA sequencing indicated clear enrichment of the single-chain antibody Fv domain library for buffalo B-cell complementarity determining regions post-selection for schistosomule binding. This study also revealed that long heavy chain complementarity determining regions appear to be an important factor when selecting for antibody binding fragments against schistosomule proteins. The selected single-chain antibody Fv domain-phage were used to probe a schistosome-specific protein microarray, which resulted in the recognition of many proteins expressed across all schistosome life-cycle stages. Following absorption to adult worms, the single-chain antibody Fv domain-phage library showed significantly reduced binding to most proteins, whilst two proteins (NCBI GenBank accession numbers AY915878 and AY815196) showed increased binding. We have thus developed a unique set of host derived single-chain antibody Fv domains comprising buffalo B-cell variable regions that specifically bind to early S. japonicum life-stages. © 2015 Australian Society for Parasitology Inc..
Discovery of novel Schistosoma japonicum antigens using a targeted protein microarray approach
- McWilliam, Hamish, Driguez, Patrick, Piedrafita, David, McManus, Donald, Meeusen, Els
- Authors: McWilliam, Hamish , Driguez, Patrick , Piedrafita, David , McManus, Donald , Meeusen, Els
- Date: 2014
- Type: Text , Journal article
- Relation: Parasites and Vectors Vol. 7, no. 1 (2014), p. 1-11
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- Description: Background: Novel vaccine candidates against Schistosoma japonicum are required, and antigens present in the vulnerable larval developmental stage are attractive targets. Post-genomic technologies are now available which can contribute to such antigen discovery. Methods. A schistosome-specific protein microarray was probed using the local antibody response against migrating larvae. Antigens were assessed for their novelty and predicted larval expression and host-exposed features. One antigen was further characterised and its sequence and structure were analysed in silico. Real-time polymerase chain reaction was used to analyse transcript expression throughout development, and immunoblotting and enzyme-linked immunosorbent assays employed to determine antigen recognition by antibody samples. Results: Several known and novel antigens were discovered, two of which showed up-regulated transcription in schistosomula. One novel antigen, termed S. japonicum Ly-6-like protein 1 (Sj-L6L-1), was further characterised and shown to share structural and sequence features with the Ly-6 protein family. It was found to be present in the worm tegument and expressed in both the larval and adult worms, but was found to be antigenic only in the lungs that the larvae migrate to and traverse. Conclusions: This study represents a novel approach to vaccine antigen discovery and may contribute to schistosome vaccine development against this important group of human and veterinary pathogens. © 2014 McWilliam et al.; licensee BioMed Central Ltd.
- Authors: McWilliam, Hamish , Driguez, Patrick , Piedrafita, David , McManus, Donald , Meeusen, Els
- Date: 2014
- Type: Text , Journal article
- Relation: Parasites and Vectors Vol. 7, no. 1 (2014), p. 1-11
- Full Text:
- Reviewed:
- Description: Background: Novel vaccine candidates against Schistosoma japonicum are required, and antigens present in the vulnerable larval developmental stage are attractive targets. Post-genomic technologies are now available which can contribute to such antigen discovery. Methods. A schistosome-specific protein microarray was probed using the local antibody response against migrating larvae. Antigens were assessed for their novelty and predicted larval expression and host-exposed features. One antigen was further characterised and its sequence and structure were analysed in silico. Real-time polymerase chain reaction was used to analyse transcript expression throughout development, and immunoblotting and enzyme-linked immunosorbent assays employed to determine antigen recognition by antibody samples. Results: Several known and novel antigens were discovered, two of which showed up-regulated transcription in schistosomula. One novel antigen, termed S. japonicum Ly-6-like protein 1 (Sj-L6L-1), was further characterised and shown to share structural and sequence features with the Ly-6 protein family. It was found to be present in the worm tegument and expressed in both the larval and adult worms, but was found to be antigenic only in the lungs that the larvae migrate to and traverse. Conclusions: This study represents a novel approach to vaccine antigen discovery and may contribute to schistosome vaccine development against this important group of human and veterinary pathogens. © 2014 McWilliam et al.; licensee BioMed Central Ltd.
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