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4. Immunomic investigation of Holocyclotoxins to produce the first protective Anti-Venom vaccine against the Australian paralysis tick, Ixodes holocyclus

Author

Rodriguez-Valle, M., McAlister, S., Moolhuijzen, P.M., Booth, M., Agnew, K., Ellenberger, C., Knowles, A.G., Vanhoff, K., Bellgard, M.I., Tabor, A.E., Rodriguez-Valle, M., McAlister, S., Moolhuijzen, P.M., Booth, M., Agnew, K., Ellenberger, C., Knowles, A.G., Vanhoff, K., Bellgard, M.I., and Tabor, A.E.

Abstract

Venom producing animals are ubiquitously disseminated among vertebrates and invertebrates such as fish, snakes, scorpions, spiders, and ticks. Of the ~890 tick species worldwide, 27 have been confirmed to cause paralysis in mammalian hosts. The Australian paralysis tick (Ixodes holocyclus) is the most potent paralyzing tick species known. It is an indigenous three host tick species that secretes potent neurotoxins known as holocyclotoxins (HTs). Holocyclotoxins cause a severe and harmful toxicosis leading to a rapid flaccid paralysis which can result in death of susceptible hosts such as dogs. Antivenins are generally polyclonal antibody treatments developed in sheep, horses or camels to administer following bites from venomous creatures. Currently, the methods to prevent or treat tick paralysis relies upon chemical acaricide preventative treatments or prompt removal of all ticks attached to the host followed by the administration of a commercial tick-antiserum (TAS) respectively. However, these methods have several drawbacks such as poor efficacies, non-standardized dosages, adverse effects and are expensive to administer. Recently the I. holocyclus tick transcriptome from salivary glands and viscera reported a large family of 19 holocyclotoxins at 38-99% peptide sequence identities. A pilot trial demonstrated that correct folding of holocyclotoxins is needed to induce protection from paralysis. The immunogenicity of the holocyclotoxins were measured using commercial tick antiserum selecting HT2, HT4, HT8 and HT11 for inclusion into the novel cocktail vaccine. A further 4 HTs (HT1, HT12, HT14 and HT17) were added to the cocktail vaccine to ensure that the sequence variation among the HT protein family was encompassed in the formulation. A second trial comparing the cocktail of 8 HTs to a placebo group demonstrated complete protection from tick challenge. Here we report the first successful anti-venom vaccine protecting dogs from tick paralysis.

Published
2021

5. Low genetic diversity of Ehrlichia canis associated with high co-infection rates in Rhipicephalus sanguineus (s.l.) 11 Medical and Health Sciences 1108 Medical Microbiology 06 Biological Sciences 0604 Genetics 06 Biological Sciences 0605 Microbiology

Author

Cabezas-Cruz, A., Allain, E., Ahmad, A.S., Saeed, M.A., Rashid, I., Ashraf, K., Yousfi, L., Shehzad, W., Indjein, L., Rodriguez-Valle, M., Estrada-Peña, A., Obregón, D., Jabbar, A., and Moutailler, S.

Subjects
parasitic diseases
Abstract

Background: Rhipicephalus sanguineus sensu lato (s.l.) is the most widely distributed ixodid tick and is a vector of major canine and human pathogens. High-throughput technologies have revealed that individual ticks carry a high diversity of pathogens, including bacteria, protozoa and viruses. Currently, it is accepted that co-infections (multiple pathogen species within an individual) are very common in ticks and influence pathogen acquisition and transmission as well as host infection risk. However, little is known on the impact of the genetic diversity of pathogens on the incidence of co-infections. Herein, we studied the frequency of co-infections in R. sanguineus (s.l.) and their association with the genetic diversity of Ehrlichia canis. Methods: Rhipicephalus sanguineus (s.l.) female ticks (n = 235) were collected from healthy farm dogs in three districts of Pakistan. Microfluidic real-time PCR, a powerful nanotechnology for high-throughput molecular detection of pathogens, was used to test the presence of 25 bacterial and seven parasitic species in individual ticks. The genetic diversity of E. canis was evaluated by characterizing the trp36 gene. Results: A total of 204 ticks were infected with at least one pathogen and 109 co-infected with two (80%) or three (20%) pathogens. Rickettsia massiliae (human pathogen) and E. canis (zoonotic dog pathogen) were the most common pathogens co-infecting (30.4%) ticks. Furthermore, all identified co-infections included R. massiliae and/or E. canis. Multiple correspondence analysis (MCA) revealed that single infections did not show clear regional association whereas some co-infections were restricted to certain geographical regions. The sequence analysis of trp36 in representative samples allowed the identification of three E. canis strains with low genetic diversity, and the strain found in Muzaffargarh district appeared to be more adapted to co-infection with R. massiliae. Conclusions: Rhipicephalus sanguineus (s.l.) harbors multiple co-infections with human and dog pathogens of zoonotic potential. Findings of this study suggest that genetic diversity of E. canis may favor co-infections with different pathogens.

Published
2019

6. Antibacterial and antifungal activity of defensins from the Australian paralysis tick, Ixodes holocyclus

Author

Cabezas-Cruz, A., Tonk, M., Bleackley, M.R., Valdés, J.J, Barrero, R.A., Hernández-Jarguín, A., Moutailler, S., Vilcinskas, A., Richard-Forget, F., Anderson, M.A., Rodriguez-Valle, M., Cabezas-Cruz, A., Tonk, M., Bleackley, M.R., Valdés, J.J, Barrero, R.A., Hernández-Jarguín, A., Moutailler, S., Vilcinskas, A., Richard-Forget, F., Anderson, M.A., and Rodriguez-Valle, M.

Abstract

Tick innate immunity involves humoral and cellular responses. Among the humoral effector molecules in ticks are the defensins which are a family of small peptides with a conserved γ-core motif that is crucial for their antimicrobial activity. Defensin families have been identified in several hard and soft tick species. However, little is known about the presence and antimicrobial activity of defensins from the Australian paralysis tick Ixodes holocyclus. In this study the I. holocyclus transcriptome was searched for the presence of defensins. Unique and non-redundant defensin sequences were identified and designated as holosins 1 – 5. The antimicrobial activity of holosins 2 and 3 and of the predicted γ-cores of holosins 1–4 (HoloTickCores 1–4), was assessed using Gram-negative and Gram-positive bacteria as well as the fungus Fusarium graminearum and the yeast Candida albicans. All holosins had molecular features that are conserved in other tick defensins. Furthermore holosins 2 and 3 were very active against the Gram-positive bacteria Staphylococcus aureus and Listeria grayi. Holosins 2 and 3 were also active against F. graminearum and C. albicans and 5 μM of peptide abrogate the growth of these microorganisms. The activity of the synthetic γ-cores was lower than that of the mature defensins apart from HoloTickCore 2 which had activity comparable to mature holosin 2 against the Gram-negative bacterium Escherichia coli. This study reveals the presence of a multigene defensin family in I. holocyclus with wide antimicrobial activity.

Published
2019

7. Low genetic diversity of Ehrlichia canis associated with high co-infection rates in Rhipicephalus sanguineus (s.l.)

Author

Cabezas-Cruz, A, Allain, E, Ahmad, AS, Saeed, MA, Rashid, I, Ashraf, K, Yousfi, L, Shehzad, W, Indjein, L, Rodriguez-Valle, M, Estrada-Pena, A, Obregon, D, Jabbar, A, Moutailler, S, Cabezas-Cruz, A, Allain, E, Ahmad, AS, Saeed, MA, Rashid, I, Ashraf, K, Yousfi, L, Shehzad, W, Indjein, L, Rodriguez-Valle, M, Estrada-Pena, A, Obregon, D, Jabbar, A, and Moutailler, S

Abstract

BACKGROUND: Rhipicephalus sanguineus sensu lato (s.l.) is the most widely distributed ixodid tick and is a vector of major canine and human pathogens. High-throughput technologies have revealed that individual ticks carry a high diversity of pathogens, including bacteria, protozoa and viruses. Currently, it is accepted that co-infections (multiple pathogen species within an individual) are very common in ticks and influence pathogen acquisition and transmission as well as host infection risk. However, little is known on the impact of the genetic diversity of pathogens on the incidence of co-infections. Herein, we studied the frequency of co-infections in R. sanguineus (s.l.) and their association with the genetic diversity of Ehrlichia canis. METHODS: Rhipicephalus sanguineus (s.l.) female ticks (n = 235) were collected from healthy farm dogs in three districts of Pakistan. Microfluidic real-time PCR, a powerful nanotechnology for high-throughput molecular detection of pathogens, was used to test the presence of 25 bacterial and seven parasitic species in individual ticks. The genetic diversity of E. canis was evaluated by characterizing the trp36 gene. RESULTS: A total of 204 ticks were infected with at least one pathogen and 109 co-infected with two (80%) or three (20%) pathogens. Rickettsia massiliae (human pathogen) and E. canis (zoonotic dog pathogen) were the most common pathogens co-infecting (30.4%) ticks. Furthermore, all identified co-infections included R. massiliae and/or E. canis. Multiple correspondence analysis (MCA) revealed that single infections did not show clear regional association whereas some co-infections were restricted to certain geographical regions. The sequence analysis of trp36 in representative samples allowed the identification of three E. canis strains with low genetic diversity, and the strain found in Muzaffargarh district appeared to be more adapted to co-infection with R. massiliae. CONCLUSIONS: Rhipicephalus sanguineus (s.l.) ha

Published
2019

8. Transcriptome and toxin family analysis of the paralysis tick, Ixodes holocyclus

Author

Rodriguez-Valle, M, Moolhuijzen, P, Barrero, RA, Ong, CT, Busch, G, Karbanowicz, T, Booth, M, Clark, R, Koehbach, J, Ijaz, H, Broady, K, Agnew, K, Knowles, AG, Bellgard, MI, and Tabor, AE

Subjects
Male, Ixodes, Neurotoxins, Molecular Sequence Data, Australia, Mycology & Parasitology, Cat Diseases, Tick Paralysis, Mice, Dogs, Cats, Animals, Female, Dog Diseases, Amino Acid Sequence, Transcriptome, Sequence Alignment, Arthropod Venoms, Phylogeny
Abstract

© 2017 Australian Society for Parasitology The Australian paralysis tick (Ixodes holocyclus) secretes neuropathic toxins into saliva that induce host paralysis. Salivary glands and viscera were dissected from fully engorged female I. holocyclus ticks collected from dogs and cats with paralysis symptoms. cDNA from both tissue samples were sequenced using Illumina HiSeq 100 bp pair end read technologies. Unique and non-redundant holocyclotoxin sequences were designated as HT2–HT19, as none were identical to the previously described HT1. Specific binding to rat synaptosomes was determined for synthetic HTs, and their neurotoxic capacity was determined by neonatal mouse assay. They induced a powerful paralysis in neonatal mice, particularly HT4 which produced rapid and strong respiratory distress in all animals tested. This is the first known genomic database developed for the Australian paralysis tick. The database contributed to the identification and subsequent characterization of the holocyclotoxin family that will inform the development of novel anti-paralysis control methods.

Published
2017

9. Immunization and chemical conjugation of Bm95 obtained from Pichia pastoris enhances the immune response against vaccinal protein and Neisseria meningitidis capsular polysaccharide

Author

Rodriguez-Valle M, Canan-Hadden L, and Niebla O

Subjects
lcsh:Immunologic diseases. Allergy, lcsh:Therapeutics. Pharmacology, lcsh:RM1-950, lcsh:RC581-607
Abstract

Manuel Rodriguez-Valle,1 Leonardo Canan-Hadden,2 Olivia Niebla2 1Animal Biotechnology Division, 2Analytical Division, Centre for Genetic Engineering and Biotechnology, Havana, Cuba Abstract: The ectoparasite Rhipicephalus (Boophilus) microplus causes severe economic losses to the cattle industry in tropical and subtropical regions, and transmits endoparasites, such as Babesia bovis. The glycoprotein Bm95 is homologous to Bm86, a surface membrane protein of gut epithelial cells in R. microplus, and has been shown to efficiently control this ectoparasite in regions of the Americas. The immunostimulant properties of Bm86 have already been demonstrated after its coinjection with hepatitis B surface antigen (HBsAg) and the infectious bovine rhinotracheitis virus. This study evaluated the carrier and immunostimulant properties of Bm95 using low immunogenic Neisseria meningitidis capsular C polysaccharide (Men CpS) and HBsAg. We produced two polysaccharide-Bm95 conjugates by carbodiimide (MenCpSBm-c) and reductive amination (MenCpSBm-ra) methods. These conjugates were characterized and evaluated in mice. Antibody titers against Men CpS were significantly higher in mice immunized with MenCpSBm-ra (2,350±250, P

Published
2014

11. Comparison of Protein Gut Samples from Rhipicephalus spp. Using a Crude and an Innovative Preparation Method for Proteome Analysis

Author

Karbanowicz, T., Nouwens, A., Tabor, A., Rodriguez-Valle, M., Karbanowicz, T., Nouwens, A., Tabor, A., and Rodriguez-Valle, M.

Abstract

Tick populations are controlled through the application of chemical pesticides. However, the rise in chemical resistance has prompted the investigation of other control methods such as the use of tick vaccines. Proteomic analysis provides valuable information about the possible function and localization of proteins, as candidate vaccine proteins are often either secreted or localized on the cell-surface membrane. Progress in the utilization of proteomics for the identification of novel treatment targets has been significant. However, their use in tick-specific investigations is still quite novel, with the continual development of tick-specific methodologies essential. In this study, an innovative sample preparation method was utilized to isolate epithelial cells from tick midguts to identify the membrane-bound proteins. Proteomic analysis was conducted comparing crude and innovative sample preparation methods with 692 and 1242 tick-specific proteins, 108 and 314 surface proteins respectively, isolated from the midguts of semi-engorged Rhipicephalus microplus adult female ticks. This research reports a novel preparation protocol for the analysis of tick midgut proteins which reduces host protein contamination.

Published
2018

12. Transcriptome and toxin family analysis of the paralysis tick, Ixodes holocyclus

Author

Rodriguez-Valle, M, Moolhuijzen, P, Barrero, RA, Ong, CT, Busch, G, Karbanowicz, T, Booth, M, Clark, R, Koehbach, J, Ijaz, H, Broady, K, Agnew, K, Knowles, AG, Bellgard, MI, Tabor, AE, Rodriguez-Valle, M, Moolhuijzen, P, Barrero, RA, Ong, CT, Busch, G, Karbanowicz, T, Booth, M, Clark, R, Koehbach, J, Ijaz, H, Broady, K, Agnew, K, Knowles, AG, Bellgard, MI, and Tabor, AE

Abstract

© 2017 Australian Society for Parasitology The Australian paralysis tick (Ixodes holocyclus) secretes neuropathic toxins into saliva that induce host paralysis. Salivary glands and viscera were dissected from fully engorged female I. holocyclus ticks collected from dogs and cats with paralysis symptoms. cDNA from both tissue samples were sequenced using Illumina HiSeq 100 bp pair end read technologies. Unique and non-redundant holocyclotoxin sequences were designated as HT2–HT19, as none were identical to the previously described HT1. Specific binding to rat synaptosomes was determined for synthetic HTs, and their neurotoxic capacity was determined by neonatal mouse assay. They induced a powerful paralysis in neonatal mice, particularly HT4 which produced rapid and strong respiratory distress in all animals tested. This is the first known genomic database developed for the Australian paralysis tick. The database contributed to the identification and subsequent characterization of the holocyclotoxin family that will inform the development of novel anti-paralysis control methods.

Published
2018

13. Purification of biotinylated cell surface proteins from Rhipicephalus microplus epithelial gut cells

Author

Karbanowicz, T.P., Lew-Tabor, A., Rodriguez Valle, M., Karbanowicz, T.P., Lew-Tabor, A., and Rodriguez Valle, M.

Abstract

Rhipicephalus microplus - the cattle tick - is the most significant ectoparasite in terms of economic impact on livestock as a vector of several pathogens. Efforts have been dedicated to the cattle tick control to diminish its deleterious effects, with focus on the discovery of vaccine candidates, such as BM86, located on the surface of the tick gut epithelial cells. Current research focuses upon the utilization of cDNA and genomic libraries, to screen for other vaccine candidates. The isolation of tick gut cells constitutes an important advantage in investigating the composition of surface proteins upon the tick gut cells membrane. This paper constitutes a novel and feasible method for the isolation of epithelial cells, from the tick gut contents of semi-engorged R. microplus. This protocol utilizes TCEP and EDTA to release the epithelial cells from the subepithelial support tissues and a discontinuous density centrifugation gradient to separate epithelial cells from other cell types. Cell surface proteins were biotinylated and isolated from the tick gut epithelial cells, using streptavidin-linked magnetic beads allowing for downstream applications in FACS or LC-MS/MS-analysis.

Published
2017

14. Transcriptome and toxin family analysis of the paralysis tick, Ixodes holocyclus

Author

Rodriguez-Valle, M., Moolhuijzen, P., Barrero, R.A., Ong, C.T., Busch, G., Karbanowicz, T., Booth, M., Clark, R., Koehbach, J., Ijaz, H., Broady, K., Agnew, K., Knowles, A.G., Bellgard, M.I., Tabor, A.E., Rodriguez-Valle, M., Moolhuijzen, P., Barrero, R.A., Ong, C.T., Busch, G., Karbanowicz, T., Booth, M., Clark, R., Koehbach, J., Ijaz, H., Broady, K., Agnew, K., Knowles, A.G., Bellgard, M.I., and Tabor, A.E.

Abstract

The Australian paralysis tick (Ixodes holocyclus) secretes neuropathic toxins into saliva that induce host paralysis. Salivary glands and viscera were dissected from fully engorged female I. holocyclus ticks collected from dogs and cats with paralysis symptoms. cDNA from both tissue samples were sequenced using Illumina HiSeq 100 bp pair end read technologies. Unique and non-redundant holocyclotoxin sequences were designated as HT2–HT19, as none were identical to the previously described HT1. Specific binding to rat synaptosomes was determined for synthetic HTs, and their neurotoxic capacity was determined by neonatal mouse assay. They induced a powerful paralysis in neonatal mice, particularly HT4 which produced rapid and strong respiratory distress in all animals tested. This is the first known genomic database developed for the Australian paralysis tick. The database contributed to the identification and subsequent characterization of the holocyclotoxin family that will inform the development of novel anti-paralysis control methods.

Published
2017

15. Extracellular expression of the HT1 neurotoxin from the Australian paralysis tick in two Saccharomyces cerevisiae strains

Author

Karbanowicz, T., Dover, E., Mu, X., Tabor, A., Rodriguez-Valle, M., Karbanowicz, T., Dover, E., Mu, X., Tabor, A., and Rodriguez-Valle, M.

Abstract

Surface display libraries (SDL) have predominantly been utilized for the screening of peptides, and single-chain variable IgG fragments, however, the use of SDL for the expression and purification of proteins is gaining interest. Prokaryote SDL express proteins within the periplasm, limiting the application of common screening techniques, such as ELISA and FACS, to assess the viability of recombinant toxin before purification. A previous attempt to express a functional holocyclotoxin-1 (HT1) from the Australian paralysis tick (Ixodes holocyclus) using a prokaryotic system was unsuccessful. In this study, the coding sequence (CDS) of HT1 was cloned into the pYD1 plasmid and transformed by electroporation into IMTV014 and EBY100 yeast cell lines. Post induction, recombinant HT1 was identified on the cell surface of IMTV014/ht1 and EBY100/ht1 transformants by FACS, Western blot, and ELISA utilizing dog anti-paralysis tick IgG. The recombinant HT1 was purified, and functionality confirmed by an in vitro synaptosome-binding assay. This research reports for the first time the extracellular expression and display of a functional HT1 on the surface of the S. cerevisiae. It also provides evidence that yeast display libraries provide a viable technology to produce recombinant toxins, and their screening using high throughput methodologies such as FACS.

Published
2017

16. Exploring the transcriptomic data of the Australian paralysis tick, Ixodes holocyclus

Author

Ong, C.T., Rodriguez-Valle, M., Barrero, R.A., Hunter, A., Bellgard, M.I., Lew-Tabor, A.E., Ong, C.T., Rodriguez-Valle, M., Barrero, R.A., Hunter, A., Bellgard, M.I., and Lew-Tabor, A.E.

Abstract

Ixodes holocyclus is the paralysis tick commonly found in Australia. I. holocyclus does not cause paralysis in the primary host – bandicoots, but markedly affects secondary hosts such as companion animals, livestock and humans. Holocyclotoxins are the neurotoxin molecules in I. holocyclus responsible for paralysis symptoms. There is a limited understanding of holocyclotoxins due to the difficulties in purifying and expressing these toxins in vitro. Next-generation sequencing technologies were utilised for the first time to generate transcriptome data from two cDNA samples –salivary glands samples collected from female adult ticks engorged on paralysed companion animals and on bandicoots. Contigencoded proteins in each library were annotated according to their best BLAST match against several databases and functionally assigned into six protein categories: housekeeping, transposable elements, pathogen-related, hypothetical, secreted and novel. The “secreted protein” category is comprised of ten protein families: enzymes, protease inhibitors, antigens, mucins, immunity-related, lipocalins, glycinerich, putative secreted, salivary and toxin-like. Comparisons of contig representation between the two libraries reveal the differential expression of tick proteins collected from different hosts. This study provides a preliminary description of the I. holocyclus tick salivary gland transcriptome.

Published
2016

18. Tick holocyclotoxins trigger host paralysis by presynaptic inhibition

Author

Chand, K.K., Lee, K.M., Lavidis, N.A., Rodriguez-Valle, M., Ijaz, H., Koehbach, J., Clark, R.J., Lew-Tabor, A., Noakes, P.G., Chand, K.K., Lee, K.M., Lavidis, N.A., Rodriguez-Valle, M., Ijaz, H., Koehbach, J., Clark, R.J., Lew-Tabor, A., and Noakes, P.G.

Abstract

Ticks are important vectors of pathogens and secreted neurotoxins with approximately 69 out of 692 tick species having the ability to induce severe toxicoses in their hosts. The Australian paralysis tick (Ixodes holocyclus) is known to be one of the most virulent tick species producing a flaccid paralysis and fatalities caused by a family of neurotoxins known as holocyclotoxins (HTs). The paralysis mechanism of these toxins is temperature dependent and is thought to involve inhibition of acetylcholine levels at the neuromuscular junction. However, the target and mechanism of this inhibition remain uncharacterised. Here, we report that three members of the holocyclotoxin family; HT-1 (GenBank AY766147), HT-3 (GenBank KP096303) and HT-12 (GenBank KP963967) induce muscle paralysis by inhibiting the dependence of transmitter release on extracellular calcium. Previous study was conducted using extracts from tick salivary glands, while the present study is the first to use pure toxins from I. holocyclus. Our findings provide greater insight into the mechanisms by which these toxins act to induce paralysis.

Published
2016

19. Cattle tick vaccine researchers join forces in CATVAC

Author

Schetters, T., Bishop, R., Crampton, M., Kopáček, P., Lew-Tabor, A., Maritz-Olivier, C., Miller, R., Mosqueda, J., Patarroyo, J., Rodriguez-Valle, M., Scoles, G.A., de la Fuente, J., Schetters, T., Bishop, R., Crampton, M., Kopáček, P., Lew-Tabor, A., Maritz-Olivier, C., Miller, R., Mosqueda, J., Patarroyo, J., Rodriguez-Valle, M., Scoles, G.A., and de la Fuente, J.

Abstract

A meeting sponsored by the Bill & Melinda Gates Foundation was held at the Avanti Hotel, Mohammedia, Morocco, July 14–15, 2015. The meeting resulted in the formation of the Cattle Tick Vaccine Consortium (CATVAC).

Published
2016

20. Effective inhibition of thrombin by Rhipicephalus microplus serpin-15 (RmS-15) obtained in the yeast Pichia pastoris

Author

Xu, T., Lew-Tabor, A., Rodriguez-Valle, M., Xu, T., Lew-Tabor, A., and Rodriguez-Valle, M.

Abstract

The cattle tick (Rhipicephalus microplus) affects cattle industries in tropical and subtropical countries because it is the vector of babesiosis and anaplasmosis which constitutes a threat to the health of cattle. During blooding feeding, ticks secrete saliva containing a complex of bioactive molecules into the injured site to evade host's defensive responses. Serine protease inhibitors (serpins) are important anti-haemostatic molecules present in tick saliva that are necessary for a successful blood feeding. Several serpin sequences have been reported in R. microplus but there is a gap of information about their functions during host–parasite interactions. In this study, the RmS-15 expressed in the yeast Pichia pastoris was characterised using kinetic assays and in vitro analysis. The inhibitory enzymatic assays conducted showed that RmS-15 is a physiological inhibitor of thrombin with a stoichiometric inhibition (SI) of 1.5 and high inhibition affinity with ka = 9.3 ± 0.5 × 104 M−1 s−1. RmS-15 delayed the clotting of plasma in a dose-dependent manner as determined in a recalcification time assay. Significant elevated ELISA titres were observed in tick resistant and susceptible cattle on day 28 after the tick infestation (p < 0.001). This data suggests direct contact of RmS-15 with the immune system of the host at the tick-feeding site. The present study contributed to the understanding of the biological functions of R. microplus serpins during host–parasite interactions which contributes to the design of future innovative methods for tick control.

Published
2016

22. A review of reverse vaccinology approaches for the development of vaccines against ticks and tick borne diseases

Author

Lew-Tabor, A.E., Rodriguez Valle, M., Lew-Tabor, A.E., and Rodriguez Valle, M.

Abstract

The field of reverse vaccinology developed as an outcome of the genome sequence revolution. Following the introduction of live vaccinations in the western world by Edward Jenner in 1798 and the coining of the phrase ‘vaccine’, in 1881 Pasteur developed a rational design for vaccines. Pasteur proposed that in order to make a vaccine that one should ‘isolate, inactivate and inject the microorganism’ and these basic rules of vaccinology were largely followed for the next 100 years leading to the elimination of several highly infectious diseases. However, new technologies were needed to conquer many pathogens which could not be eliminated using these traditional technologies. Thus increasingly, computers were used to mine genome sequences to rationally design recombinant vaccines. Several vaccines for bacterial and viral diseases (i.e. meningococcus and HIV) have been developed, however the on-going challenge for parasite vaccines has been due to their comparatively larger genomes. Understanding the immune response is important in reverse vaccinology studies as this knowledge will influence how the genome mining is to be conducted. Vaccine candidates for anaplasmosis, cowdriosis, theileriosis, leishmaniasis, malaria, schistosomiasis, and the cattle tick have been identified using reverse vaccinology approaches. Some challenges for parasite vaccine development include the ability to address antigenic variability as well the understanding of the complex interplay between antibody, mucosal and/or T cell immune responses. To understand the complex parasite interactions with the livestock host, there is the limitation where algorithms for epitope mining using the human genome cannot directly be adapted for bovine, for example the prediction of peptide binding to major histocompatibility complex motifs. As the number of genomes for both hosts and parasites increase, the development of new algorithms for pan-genomic mining will continue to impact the future of parasite and ric

Published
2015

23. Rhipicephalus microplus serine protease inhibitor family: Annotation, expression and functional characterisation assessment

Author

Rodriguez-Valle, M., Xu, T., Kurscheid, S., Lew-Tabor, A.E., Rodriguez-Valle, M., Xu, T., Kurscheid, S., and Lew-Tabor, A.E.

Abstract

Background Rhipicephalus (Boophilus) microplus evades the host’s haemostatic system through a complex protein array secreted into tick saliva. Serine protease inhibitors (serpins) conform an important component of saliva which are represented by a large protease inhibitor family in Ixodidae. These secreted and non-secreted inhibitors modulate diverse and essential proteases involved in different physiological processes. Methods The identification of R. microplus serpin sequences was performed through a web-based bioinformatics environment called Yabi. The database search was conducted on BmiGi V1, BmiGi V2.1, five SSH libraries, Australian tick transcriptome libraries and RmiTR V1 using bioinformatics methods. Semi quantitative PCR was carried out using different adult tissues and tick development stages. The cDNA of four identified R. microplus serpins were cloned and expressed in Pichia pastoris in order to determine biological targets of these serpins utilising protease inhibition assays. Results A total of four out of twenty-two serpins identified in our analysis are new R. microplus serpins which were named as RmS-19 to RmS-22. The analyses of DNA and predicted amino acid sequences showed high conservation of the R. microplus serpin sequences. The expression data suggested ubiquitous expression of RmS except for RmS-6 and RmS-14 that were expressed only in nymphs and adult female ovaries, respectively. RmS-19, and -20 were expressed in all tissues samples analysed showing their important role in both parasitic and non-parasitic stages of R. microplus development. RmS-21 was not detected in ovaries and RmS-22 was not identified in ovary and nymph samples but were expressed in the rest of the samples analysed. A total of four expressed recombinant serpins showed protease specific inhibition for Chymotrypsin (RmS-1 and RmS-6), Chymotrypsin / Elastase (RmS-3) and Thrombin (RmS-15). Conclusion This study constitutes an important contribution and improvement to the k

Published
2015

24. Rhipicephalus (Boophilus) microplus tick in vitro feeding methods for functional (dsRNA) and vaccine candidate (antibody) screening

Author

Lew-Tabor, A.E., Bruyeres, A.G., Zhang, B., Rodriguez Valle, M., Lew-Tabor, A.E., Bruyeres, A.G., Zhang, B., and Rodriguez Valle, M.

Abstract

Rhipicephalus (Boophilus) microplus (Acari: Ixodidae) ticks cause economic losses for cattle industries throughout tropical and subtropical regions of the world estimated at $US2.5 billion annually. Lack of access to efficacious long-lasting vaccination regimes and increases in tick acaricide resistance have led to the investigation of targets for the development of novel tick vaccines and treatments. In vitro tick feeding has been used for many tick species to study the effect of new acaricides on the transmission of tick-borne pathogens. Few studies have reported the use of in vitro feeding for functional genomic studies using RNA interference and/or the effect of specific anti-tick antibodies. In particular, in vitro feeding reports for the cattle tick are limited due to its relatively short hypostome. Previously published methods were further modified to broaden optimal tick sizes/weights, feeding sources including bovine and ovine serum, optimisation of commercially available blood anti-coagulant tubes, and IgG concentrations for effective antibody delivery. Ticks are fed overnight and monitored for ∼5-6 weeks to determine egg output and success of larval emergence using a humidified incubator. Lithium-heparin blood tubes provided the most reliable anti-coagulant for bovine blood feeding compared with commercial citrated (CPDA) and EDTA tubes. Although >30 mg semi-engorged ticks fed more reliably, ticks as small as 15 mg also fed to repletion to lay viable eggs. Ticks which gained less than ∼10 mg during in vitro feeding typically did not lay eggs. One mg/ml IgG from Bm86-vaccinated cattle produced a potent anti-tick effect in vitro (83% efficacy) similar to that observed in vivo. Alternatively, feeding of dsRNA targeting Bm86 did not demonstrate anti-tick effects (11% efficacy) compared with the potent effects of ubiquitin dsRNA. This study optimises R. microplus tick in vitro feeding methods which support the development of cattle tick vaccines and treatments

Published
2014

25. Rhipicephalus microplus lipocalins (LRMs): Genomic identification and analysis of the bovine immune response using in silico predicted B and T cell epitopes

Author

Rodriguez-Valle, M., Moolhuijzen, P., Piper, E.K., Weiss, O., Vance, M., Bellgard, M., Lew-Tabor, A., Rodriguez-Valle, M., Moolhuijzen, P., Piper, E.K., Weiss, O., Vance, M., Bellgard, M., and Lew-Tabor, A.

Abstract

The attachment to host skin by Rhipicephalus microplus larvae induces a series of physiological events at the attachment site. The host-parasite interaction might induce a rejection of the larvae, as is frequently observed in Bos taurus indicus cattle, and under certain conditions in Bos taurus taurus cattle. Ticks deactivate the host rejection response by secreting specific proteins and lipids that play an essential role in manipulation of the host immune response. The available genomic information on the R. microplus tick was mined using bioinformatics approaches to identify R. microplus lipocalins (LRMs). This in silico examination revealed a total of 12 different putative R. microplus LRMs (LRM1-LRM12). The identity of the LRM family showed high sequence variability: from 6% between LRM7 and LRM8 to 55.9% between LRM2 and LRM6. However, the three-dimensional structure of the lipocalin family was conserved in the LRMs. The B and T cell epitopes in these lipocalins were then predicted, and six of the LRMs (5, 6, 9, 10, 11 and 12) were used to examine the host immune interactions with sera and peripheral blood mononuclear cells (PBMCs) collected from tick-susceptible and tick-resistant cattle challenged with R. microplus. On days 28-60 after tick infestation, the anti-LRM titres were higher in the resistant group compared with the susceptible cattle. After 60day, the anti-LRM titres (except LRM9 and LRM11) decreased to zero in the sera of both the tick-resistant and tick-susceptible cattle. Using cell proliferation assays, the PBMCs challenged with some of the predicted T cell epitopes (LRM1_T1, T2; LRM_T1, T2 and LRM12_T) exhibited a significantly higher number of IFN-γ-secreting cells (Th1) in tick-susceptible Holstein-Friesians compared with tick-resistant Brahman cattle. In contrast, expression of the Th2 cytokine (IL-4) was lower in Holstein-Friesians cattle compared with Brahman cattle. Moreover, this study found that LRM6, LRM9 and LRM11 play important roles

Published
2013

26. Differential recognition by tick-resistant cattle of the recombinantly expressed Rhipicephalus microplus serine protease inhibitor-3 (RMS-3)

Author

Rodriguez-Valle, M., Vance, M., Moolhuijzen, P.M., Tao, X., Lew-Tabor, A.E., Rodriguez-Valle, M., Vance, M., Moolhuijzen, P.M., Tao, X., and Lew-Tabor, A.E.

Abstract

Rhipicephalus microplus is an important bovine ectoparasite, widely distributed in tropical and subtropical regions of the world causing large economic losses to the cattle industry. Its success as an ectoparasite is associated with its capacity to disarm the antihemostatic and anti-inflammatory reactions of the host. Serpins are protease inhibitors with an important role in the modulation of host-parasite interactions. The cDNA that encodes for a R. microplus serpin was isolated by RACE and subsequently cloned into the pPICZαA vector. Sequence analysis of the cDNA and predicted amino acid showed that this cDNA has a conserved serpin domain. B- and T-cell epitopes were predicted using bioinformatics tools. The recombinant R. microplus serpin (rRMS-3) was secreted into the culture media of Pichia pastoris after methanol induction at 0.2mgl -1. qRT-PCR expression analysis of tissues and life cycle stages demonstrated that RMS-3 was mainly expressed in the salivary glands of female adult ticks. Immunological recognition of the rRMS-3 and predicted B-cell epitopes was tested using tick-resistant and susceptible cattle sera. Only sera from tick-resistant bovines recognized the B-cell epitope AHYNPPPPIEFT (Seq7). The recombinant RMS-3 was expressed in P. pastoris, and ELISA screening also showed higher recognition by tick-resistant bovine sera. The results obtained suggest that RMS-3 is highly and specifically secreted into the bite site of R. microplus feeding on tick-resistant bovines. Capillary feeding of semi-engorged ticks with anti-AHYNPPPPIEFT sheep sera led to an 81.16% reduction in the reproduction capacity of R. microplus. Therefore, it is possible to conclude that R. microplus serpin (RMS-3) has an important role in the host-parasite interaction to overcome the immune responses in resistant cattle.

Published
2012

27. CattleTickBase: An integrated Internet-based bioinformatics resource for Rhipicephalus (Boophilus) microplus

Author

Bellgard, M. I., Moolhuijzen, P. M., Guerrero, F. D., Schibeci, D., Rodriguez-Valle, M., Peterson, D. G., Dowd, S. E., Barrero, R., Hunter, A., Miller, R. J., Lew-Tabor, A. E., Bellgard, M. I., Moolhuijzen, P. M., Guerrero, F. D., Schibeci, D., Rodriguez-Valle, M., Peterson, D. G., Dowd, S. E., Barrero, R., Hunter, A., Miller, R. J., and Lew-Tabor, A. E.

Abstract

The Rhipicephalus micro plus genome is large and complex in structure, making it difficult to assemble a genome sequence and costly to resource the required bioinformatics. In light of this, a consortium of international collaborators was formed to pool resources to begin sequencing this genome. We have acquired and assembled genomic DNA into contigs that represent over 1.8 Gigabase pairs of DNA from gene-enriched regions of the R. micro plus genome. We also have several datasets containing transcript sequences from a number of gene expression experiments conducted by the consortium. A web-based resource was developed to enable the scientific community to access our datasets and conduct analysis through a web-based bioinformatics environment called YABI. The collective bioinformatics resource is termed CattleTickBase. Our consortium has acquired genomic and transcriptomic sequence data at approximately 0.9X coverage of the gene-coding regions of the R. microplus genome. The YABI tool will facilitate access and manipulation of cattle tick genome sequence data as the genome sequencing of R. microplus proceeds. During this process the CattleTickBase resource will continue to be updated. Published by Elsevier Ltd. on behalf of Australian Society for Parasitology Inc.

Published
2012

28. Efficacy of Rhipicephalus (Boophilus) microplus Bm86 against Hyalomma dromedarii and Amblyomma cajennense tick infestations in camels and cattle

Author

Rodriguez-Valle, M., Taoufik, A., Valdes, M., Montero, C., Ibrahin, H., Hassan, S. M., Jongejan, F., de la Fuentegh, J., Rodriguez-Valle, M., Taoufik, A., Valdes, M., Montero, C., Ibrahin, H., Hassan, S. M., Jongejan, F., and de la Fuentegh, J.

Abstract

The recombinant Bm86-based tick vaccines have shown their efficacy for the control of cattle ticks, Rhipicephalus (Boophilus) microplus and R. annulatus infestations. However, cattle ticks often co-exist with multi-host ticks such as Hyalomma and Amblyomma species, thus requiring the control of multiple tick infestations for cattle and other hosts. Vaccination trials using a R. microplus recombinant Bm86-based vaccine were conducted in cattle and camels against Hyalomma dromedarii and in cattle against Amblyomma cajennense immature and adult ticks. The results showed an 89% reduction in the number of H. dromedarii nymphs engorging on vaccinated cattle, and a further 32% reduction in the weight of the surviving adult ticks. In vaccinated camels, a reduction of 27% and 31% of tick engorgement and egg mass weight, respectively was shown, while egg hatching was reduced by 39%. However, cattle vaccination with Bm86 did not have an effect on A. cajennense tick infestations. These results showed that Bm86 vaccines are effective against R. microplus and other tick species but improved vaccines containing new antigens are required to control multiple tick infestations. (C) 2012 Elsevier Ltd. All rights reserved.

Published
2012

29. CattleTickBase: An integrated Internet-based bioinformatics resource for Rhipicephalus (Boophilus) microplus

Author

Bellgard, M., Moolhuijzen, Paula, Guerrero, F., Schibeci, D., Rodriguez-Valle, M., Peterson, D., Dowd, S., Barrero, R., Hunter, A., Miller, R., Lew-Tabor, A., Bellgard, M., Moolhuijzen, Paula, Guerrero, F., Schibeci, D., Rodriguez-Valle, M., Peterson, D., Dowd, S., Barrero, R., Hunter, A., Miller, R., and Lew-Tabor, A.

Abstract

The Rhipicephalus microplus genome is large and complex in structure, making it difficult to assemble a genome sequence and costly to resource the required bioinformatics. In light of this, a consortium of international collaborators was formed to pool resources to begin sequencing this genome. We have acquired and assembled genomic DNA into contigs that represent over 1.8 Gigabase pairs of DNA from gene-enriched regions of the R. microplus genome. We also have several datasets containing transcript sequences from a number of gene expression experiments conducted by the consortium. A web-based resource was developed to enable the scientific community to access our datasets and conduct analysis through a web-based bioinformatics environment called YABI. The collective bioinformatics resource is termed CattleTickBase. Our consortium has acquired genomic and transcriptomic sequence data at approximately 0.9X coverage of the gene-coding regions of the R. microplus genome. The YABI tool will facilitate access and manipulation of cattle tick genome sequence data as the genome sequencing of R. microplus proceeds. During this process the CattleTickBase resource will continue to be updated.

Published
2012

30. CattleTickBase: An integrated Internet-based bioinformatics resource for Rhipicephalus (Boophilus) microplus

Author

Bellgard, M.I., Moolhuijzen, P.M., Guerrero, F.D., Schibeci, D., Rodriguez-Valle, M., Peterson, D.G., Dowd, S.E., Barrero, R., Hunter, A., Miller, R.J., Lew-Tabor, A.E., Bellgard, M.I., Moolhuijzen, P.M., Guerrero, F.D., Schibeci, D., Rodriguez-Valle, M., Peterson, D.G., Dowd, S.E., Barrero, R., Hunter, A., Miller, R.J., and Lew-Tabor, A.E.

Abstract

The Rhipicephalus microplus genome is large and complex in structure, making it difficult to assemble a genome sequence and costly to resource the required bioinformatics. In light of this, a consortium of international collaborators was formed to pool resources to begin sequencing this genome. We have acquired and assembled genomic DNA into contigs that represent over 1.8 Gigabase pairs of DNA from gene-enriched regions of the R. microplus genome. We also have several datasets containing transcript sequences from a number of gene expression experiments conducted by the consortium. A web-based resource was developed to enable the scientific community to access our datasets and conduct analysis through a web-based bioinformatics environment called YABI. The collective bioinformatics resource is termed CattleTickBase. Our consortium has acquired genomic and transcriptomic sequence data at approximately 0.9X coverage of the gene-coding regions of the R. microplus genome. The YABI tool will facilitate access and manipulation of cattle tick genome sequence data as the genome sequencing of R. microplus proceeds. During this process the CattleTickBase resource will continue to be updated.

Published
2011

32. Genome based selection of anti-cattle tick vaccine candidate antigens

Author

Guerrero, F.D., Andreotti, R., Perez de Leon, A., Moolhuijzen, P., Rodriguez-Valle, M., Bellgard, M., Guerrero, F.D., Andreotti, R., Perez de Leon, A., Moolhuijzen, P., Rodriguez-Valle, M., and Bellgard, M.

Abstract

We have sequenced and assembled a significant portion of the cattle tick genome and transcriptome, presently at an overall 0.5X coverage. However, the coverage of the gene-rich regions of the genome are at ~2X coverage. This genomic resource will be hosted at Murdoch University, Perth, Western Australia as CattleTickBase (http://ccg.murdoch.edu.au/index.php/Main_Page). We have used this genomic information and additional proteomic and transcriptomic information to guide investigations to select antigens for evaluations in anti-cattle tick vaccine cattle stall trials.

Published
2011

33. Microarray evidence for off target effects in tick RNA interference experiments, and the lack of strong correlation between DSRNA and antibody phenotypes in tick In vitro treatments for vaccine candidate screening

Author

Lew-Tabor, A., Rodriguez-Valle, M., Kurscheid, S., Barrero, R., Gondro, C., Moolhuijzen, P.M., Morgan, J.A.T., Bruyeres, A.B., Zhang, B., Bellgard, M.I., Lew-Tabor, A., Rodriguez-Valle, M., Kurscheid, S., Barrero, R., Gondro, C., Moolhuijzen, P.M., Morgan, J.A.T., Bruyeres, A.B., Zhang, B., and Bellgard, M.I.

Abstract

No abstract available

Published
2011

36. Gene expression evidence for off-target effects caused by RNA interference-mediated gene silencing of Ubiquitin-63E in the cattle tick Rhipicephalus microplus

Author

Lew-Tabor, A., Kurscheid, S., Barrero, R., Gondro, C., Moolhuijzen, Paula, Rodriguez Valle, M., Morgan, J., Covacin, C., Bellgard, M., Lew-Tabor, A., Kurscheid, S., Barrero, R., Gondro, C., Moolhuijzen, Paula, Rodriguez Valle, M., Morgan, J., Covacin, C., and Bellgard, M.

Abstract

Knowledge of cattle tick (Rhipicephalus (Boophilus) microplus; Acari: Ixodidae) molecular and cellular pathways has been hampered by the lack of an annotated genome. In addition, most of the tick expressed sequence tags (ESTs) available to date consist of ~50% unassigned sequences without predicted functions. The most common approach to address this has been the application of RNA interference (RNAi) methods to investigate genes and their pathways. This approach has been widely adopted in tick research despite minimal knowledge of the tick RNAi pathway and double-stranded RNA (dsRNA) uptake mechanisms. A strong knockdown phenotype of adult female ticks had previously been observed using a 594. bp dsRNA targeting the cattle tick homologue for the Drosophila Ubiquitin-63E gene leading to nil or deformed eggs. A NimbleGen cattle tick custom microarray based on the BmiGI.V2 database of R. microplus ESTs was used to evaluate the expression of mRNAs harvested from ticks treated with the tick Ubiquitin-63E 594. bp dsRNA compared with controls. A total of 144 ESTs including TC6372 (Ubiquitin-63E) were down-regulated with 136 ESTs up-regulated following treatment. The results obtained substantiated the knockdown phenotype with ESTs identified as being associated with ubiquitin proteolysis as well as oogenesis, embryogenesis, fatty acid synthesis and stress responses. A bioinformatics analysis was undertaken to predict off-target effects (OTE) resulting from the in silico dicing of the 594. bp Ubiquitin-63E dsRNA which identified 10 down-regulated ESTs (including TC6372) within the list of differentially expressed probes on the microarrays. Subsequent knockdown experiments utilising 196 and 109. bp dsRNAs, and a cocktail of short hairpin RNAs (shRNA) targeting Ubiquitin-63E, demonstrated similar phenotypes for the dsRNAs but nil effect following shRNA treatment. Quantitative reverse transcriptase PCR analysis confirmed differential expression of TC6372 and selected ESTs. Our

Published
2011

37. Comparative microarray analysis of Rhipicephalus (Boophilus) microplus expression profiles of larvae pre-attachment and feeding adult female stages on Bos indicus and Bos taurus cattle

Author

Rodriguez-Valle, M., Lew-Tabor, A., Gondro, C., Moolhuijzen, P., Vance, M., Guerrero, F.D., Bellgard, M., Jorgensen, W., Rodriguez-Valle, M., Lew-Tabor, A., Gondro, C., Moolhuijzen, P., Vance, M., Guerrero, F.D., Bellgard, M., and Jorgensen, W.

Abstract

Background: Rhipicephalus (Boophilus) microplus is an obligate blood feeder which is host specific to cattle. Existing knowledge pertaining to the host or host breed effects on tick transcript expression profiles during the tick - host interaction is poor. Results: Global analysis of gene expression changes in whole R. microplus ticks during larval, pre-attachment and early adult stages feeding on Bos indicus and Bos taurus cattle were compared using gene expression microarray analysis. Among the 13,601 R. microplus transcripts from BmiGI Version 2 we identified 297 high and 17 low expressed transcripts that were significantly differentially expressed between R. microplus feeding on tick resistant cattle [Bos indicus (Brahman)] compared to R. microplus feeding on tick susceptible cattle [Bos taurus (Holstein-Friesian)] (p <= 0.001). These include genes encoding enzymes involved in primary metabolism, and genes related to stress, defence, cell wall modification, cellular signaling, receptor, and cuticle formation. Microarrays were validated by qRT-PCR analysis of selected transcripts using three housekeeping genes as normalization controls. Conclusion: The analysis of all tick stages under survey suggested a coordinated regulation of defence proteins, proteases and protease inhibitors to achieve successful attachment and survival of R. microplus on different host breeds, particularly Bos indicus cattle. R. microplus ticks demonstrate different transcript expression patterns when they encounter tick resistant and susceptible breeds of cattle. In this study we provide the first transcriptome evidence demonstrating the influence of tick resistant and susceptible cattle breeds on transcript expression patterns and the molecular physiology of ticks during host attachment and feeding.

Published
2010

39. Comparative microarray analysis of Rhipicephalus (Boophilus) microplus expression profiles of larvae pre-attachment and feeding adult female stages on Bos indicus and Bos taurus cattle

Author

Rodriguez-Valle, M, Lew-Tabor, A, Gondro, C, Moolhuijzen, P, Vance, M, Guerrero, FD, Bellgard, M, Jorgensen, W, Rodriguez-Valle, M, Lew-Tabor, A, Gondro, C, Moolhuijzen, P, Vance, M, Guerrero, FD, Bellgard, M, and Jorgensen, W

Abstract

BACKGROUND: Rhipicephalus (Boophilus) microplus is an obligate blood feeder which is host specific to cattle. Existing knowledge pertaining to the host or host breed effects on tick transcript expression profiles during the tick - host interaction is poor. RESULTS: Global analysis of gene expression changes in whole R. microplus ticks during larval, pre-attachment and early adult stages feeding on Bos indicus and Bos taurus cattle were compared using gene expression microarray analysis. Among the 13,601 R. microplus transcripts from BmiGI Version 2 we identified 297 high and 17 low expressed transcripts that were significantly differentially expressed between R. microplus feeding on tick resistant cattle [Bos indicus (Brahman)] compared to R. microplus feeding on tick susceptible cattle [Bos taurus (Holstein-Friesian)] (p

Published
2010

40. Evidence of a tick RNAi pathway by comparative genomics and reverse genetics screen of targets with known loss-of-function phenotypes in Drosophila

Author

Kurscheid, S., Lew-Tabor, A.E., Rodriguez Valle, M., Bruyeres, A.G., Doogan, V.J, Munderloh, U.G., Guerrero, F.D., Barrero, R.A., Bellgard, M.I., Kurscheid, S., Lew-Tabor, A.E., Rodriguez Valle, M., Bruyeres, A.G., Doogan, V.J, Munderloh, U.G., Guerrero, F.D., Barrero, R.A., and Bellgard, M.I.

Abstract

Background The Arthropods are a diverse group of organisms including Chelicerata (ticks, mites, spiders), Crustacea (crabs, shrimps), and Insecta (flies, mosquitoes, beetles, silkworm). The cattle tick, Rhipicephalus (Boophilus) microplus, is an economically significant ectoparasite of cattle affecting cattle industries world wide. With the availability of sequence reads from the first Chelicerate genome project (the Ixodes scapularis tick) and extensive R. microplus ESTs, we investigated evidence for putative RNAi proteins and studied RNA interference in tick cell cultures and adult female ticks targeting Drosophila homologues with known cell viability phenotype. Results We screened 13,643 R. microplus ESTs and I. scapularis genome reads to identify RNAi related proteins in ticks. Our analysis identified 31 RNAi proteins including a putative tick Dicer, RISC associated (Ago-2 and FMRp), RNA dependent RNA polymerase (EGO-1) and 23 homologues implicated in dsRNA uptake and processing. We selected 10 R. microplus ESTs with >80% similarity to D. melanogaster proteins associated with cell viability for RNAi functional screens in both BME26 R. microplus embryonic cells and female ticks in vivo. Only genes associated with proteasomes had an effect on cell viability in vitro. In vivo RNAi showed that 9 genes had significant effects either causing lethality or impairing egg laying. Conclusion We have identified key RNAi-related proteins in ticks and along with our loss-of-function studies support a functional RNAi pathway in R. microplus. Our preliminary studies indicate that tick RNAi pathways may differ from that of other Arthropods such as insects.

Published
2009

43. Putative RNA interference pathway in ticks

Author

Kurscheid, S., Rodriguez-Valle, M., Zhang, B., Bruyeres, A., Minchin, C., Barrero, R., Guerrero, F., Bellgard, M., Lew, A., Kurscheid, S., Rodriguez-Valle, M., Zhang, B., Bruyeres, A., Minchin, C., Barrero, R., Guerrero, F., Bellgard, M., and Lew, A.

Abstract

See Attached

Published
2008

44. Serine proteinase inhibitor families in Rhipicephalus microplus

Author

Kurscheid, S., Rodriguez-Valle, M., Guerrero, F., Lew, A., Bellgard, M., Kurscheid, S., Rodriguez-Valle, M., Guerrero, F., Lew, A., and Bellgard, M.

Abstract

The search for Rhipicephalus (Boophilus) microplus (cattle tick) vaccine candidates is a high research priority in Australia. Serine proteinase inhibitors (serpins) are implicated as potential vaccine candidates due to their ability to interfere with host homeostasis as a potent anti-coagulant. Serpins have been identified in Amblyomma, Ixodes, Haemaphysalis and Rhipicephalus spp., with 6 previously identified in R. microplus. The BmiGI2 R. microplus EST database of 13,643 consensus sequences and singletons was mined using Pfam domain Pf00079 (Serpin) to identify putative transcripts. Relative expression of the serpins was determined using RNA from different tick issues (gut, ovaries, salivary glands) and different developmental stages (larvae, nymph, adult male and female) in two step SYBR Green quantitative real time PCR assays. Thirty-five R. microplus serpin transcripts were identified through in silico and transcriptome analyses. These 35 clustered into 9 groups according to their similarity to known serine protease inhibitors from other tick species. Oligonucleotide primers were designed for one transcript representing each of the 9 groups. We demonstrate the up-regulation of different serpins in feeding adult ticks and larval stages based on quantitative real time PCR analysis. This is the first comprehensive study of R. microplus serine proteinase inhibitor family of proteins. We have identified 9 clusters of R. microplus serpins which is consistent with studies undertaken in other tick species. Congruent with the tick serpin nomenclature used to date, we suggest that the R. microplus serpins be named Catspins (Cattle tick serpin) in order to differentiate from host and mammalian serpins. The usefulness of serpins as vaccine candidates for R. microplus warrants further investigation.

Published
2008

45. In silico prediction of tick vaccine candidates

Author

Kurscheid, S., Rodriguez-Valle, M., Moolhuijzen, P.M., Barrero, R., Guerrero, F.D., Lew-Tabor, A.E., Bellgard, M.I., Kurscheid, S., Rodriguez-Valle, M., Moolhuijzen, P.M., Barrero, R., Guerrero, F.D., Lew-Tabor, A.E., and Bellgard, M.I.

Abstract

The control of Rhipicephalus (Boophilus) microplus infestations and costs incurred through productions losses amount to $175m per annum for the Australian beef industry and an estimated US$2.5 billion dollars worldwide. A new vaccine for the prevention and control of infestations has been identified as a high research priority. Here we present results of our reverse vaccinology approach that has been used to identify potential vaccine candidates through a combination of an in silico analysis and gene expression studies by quantitative real-time PCR (qPCR).

Published
2008

46. Reverse vaccinology approach to identify Rhipicephalus (Boophilus) microplus tick vaccine candidates

Author

Lew-Tabor, A.E., Jackson, L.A., Rodriguez-Valle, M., Kurscheid, S., Moolhuijzen, P.M., Jones, M.E., Piper, E.K., Constantinoiu, C., Jorgensen, W.K., Jonsson, N.N., Bellgard, M.I., Guerrero, F.D., Lew-Tabor, A.E., Jackson, L.A., Rodriguez-Valle, M., Kurscheid, S., Moolhuijzen, P.M., Jones, M.E., Piper, E.K., Constantinoiu, C., Jorgensen, W.K., Jonsson, N.N., Bellgard, M.I., and Guerrero, F.D.

Abstract

Of 899 tick species [subclass Acari, order Parasitiformes], approximately 50 are significant medical and veterinary ectoparasites. Rhipicephalus microplus [cattle tick, family Ixodidae] infestations impacts cattle production costing $US2.5bn world-wide. Capitalising on an EST database (BmiGI), novel ESTs from suppressive subtractive hybridizations, Ixodes scapularis genome and bioinformatics, we are applying a reverse vaccinology approach and have identified 208 putative tick vaccine candidates. Predicted proteins include lipocalins, proteases, protease inhibitors, lipoprotein receptors, extracellular matrix, membrane, cuticle enzymes, chitin binding and 146 proteins of unknown function. In parallel, we have undertaken an extensive immune and gene expression analysis of cattle with differential responses to ticks, and have developed novel in vitro candidate screening tools. Epitope screening, functional analysis and the ability to direct protective immune responses will further refine the candidates for in vivo screening.

Published
2008

47. Transcriptome analysis of Rhipicephalus (Boophilus) microplus

Author

Rodriguez-Valle, M., Lew-Tabor, A., Gondro, C., Kurscheid, S., Jarrett, S., Minchin, C., Moolhuijzen, P., Bellgard, M., Guerrero, F., Rodriguez-Valle, M., Lew-Tabor, A., Gondro, C., Kurscheid, S., Jarrett, S., Minchin, C., Moolhuijzen, P., Bellgard, M., and Guerrero, F.

Abstract

Ticks, as blood-feeding ectoparasites, affect their hosts both directly and as vectors of viral, bacterial and protozoal diseases. The tick’s mode of feeding means it must maintain intimate contact with the host in the face of host defensive responses for a prolonged time. The parasite:host interactions are characterized by the host response and parasite counter-response which result in a highly complex biological system that is barely understood. We conducted trancriptomic analyses utilizing both suppressive subtractive hybridization (SSH) and the Nimblegen R. microplus tick array to identify transcripts associated with host attachment and feeding on both naturally susceptible and immune breeds of cattle (Holstein-Friesian and Brahman). Five SSH libraries were established from differentially expressed transcripts isolated from unattached frustrated larvae, feeding larvae, unattached frustrated female ticks, feeding female ticks and male ticks (590 clones). Unattached frustrated ticks are those held in fabric bags affixed to cattle for up to 24 hours – thus ‘frustrated’. Approximately half of the clones were unique R. microplus transcripts or predicted proteins of unknown function. Feeding stages demonstrated an abundance of transcripts associated with ribosomal protein production and increased metabolic function. Host modifying proteases were differentially expressed by frustrated larvae and frustrated female ticks as well as males. Microarray expression analysis was conducted on unfed/unattached larvae, frustrated larvae and adult females from both Brahman and Holstein-Friesian cattle. Preliminary microarray results show that 226 genes are up and 9 down regulated by ticks on Brahman in comparison to ticks on Holstein (based on ≥3 standard deviation). Of the up-regulated transcripts, approximately 100 were unique and a further 50 similar to hypothetical proteins of unknown function. Transcripts with <1e-5 significance included putative retroviral proteins, kinases

Published
2008

49. Immunomic Investigation of Holocyclotoxins to Produce the First Protective Anti-Venom Vaccine Against the Australian Paralysis Tick, Ixodes holocyclus .

Author

Rodriguez-Valle M, McAlister S, Moolhuijzen PM, Booth M, Agnew K, Ellenberger C, Knowles AG, Vanhoff K, Bellgard MI, and Tabor AE

Subjects
Animals, Dogs, Tick Paralysis prevention & control, Antivenins pharmacology, Arthropod Venoms immunology, Ixodes, Tick Paralysis veterinary, Vaccines pharmacology
Abstract

Venom producing animals are ubiquitously disseminated among vertebrates and invertebrates such as fish, snakes, scorpions, spiders, and ticks. Of the ~890 tick species worldwide, 27 have been confirmed to cause paralysis in mammalian hosts. The Australian paralysis tick ( Ixodes holocyclus ) is the most potent paralyzing tick species known. It is an indigenous three host tick species that secretes potent neurotoxins known as holocyclotoxins (HTs). Holocyclotoxins cause a severe and harmful toxicosis leading to a rapid flaccid paralysis which can result in death of susceptible hosts such as dogs. Antivenins are generally polyclonal antibody treatments developed in sheep, horses or camels to administer following bites from venomous creatures. Currently, the methods to prevent or treat tick paralysis relies upon chemical acaricide preventative treatments or prompt removal of all ticks attached to the host followed by the administration of a commercial tick-antiserum (TAS) respectively. However, these methods have several drawbacks such as poor efficacies, non-standardized dosages, adverse effects and are expensive to administer. Recently the I. holocyclus tick transcriptome from salivary glands and viscera reported a large family of 19 holocyclotoxins at 38-99% peptide sequence identities. A pilot trial demonstrated that correct folding of holocyclotoxins is needed to induce protection from paralysis. The immunogenicity of the holocyclotoxins were measured using commercial tick antiserum selecting HT2, HT4, HT8 and HT11 for inclusion into the novel cocktail vaccine. A further 4 HTs (HT1, HT12, HT14 and HT17) were added to the cocktail vaccine to ensure that the sequence variation among the HT protein family was encompassed in the formulation. A second trial comparing the cocktail of 8 HTs to a placebo group demonstrated complete protection from tick challenge. Here we report the first successful anti-venom vaccine protecting dogs from tick paralysis., Competing Interests: Author KA was employed by company Paul Dick & Associates Ltd. Author AGK was employed by company Virbac Australia Pty Ltd. Authors CE and KV were employed by Elanco Animal Health. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Rodriguez-Valle, McAlister, Moolhuijzen, Booth, Agnew, Ellenberger, Knowles, Vanhoff, Bellgard and Tabor.)

Published
2021
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50. Antibacterial and antifungal activity of defensins from the Australian paralysis tick, Ixodes holocyclus.

Author

Cabezas-Cruz A, Tonk M, Bleackley MR, Valdés JJ, Barrero RA, Hernández-Jarguín A, Moutailler S, Vilcinskas A, Richard-Forget F, Anderson MA, and Rodriguez-Valle M

Subjects
Amino Acid Sequence, Animals, Anti-Bacterial Agents chemistry, Antifungal Agents chemistry, Arthropod Proteins chemistry, Arthropod Proteins genetics, Arthropod Proteins immunology, Australia, Candida albicans drug effects, Defensins chemistry, Fusarium drug effects, Gram-Negative Bacteria drug effects, Gram-Positive Bacteria drug effects, Phylogeny, Sequence Alignment, Transcriptome, Anti-Bacterial Agents pharmacology, Antifungal Agents pharmacology, Defensins genetics, Defensins immunology, Ixodes genetics, Ixodes immunology
Abstract

Tick innate immunity involves humoral and cellular responses. Among the humoral effector molecules in ticks are the defensins which are a family of small peptides with a conserved γ-core motif that is crucial for their antimicrobial activity. Defensin families have been identified in several hard and soft tick species. However, little is known about the presence and antimicrobial activity of defensins from the Australian paralysis tick Ixodes holocyclus. In this study the I. holocyclus transcriptome was searched for the presence of defensins. Unique and non-redundant defensin sequences were identified and designated as holosins 1 - 5. The antimicrobial activity of holosins 2 and 3 and of the predicted γ-cores of holosins 1-4 (HoloTickCores 1-4), was assessed using Gram-negative and Gram-positive bacteria as well as the fungus Fusarium graminearum and the yeast Candida albicans. All holosins had molecular features that are conserved in other tick defensins. Furthermore holosins 2 and 3 were very active against the Gram-positive bacteria Staphylococcus aureus and Listeria grayi. Holosins 2 and 3 were also active against F. graminearum and C. albicans and 5 μM of peptide abrogate the growth of these microorganisms. The activity of the synthetic γ-cores was lower than that of the mature defensins apart from HoloTickCore 2 which had activity comparable to mature holosin 2 against the Gram-negative bacterium Escherichia coli. This study reveals the presence of a multigene defensin family in I. holocyclus with wide antimicrobial activity., (Copyright © 2019 Elsevier GmbH. All rights reserved.)

Published
2019
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