Your search keyword '"Hajdusek O"' showing total 35 results

1. Investigating BB0405 as a novel Borrelia afzelii vaccination candidate in Lyme borreliosis

Author

Klouwens, M. J., Trentelman, J. J., Ersoz, J. I., Nieves Marques Porto, F., Sima, R., Hajdusek, O., Thakur, M., Pal, U., and Hovius, J. W.

Published

2021

2. Profiling of proteolytic enzymes in the gut of the tick Ixodes ricinus reveals an evolutionarily conserved network of aspartic and cysteine peptidases

Author

Mareš Michael, Caffrey Conor R, Hajdušek Ondřej, Horn Martin, Franta Zdeněk, Sojka Daniel, and Kopáček Petr

Subjects

Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Ticks are vectors for a variety of viral, bacterial and parasitic diseases in human and domestic animals. To survive and reproduce ticks feed on host blood, yet our understanding of the intestinal proteolytic machinery used to derive absorbable nutrients from the blood meal is poor. Intestinal digestive processes are limiting factors for pathogen transmission since the tick gut presents the primary site of infection. Moreover, digestive enzymes may find practical application as anti-tick vaccine targets. Results Using the hard tick, Ixodes ricinus, we performed a functional activity scan of the peptidase complement in gut tissue extracts that demonstrated the presence of five types of peptidases of the cysteine and aspartic classes. We followed up with genetic screens of gut-derived cDNA to identify and clone genes encoding the cysteine peptidases cathepsins B, L and C, an asparaginyl endopeptidase (legumain), and the aspartic peptidase, cathepsin D. By RT-PCR, expression of asparaginyl endopeptidase and cathepsins B and D was restricted to gut tissue and to those developmental stages feeding on blood. Conclusion Overall, our results demonstrate the presence of a network of cysteine and aspartic peptidases that conceivably operates to digest host blood proteins in a concerted manner. Significantly, the peptidase components of this digestive network are orthologous to those described in other parasites, including nematodes and flatworms. Accordingly, the present data and those available for other tick species support the notion of an evolutionary conservation of a cysteine/aspartic peptidase system for digestion that includes ticks, but differs from that of insects relying on serine peptidases.

Published

2008

3. Activation of the tick Toll pathway to control infection of Ixodes ricinus by the apicomplexan parasite Babesia microti.

Author

Jalovecka M, Malandrin L, Urbanova V, Mahmood S, Snebergerova P, Peklanska M, Pavlasova V, Sima R, Kopacek P, Perner J, and Hajdusek O

Subjects

Animals, Immunity, Innate, Babesiosis immunology, Babesiosis parasitology, Ixodes parasitology, Ixodes immunology, Toll-Like Receptors metabolism, Toll-Like Receptors immunology, Signal Transduction, Babesia microti immunology

Abstract

The vector competence of blood-feeding arthropods is influenced by the interaction between pathogens and the immune system of the vector. The Toll and IMD (immune deficiency) signaling pathways play a key role in the regulation of innate immunity in both the Drosophila model and blood-feeding insects. However, in ticks (chelicerates), immune determination for pathogen acquisition and transmission has not yet been fully explored. Here, we have mapped homologs of insect Toll and IMD pathways in the European tick Ixodes ricinus, an important vector of human and animal diseases. We show that most genes of the Toll pathway are well conserved, whereas the IMD pathway has been greatly reduced. We therefore investigated the functions of the individual components of the tick Toll pathway and found that, unlike in Drosophila, it was specifically activated by Gram-negative bacteria. The activation of pathway induced the expression of defensin (defIR), the first identified downstream effector gene of the tick Toll pathway. Borrelia, an atypical bacterium and causative agent of Lyme borreliosis, bypassed Toll-mediated recognition in I. ricinus and also resisted systemic effector molecules when the Toll pathway was activated by silencing its repressor cactus via RNA interference. Babesia, an apicomplexan parasite, also avoided Toll-mediated recognition. Strikingly, unlike Borrelia, the number of Babesia parasites reaching the salivary glands during tick infection was significantly reduced by knocking down cactus. The simultaneous silencing of cactus and dorsal resulted in greater infections and underscored the importance of tick immunity in regulating parasite infections in these important disease vectors., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Jalovecka et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

4. VLA15, a new global Lyme disease vaccine undergoes clinical trials.

Author

Hajdusek O and Perner J

Subjects

Humans, Bacterial Vaccines, Bacterial Outer Membrane Proteins, Lyme Disease Vaccines therapeutic use, Lyme Disease prevention & control, Lyme Disease drug therapy

Abstract

Competing Interests: We declare no competing interests.

Published

2023

5. Experimental platforms for functional genomics in ticks.

Author

Hajdusek O, Kopacek P, and Perner J

Subjects

Animals, Humans, Cattle, Genomics, Ticks, Tick-Borne Diseases, Vaccines, Cattle Diseases

Abstract

Ticks are blood-feeding ectoparasites that devastate cattle farming and are an omnipresent nuisance to pets and humans, posing a threat of pathogen transmission. Laboratory experimental models can be instrumental in the search for molecular targets of novel acaricides or vaccines. Mainly, though, the experimental models represent invaluable tools for broadening our basic understanding of key processes of tick blood-feeding physiology and vector competence. In order to understand the function of a single component within the full complexity of a feeding tick, genetic or biochemical interventions are used for systemic phenotypisation. In this work, we summarise current experimental modalities that represent powerful approaches for determining biological functions of tick molecular components., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could influence the work reported in this paper., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

6. Dual SIFamide receptors in Ixodes salivary glands.

Author

Guerrib F, Ning C, Mateos-Hernandéz L, Rakotobe S, Park Y, Hajdusek O, Perner J, Vancová M, Valdés JJ, and Šimo L

Subjects

Female, Animals, Salivary Glands metabolism, Neurons metabolism, Saliva, Ixodes genetics, Ixodes metabolism, Neuropeptides genetics, Neuropeptides metabolism

Abstract

Salivary glands are vital to tick feeding success and also play a crucial role in tick-borne pathogen transmission. In previous studies of Ixodes scapularis salivary glands, we demonstrated that saliva-producing type II and III acini are innervated by neuropeptidergic axons which release different classes of neuropeptides via their terminals (Šimo et al., 2009b, 2013). Among these, the neuropeptide SIFamide-along with its cognate receptor-were postulated to control the basally located acinar valve via basal epithelial and myoepithelial cells (Vancová et al., 2019). Here, we functionally characterized a second SIFamide receptor (SIFa_R2) from the I. scapularis genome and proved that it senses a low nanomolar level of its corresponding ligand. Insect SIFamide paralogs, SMYamides, also activated the receptor but less effectively compared to SIFamide. Bioinformatic and molecular dynamic analyses suggested that I. scapularis SIFamide receptors are class A GPCRs where the peptide amidated carboxy-terminus is oriented within the receptor binding cavity. The receptor was found to be expressed in Ixodes ricinus salivary glands, synganglia, midguts, trachea, and ovaries, but not in Malpighian tubules. Investigation of the temporal expression patterns suggests that the receptor transcript is highly expressed in unfed I. ricinus female salivary glands and then decreases during feeding. In synganglia, a significant transcript increase was detected in replete ticks. In salivary gland acini, an antibody targeting the SIFa_R2 recognized basal epithelial cells, myoepithelial cells, and basal granular cells in close proximity to the SIFamide-releasing axon terminals. Immunoreactivity was also detected in specific neurons distributed throughout various I. ricinus synganglion locations. The current findings, alongside previous reports from our group, indicate that the neuropeptide SIFamide acts via two different receptors that regulate distinct or common cell types in the basal region of type II and III acini in I. ricinus salivary glands. Our study investigates the peptidergic regulation of the I. ricinus salivary gland in detail, emphasizing the complexity of this system., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2023

7. Identification of novel conserved Ixodes vaccine candidates; a promising role for non-secreted salivary gland proteins.

Author

Trentelman JJA, de Vogel FA, Colstrup E, Sima R, Coumou J, Koetsveld J, Klouwens MJ, Nayak A, Ersoz J, Barriales D, Tomás-Cortázar J, Narasimhan S, Hajdusek O, Anguita J, and Hovius JW

Subjects

Animals, Guinea Pigs, Humans, Rabbits, Salivary Glands, Salivary Proteins and Peptides genetics, Salivary Proteins and Peptides metabolism, Ixodes, Lyme Disease prevention & control, Vaccines

Abstract

Ixodes ricinus and Ixodes scapularis are the main vectors for the causative agents of Lyme borreliosis and a wide range of other pathogens. Repeated tick-bites are known to lead to tick rejection; a phenomenon designated as tick immunity. Tick immunity is mainly directed against tick salivary gland proteins (TSGPs) and has been shown to partially protect against experimental Lyme borreliosis. TSGPs recognized by antibodies from tick immune animals could therefore be interesting candidates for an anti-tick vaccine, which might also block pathogen transmission. To identify conserved Ixodes TSGPs that could serve as a universal anti-tick vaccine in both Europe and the US, a Yeast Surface Display containing salivary gland genes of nymphal I. ricinus expressed at 24, 48 and 72 h into tick feeding was probed with either sera from rabbits repeatedly exposed for 24 h to I. ricinus nymphal ticks and/or sera from rabbits immune to I. scapularis. Thus, we identified thirteen TSGP vaccine candidates, of which ten were secreted. For vaccination studies in rabbits, we selected six secreted TSGPs, five full length and one conserved peptide. None of these proteins hampered tick feeding. In contrast, vaccination of guinea pigs with four non-secreted TSGPs - two from the current and two from a previous human immunoscreening - did significantly reduce tick attachment and feeding. Therefore, non-secreted TSGPs appear to be involved in the development of tick immunity and are interesting candidates for an anti-tick vaccine., Competing Interests: Declaration of Competing Interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: JT was employed by the Amsterdam UMC at time of the research, JT is currently employed at GSK., (Copyright © 2022 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2022

8. Independent somatic distribution of heme and iron in ticks.

Author

Perner J, Hajdusek O, and Kopacek P

Subjects

Animals, Heme metabolism, Homeostasis, Iron metabolism, Mammals, Mites, Ticks

Abstract

Ticks are blood-feeding ectoparasites with distinct genomic reductions, inevitably linking them to a parasitic lifestyle. Ticks have lost the genomic coding and, thus, biochemical capacity to synthesize heme, an essential metabolic cofactor, de novo. Instead, they are equipped with acquisition and distribution pathways for reuse of host heme. Unlike insects or mammals, ticks and mites cannot cleave the porphyrin ring of heme to release iron. Bioavailable iron is thus acquired by ticks from the host serum transferrin. Somatic trafficking of iron, however, is independent of heme and is mediated by a secretory type of ferritin. Heme and iron systemic homeostasis in ticks represents, therefore, key adaptive traits enabling successful feeding and reproduction., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2022

9. Probing an Ixodes ricinus salivary gland yeast surface display with tick-exposed human sera to identify novel candidates for an anti-tick vaccine.

Author

Trentelman JJA, Tomás-Cortázar J, Knorr S, Barriales D, Hajdusek O, Sima R, Ersoz JI, Narasimhan S, Fikrig E, Nijhof AM, Anguita J, and Hovius JW

Subjects

Animals, Antigens blood, Antigens immunology, Borrelia burgdorferi isolation & purification, Cattle, Cell Surface Display Techniques methods, Female, Humans, Immunization, Lyme Disease blood, Lyme Disease parasitology, Male, Peptide Fragments immunology, Peptide Library, Rabbits, Saccharomyces cerevisiae, Tick Infestations parasitology, Antigens isolation & purification, Ixodes immunology, Lyme Disease transmission, Salivary Glands immunology, Salivary Proteins and Peptides immunology, Tick Bites immunology, Tick Infestations immunology

Abstract

In Europe, Ixodes ricinus is the most important vector of human infectious diseases, most notably Lyme borreliosis and tick-borne encephalitis virus. Multiple non-natural hosts of I. ricinus have shown to develop immunity after repeated tick bites. Tick immunity has also been shown to impair B. burgdorferi transmission. Most interestingly, multiple tick bites reduced the likelihood of contracting Lyme borreliosis in humans. A vaccine that mimics tick immunity could therefore potentially prevent Lyme borreliosis in humans. A yeast surface display library (YSD) of nymphal I. ricinus salivary gland genes expressed at 24, 48 and 72 h into tick feeding was constructed and probed with antibodies from humans repeatedly bitten by ticks, identifying twelve immunoreactive tick salivary gland proteins (TSGPs). From these, three proteins were selected for vaccination studies. An exploratory vaccination study in cattle showed an anti-tick effect when all three antigens were combined. However, immunization of rabbits did not provide equivalent levels of protection. Our results show that YSD is a powerful tool to identify immunodominant antigens in humans exposed to tick bites, yet vaccination with the three selected TSGPs did not provide protection in the present form. Future efforts will focus on exploring the biological functions of these proteins, consider alternative systems for recombinant protein generation and vaccination platforms and assess the potential of the other identified immunogenic TSGPs., (© 2021. The Author(s).)

Published

2021

10. Identification of Tick Ixodes ricinus Midgut Genes Differentially Expressed During the Transmission of Borrelia afzelii Spirochetes Using a Transcriptomic Approach.

Author

Mahmood S, Sima R, Urbanova V, Trentelman JJA, Krezdorn N, Winter P, Kopacek P, Hovius JW, and Hajdusek O

Subjects

Animals, Female, Lyme Disease transmission, Mice, Mice, Inbred C3H, Nymph microbiology, Borrelia burgdorferi Group genetics, Digestive System microbiology, Ixodes genetics, Lyme Disease microbiology, Ticks genetics, Ticks microbiology, Transcriptome genetics

Abstract

Lyme borreliosis is an emerging tick-borne disease caused by spirochetes Borrelia burgdorferi sensu lato. In Europe, Lyme borreliosis is predominantly caused by Borrelia afzelii and transmitted by Ixodes ricinus . Although Borrelia behavior throughout tick development is quite well documented, specific molecular interactions between Borrelia and the tick have not been satisfactorily examined. Here, we present the first transcriptomic study focused on the expression of tick midgut genes regulated by  Borrelia . By using massive analysis of cDNA ends (MACE), we searched for tick transcripts expressed differentially in the midgut of unfed, 24h-fed, and fully fed I. ricinus nymphs infected with B. afzelii . In total, we identified 553 upregulated and 530 downregulated tick genes and demonstrated that B. afzelii interacts intensively with the tick. Technical and biological validations confirmed the accuracy of the transcriptome. The expression of five validated tick genes was silenced by RNA interference. Silencing of the uncharacterized protein (GXP_Contig_30818) delayed the infection progress and decreased infection prevalence in the target mice tissues. Silencing of other genes did not significantly affect tick feeding nor the transmission of B. afzelii , suggesting a possible role of these genes rather in Borrelia acquisition or persistence in ticks. Identification of genes and proteins exploited by Borrelia during transmission and establishment in a tick could help the development of novel preventive strategies for Lyme borreliosis., Competing Interests: NK and PW were employed by GenXPro GmbH. 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 Mahmood, Sima, Urbanova, Trentelman, Krezdorn, Winter, Kopacek, Hovius and Hajdusek.)

Published

2021

11. A combined transcriptomic approach to identify candidates for an anti-tick vaccine blocking B. afzelii transmission.

Author

Trentelman JJA, Sima R, Krezdorn N, Tomás-Cortázar J, Barriales D, Takumi K, Butler JM, Sprong H, Klouwens MJ, Urbanova V, Mahmood S, Winter P, Kopacek P, Anguita J, Hajdusek O, and Hovius JW

Subjects

Animals, Borrelia burgdorferi Group drug effects, Female, Ixodes drug effects, Lyme Disease microbiology, Lyme Disease prevention & control, Lyme Disease transmission, Mice, Tick Infestations microbiology, Tick Infestations prevention & control, Tick Infestations transmission, Arachnid Vectors microbiology, Arthropod Proteins genetics, Bacterial Vaccines administration & dosage, Lyme Disease genetics, Salivary Glands microbiology, Tick Infestations genetics, Transcriptome

Abstract

Ixodes ricinus is the vector for Borrelia afzelii, the predominant cause of Lyme borreliosis in Europe, whereas Ixodes scapularis is the vector for Borrelia burgdorferi in the USA. Transcription of several I. scapularis genes changes in the presence of B. burgdorferi and contributes to successful infection. To what extend B. afzelii influences gene expression in I. ricinus salivary glands is largely unknown. Therefore, we measured expression of uninfected vs. infected tick salivary gland genes during tick feeding using Massive Analysis of cDNA Ends (MACE) and RNAseq, quantifying 26.179 unique transcripts. While tick feeding was the main differentiator, B. afzelii infection significantly affected expression of hundreds of transcripts, including 465 transcripts after 24 h of tick feeding. Validation of the top-20 B. afzelii-upregulated transcripts at 24 h of tick feeding in ten biological genetic distinct replicates showed that expression varied extensively. Three transcripts could be validated, a basic tail protein, a lipocalin and an ixodegrin, and might be involved in B. afzelii transmission. However, vaccination with recombinant forms of these proteins only marginally altered B. afzelii infection in I. ricinus-challenged mice for one of the proteins. Collectively, our data show that identification of tick salivary genes upregulated in the presence of pathogens could serve to identify potential pathogen-blocking vaccine candidates.

Published

2020

12. Cholinergic axons regulate type I acini in salivary glands of Ixodes ricinus and Ixodes scapularis ticks.

Author

Mateos-Hernandéz L, Defaye B, Vancová M, Hajdusek O, Sima R, Park Y, Attoui H, and Šimo L

Subjects

Acinar Cells physiology, Animals, Axons metabolism, Central Nervous System metabolism, Choline O-Acetyltransferase genetics, Choline O-Acetyltransferase metabolism, Cholinergic Agents metabolism, Cholinergic Neurons physiology, Neurons metabolism, RNA, Messenger metabolism, Salivary Glands metabolism, Salivary Glands physiology, Signal Transduction genetics, Vesicular Acetylcholine Transport Proteins genetics, Vesicular Acetylcholine Transport Proteins metabolism, Acinar Cells metabolism, Cholinergic Neurons metabolism, Ixodes metabolism

Abstract

Regulatory factors controlling tick salivary glands (SGs) are direct upstream neural signaling pathways arising from the tick's central nervous system. Here we investigated the cholinergic signaling pathway in the SG of two hard tick species. We reconstructed the organization of the cholinergic gene locus, and then used in situ hybridization to localize mRNA encoding choline acetyltransferase (ChAT) and vesicular acetylcholine transporter (VAChT) in specific neural cells in the Ixodes synganglion. Immunohistochemical staining revealed that cholinergic axonal projections exclusively reached type I acini in the SG of both Ixodes species. In type I acini, the rich network of cholinergic axons terminate within the basolateral infoldings of the lamellate cells. We also characterized two types (A and B) of muscarinic acetylcholine receptors (mAChRs), which were expressed in Ixodes SG. We pharmacologically assessed mAChR-A to monitor intracellular calcium mobilization upon receptor activation. In vivo injection of vesamicol-a VAChT blocker-at the cholinergic synapse, suppressed forced water uptake by desiccated ticks, while injection of atropine, an mAChR-A antagonist, did not show any effect on water volume uptake. This study has uncovered a novel neurotransmitter signaling pathway in Ixodes SG, and suggests its role in water uptake by type I acini in desiccated ticks.

Published

2020

13. Design of a broadly reactive Lyme disease vaccine.

Author

Kamp HD, Swanson KA, Wei RR, Dhal PK, Dharanipragada R, Kern A, Sharma B, Sima R, Hajdusek O, Hu LT, Wei CJ, and Nabel GJ

Abstract

A growing global health concern, Lyme disease has become the most common tick-borne disease in the United States and Europe. Caused by the bacterial spirochete Borrelia burgdorferi sensu lato (sl), this disease can be debilitating if not treated promptly. Because diagnosis is challenging, prevention remains a priority; however, a previously licensed vaccine is no longer available to the public. Here, we designed a six component vaccine that elicits antibody (Ab) responses against all Borrelia strains that commonly cause Lyme disease in humans. The outer surface protein A (OspA) of Borrelia was fused to a bacterial ferritin to generate self-assembling nanoparticles. OspA-ferritin nanoparticles elicited durable high titer Ab responses to the seven major serotypes in mice and non-human primates at titers higher than a previously licensed vaccine. This response was durable in rhesus macaques for more than 6 months. Vaccination with adjuvanted OspA-ferritin nanoparticles stimulated protective immunity from both B. burgdorferi and B. afzelii infection in a tick-fed murine challenge model. This multivalent Lyme vaccine offers the potential to limit the spread of Lyme disease., Competing Interests: Competing interestsAt the time the work described in this manuscript was performed, H.D.K., R.W., K.S., P.D., R.D., C.J.W., and G.J.N. all worked for Sanofi., (© The Author(s) 2020.)

Published

2020

14. Tracking of Borrelia afzelii Transmission from Infected Ixodes ricinus Nymphs to Mice.

Author

Pospisilova T, Urbanova V, Hes O, Kopacek P, Hajdusek O, and Sima R

Subjects

Animals, Arachnid Vectors physiology, Female, Humans, Ixodes physiology, Lyme Disease microbiology, Mice, Mice, Inbred C3H, Nymph microbiology, Arachnid Vectors microbiology, Borrelia burgdorferi Group physiology, Ixodes microbiology, Lyme Disease transmission

Abstract

Quantitative and microscopic tracking of Borrelia afzelii transmission from infected Ixodes ricinus nymphs has shown a transmission cycle different from that of Borrelia burgdorferi and Ixodes scapularis Borrelia afzelii organisms are abundant in the guts of unfed I. ricinus nymphs, and their numbers continuously decrease during feeding. Borrelia afzelii spirochetes are present in murine skin within 1 day of tick attachment. In contrast, spirochetes were not detectable in salivary glands at any stage of tick feeding. Further experiments demonstrated that tick saliva is not essential for B. afzelii infectivity, the most important requirement for successful host colonization being a change in expression of outer surface proteins that occurs in the tick gut during feeding. Spirochetes in vertebrate mode are then able to survive within the host even in the absence of tick saliva. Taken together, our data suggest that the tick gut is the decisive organ that determines the competence of I. ricinus to vector B. afzelii We discuss possible transmission mechanisms of B. afzelii spirochetes that should be further tested in order to design effective preventive and therapeutic strategies against Lyme disease., (Copyright © 2019 Pospisilova et al.)

Published

2019

15. Counterattacking the tick bite: towards a rational design of anti-tick vaccines targeting pathogen transmission.

Author

Rego ROM, Trentelman JJA, Anguita J, Nijhof AM, Sprong H, Klempa B, Hajdusek O, Tomás-Cortázar J, Azagi T, Strnad M, Knorr S, Sima R, Jalovecka M, Fumačová Havlíková S, Ličková M, Sláviková M, Kopacek P, Grubhoffer L, and Hovius JW

Subjects

Animals, Arthropod Proteins immunology, Borrelia, Disease Vectors, Encephalitis Viruses, Tick-Borne, Encephalitis, Tick-Borne prevention & control, Female, Humans, Ixodes microbiology, Ixodes virology, Lyme Disease prevention & control, Male, Saliva, Tick Bites prevention & control, Tick-Borne Diseases prevention & control, Tick-Borne Diseases transmission, Vaccines immunology

Abstract

Hematophagous arthropods are responsible for the transmission of a variety of pathogens that cause disease in humans and animals. Ticks of the Ixodes ricinus complex are vectors for some of the most frequently occurring human tick-borne diseases, particularly Lyme borreliosis and tick-borne encephalitis virus (TBEV). The search for vaccines against these diseases is ongoing. Efforts during the last few decades have primarily focused on understanding the biology of the transmitted viruses, bacteria and protozoans, with the goal of identifying targets for intervention. Successful vaccines have been developed against TBEV and Lyme borreliosis, although the latter is no longer available for humans. More recently, the focus of intervention has shifted back to where it was initially being studied which is the vector. State of the art technologies are being used for the identification of potential vaccine candidates for anti-tick vaccines that could be used either in humans or animals. The study of the interrelationship between ticks and the pathogens they transmit, including mechanisms of acquisition, persistence and transmission have come to the fore, as this knowledge may lead to the identification of critical elements of the pathogens' life-cycle that could be targeted by vaccines. Here, we review the status of our current knowledge on the triangular relationships between ticks, the pathogens they carry and the mammalian hosts, as well as methods that are being used to identify anti-tick vaccine candidates that can prevent the transmission of tick-borne pathogens.

Published

2019

16. Preliminary Evaluation of Tick Protein Extracts and Recombinant Ferritin 2 as Anti-tick Vaccines Targeting Ixodes ricinus in Cattle.

Author

Knorr S, Anguita J, Cortazar JT, Hajdusek O, Kopáček P, Trentelman JJ, Kershaw O, Hovius JW, and Nijhof AM

Abstract

Anti-tick vaccines have the potential to be an environmentally friendly and cost-effective option for tick control. In vaccine development, the identification of efficacious antigens forms the major bottleneck. In this study, the efficacy of immunization with recombinant ferritin 2 and native tick protein extracts (TPEs) against Ixodes ricinus infestations in calves was assessed in two immunization experiments. In the first experiment, each calf ( n = 3) was immunized twice with recombinant ferritin 2 from I. ricinus (IrFER2), TPE consisting of soluble proteins from the internal organs of partially fed I. ricinus females, or adjuvant, respectively. In the second experiment, each calf ( n = 4) was immunized with protein extracts from the midgut (ME) of partially fed females, the salivary glands (SGE) of partially fed females, a combination of ME and SGE, or adjuvant, respectively. Two weeks after the booster immunization, calves were challenged with 100 females and 200 nymphs. Blood was collected from the calves before the first and after the second immunization and fed to I. ricinus females and nymphs using an in vitro artificial tick feeding system. The two calves vaccinated with whole TPE and midgut extract (ME) showed hyperemia on tick bite sites 2 days post tick infestation and exudative blisters were observed in the ME-vaccinated animal, signs that were suggestive of a delayed type hypersensitivity (DTH) reaction. Significantly fewer ticks successfully fed on the three animals vaccinated with TPE, SGE, or ME. Adults fed on the TPE and ME vaccinated animals weighed significantly less. Tick feeding on the IrFER2 vaccinated calf was not impaired. The in vitro feeding of serum or fresh whole blood collected from the vaccinated animals did not significantly affect tick feeding success. Immunization with native I. ricinus TPEs thus conferred a strong immune response in calves and significantly reduced the feeding success of both nymphs and adults. In vitro feeding of serum or blood collected from vaccinated animals to ticks did not affect tick feeding, indicating that antibodies alone were not responsible for the observed vaccine immunity.

Published

2018

17. Validation of Babesia proteasome as a drug target.

Author

Jalovecka M, Hartmann D, Miyamoto Y, Eckmann L, Hajdusek O, O'Donoghue AJ, and Sojka D

Subjects

Animals, Babesia genetics, Babesia growth & development, Babesia microti genetics, Babesia microti growth & development, Babesiosis drug therapy, Boronic Acids pharmacology, Cell Line, Disease Models, Animal, Female, Macrophages drug effects, Macrophages parasitology, Mice, Oligopeptides pharmacology, Proteasome Endopeptidase Complex drug effects, Proteasome Inhibitors administration & dosage, Proteasome Inhibitors adverse effects, Proteome genetics, Babesia drug effects, Babesia microti drug effects, Drug Delivery Systems, Proteasome Inhibitors pharmacology, Proteasome Inhibitors therapeutic use, Proteome drug effects

Abstract

Babesiosis is a tick-transmitted zoonosis caused by apicomplexan parasites of the genus Babesia. Treatment of this emerging malaria-related disease has relied on antimalarial drugs and antibiotics. The proteasome of Plasmodium, the causative agent of malaria, has recently been validated as a target for anti-malarial drug development and therefore, in this study, we investigated the effect of epoxyketone (carfilzomib, ONX-0914 and epoxomicin) and boronic acid (bortezomib and ixazomib) proteasome inhibitors on the growth and survival of Babesia. Testing the compounds against Babesia divergens ex vivo revealed suppressive effects on parasite growth with activity that was higher than the cytotoxic effects on a non-transformed mouse macrophage cell line. Furthermore, we showed that the most-effective compound, carfilzomib, significantly reduces parasite multiplication in a Babesia microti infected mouse model without noticeable adverse effects. In addition, treatment with carfilzomib lead to an ex vivo and in vivo decrease in proteasome activity and accumulation of polyubiquitinated proteins compared to untreated control. Overall, our results demonstrate that the Babesia proteasome is a valid target for drug development and warrants the design of potent and selective B. divergens proteasome inhibitors for the treatment of babesiosis., (Copyright © 2018. Published by Elsevier Ltd.)

Published

2018

18. The Complexity of Piroplasms Life Cycles.

Author

Jalovecka M, Hajdusek O, Sojka D, Kopacek P, and Malandrin L

Subjects

Phylogeny, Piroplasmida classification, Piroplasmida genetics, Life Cycle Stages, Piroplasmida growth & development

Abstract

Although apicomplexan parasites of the group Piroplasmida represent commonly identified global risks to both animals and humans, detailed knowledge of their life cycles is surprisingly limited. Such a discrepancy results from incomplete literature reports, nomenclature disunity and recently, from large numbers of newly described species. This review intends to collate and summarize current knowledge with respect to piroplasm phylogeny. Moreover, it provides a comprehensive view of developmental events of Babesia, Theileria , and Cytauxzoon representative species, focusing on uniform consensus of three consecutive phases: (i) schizogony and merogony, asexual multiplication in blood cells of the vertebrate host; (ii) gamogony, sexual reproduction inside the tick midgut, later followed by invasion of kinetes into the tick internal tissues; and (iii) sporogony, asexual proliferation in tick salivary glands resulting in the formation of sporozoites. However, many fundamental differences in this general consensus occur and this review identifies variables that should be analyzed prior to further development of specific anti-piroplasm strategies, including the attractive targeting of life cycle stages of Babesia or Theileria tick vectors.

Published

2018

19. Characterization of Ixodes ricinus Fibrinogen-Related Proteins (Ixoderins) Discloses Their Function in the Tick Innate Immunity.

Author

Honig Mondekova H, Sima R, Urbanova V, Kovar V, Rego ROM, Grubhoffer L, Kopacek P, and Hajdusek O

Subjects

Animals, Arthropod Proteins genetics, Gene Silencing, Hemocytes immunology, Ixodes genetics, Lectins genetics, Phagocytosis, RNA Interference, Arthropod Proteins metabolism, Hemolymph immunology, Immunity, Innate, Ixodes immunology, Lectins metabolism

Abstract

Ticks are important vectors of serious human and animal disease-causing organisms, but their innate immunity can fight invading pathogens and may have the ability to reduce or block transmission to mammalian hosts. Lectins, sugar-binding proteins, can distinguish between self and non-self-oligosaccharide motifs on pathogen surfaces. Although tick hemolymph possesses strong lectin activity, and several lectins have already been isolated and characterized, little is known about the implementation of these molecules in tick immunity. Here, we have described and functionally characterized fibrinogen-related protein (FReP) lectins in Ixodes ticks. We have shown that the FReP family contains at least 27 genes ( ixoderins, ixo ) that could, based on phylogenetic and expression analyses, be divided into three groups with differing degrees of expansion. By using RNA interference-mediated gene silencing (RNAi) we demonstrated that IXO-A was the main lectin in tick hemolymph. Further, we found that ixoderins were important for phagocytosis of Gram-negative bacteria and yeasts by tick hemocytes and that their expression was upregulated upon injection of microbes, wounding, or after blood feeding. However, although the tick hemocytes could swiftly phagocytose Borrelia afzelii spirochetes, their transmission and burst of infection in mice was not altered. Our results demonstrate that tick ixoderins are crucial immune proteins that work as opsonins in the tick hemolymph, targeting microbes for phagocytosis or lysis.

Published

2017

20. Stimulation and quantification of Babesia divergens gametocytogenesis.

Author

Jalovecka M, Bonsergent C, Hajdusek O, Kopacek P, and Malandrin L

Subjects

Animals, Arachnid Vectors parasitology, Babesia genetics, Babesia growth & development, Cattle, Germ Cells metabolism, Protozoan Proteins genetics, Protozoan Proteins metabolism, Ticks parasitology, Babesia physiology, Babesiosis parasitology, Cattle Diseases parasitology, Gametogenesis, Germ Cells cytology

Abstract

Background: Babesia divergens is the most common blood parasite in Europe causing babesiosis, a tick-borne malaria-like disease. Despite an increasing focus on B. divergens, especially regarding veterinary and human medicine, the sexual development of Babesia is poorly understood. Development of Babesia sexual stages in the host blood (gametocytes) plays a decisive role in parasite acquisition by the tick vector. However, the exact mechanism of gametocytogenesis is still unexplained., Methods: Babesia divergens gametocytes are characterized by expression of bdccp1, bdccp2 and bdccp3 genes. Using previously described sequences of bdccp1, bdccp2 and bdccp3, we have established a quantitative real-time PCR (qRT-PCR) assay for detection and assessment of the efficiency of B. divergens gametocytes production in bovine blood. We analysed fluctuations in expression of bdccp genes during cultivation in vitro, as well as in cultures treated with different drugs and stimuli., Results: We demonstrated that all B. divergens clonal lines tested, originally derived from naturally infected cows, exhibited sexual stages. Furthermore, sexual commitment was stimulated during continuous growth of the cultures, by addition of specific stress-inducing drugs or by alternating cultivation conditions. Expression of bdccp genes was greatly reduced or even lost after long-term cultivation, suggesting possible problems in the artificial infections of ticks in feeding assays in vitro., Conclusions: Our research provides insight into sexual development of B. divergens and may facilitate the development of transmission models in vitro, enabling a more detailed understanding of Babesia-tick interactions.

Published

2016

21. Tick iron and heme metabolism - New target for an anti-tick intervention.

Author

Hajdusek O, Sima R, Perner J, Loosova G, Harcubova A, and Kopacek P

Subjects

Animals, Arthropod Proteins immunology, Europe, Female, Gene Expression Profiling, Gene Silencing, Guinea Pigs, Male, RNA Interference, Rabbits, Real-Time Polymerase Chain Reaction, Blood metabolism, Heme metabolism, Iron metabolism, Ixodes metabolism

Abstract

Ticks are blood-feeding parasites and vectors of serious human and animal diseases. Ixodes ricinus is a common tick in Europe, transmitting tick-borne encephalitis, Lyme borreliosis, anaplasmosis, or babesiosis. Immunization of hosts with recombinant tick proteins has, in theory, the potential to interfere with tick feeding and block transmission of pathogens from the tick to the host. However, the efficacy of tick antigens has, to date, not been fully sufficient to achieve this. We have focused on 11 in silico identified genes encoding proteins potentially involved in tick iron and heme metabolism. Quantitative real-time PCR (qRT-PCR) expression profiling was carried out to preferentially target proteins that are up-regulated during the blood meal. RNA interference (RNAi) was then used to score the relative importance of these genes in tick physiology. Finally, we performed vaccination screens to test the suitability of these proteins as vaccine candidates. These newly identified tick antigens have the potential to improve the available anti-tick vaccines., (Copyright © 2016 Elsevier GmbH. All rights reserved.)

Published

2016

22. Acquisition of exogenous haem is essential for tick reproduction.

Author

Perner J, Sobotka R, Sima R, Konvickova J, Sojka D, Oliveira PL, Hajdusek O, and Kopacek P

Subjects

Animals, Fertility, Reproduction, Ticks metabolism, Heme metabolism, Ticks physiology

Abstract

Haem and iron homeostasis in most eukaryotic cells is based on a balanced flux between haem biosynthesis and haem oxygenase-mediated degradation. Unlike most eukaryotes, ticks possess an incomplete haem biosynthetic pathway and, together with other (non-haematophagous) mites, lack a gene encoding haem oxygenase. We demonstrated, by membrane feeding, that ticks do not acquire bioavailable iron from haemoglobin-derived haem. However, ticks require dietary haemoglobin as an exogenous source of haem since, feeding with haemoglobin-depleted serum led to aborted embryogenesis. Supplementation of serum with haemoglobin fully restored egg fertility. Surprisingly, haemoglobin could be completely substituted by serum proteins for the provision of amino-acids in vitellogenesis. Acquired haem is distributed by haemolymph carrier protein(s) and sequestered by vitellins in the developing oocytes. This work extends, substantially, current knowledge of haem auxotrophy in ticks and underscores the importance of haem and iron metabolism as rational targets for anti-tick interventions.

Published

2016

23. Validate or falsify: Lessons learned from a microscopy method claimed to be useful for detecting Borrelia and Babesia organisms in human blood.

Author

Aase A, Hajdusek O, Øines Ø, Quarsten H, Wilhelmsson P, Herstad TK, Kjelland V, Sima R, Jalovecka M, Lindgren PE, and Aaberge IS

Subjects

Adolescent, Adult, Aged, Animals, Babesia genetics, Babesiosis diagnosis, Babesiosis parasitology, Borrelia genetics, Child, Child, Preschool, DNA, Bacterial analysis, DNA, Protozoan analysis, Female, Humans, Infant, Lyme Disease diagnosis, Lyme Disease microbiology, Microscopy standards, Middle Aged, Polymerase Chain Reaction, Sensitivity and Specificity, Young Adult, Babesia isolation & purification, Babesiosis blood, Borrelia isolation & purification, Lyme Disease blood, Microscopy methods

Abstract

Background: A modified microscopy protocol (the LM-method) was used to demonstrate what was interpreted as Borrelia spirochetes and later also Babesia sp., in peripheral blood from patients. The method gained much publicity, but was not validated prior to publication, which became the purpose of this study using appropriate scientific methodology, including a control group., Methods: Blood from 21 patients previously interpreted as positive for Borrelia and/or Babesia infection by the LM-method and 41 healthy controls without known history of tick bite were collected, blinded and analysed for these pathogens by microscopy in two laboratories by the LM-method and conventional method, respectively, by PCR methods in five laboratories and by serology in one laboratory., Results: Microscopy by the LM-method identified structures claimed to be Borrelia- and/or Babesia in 66% of the blood samples of the patient group and in 85% in the healthy control group. Microscopy by the conventional method for Babesia only did not identify Babesia in any samples. PCR analysis detected Borrelia DNA in one sample of the patient group and in eight samples of the control group; whereas Babesia DNA was not detected in any of the blood samples using molecular methods., Conclusions: The structures interpreted as Borrelia and Babesia by the LM-method could not be verified by PCR. The method was, thus, falsified. This study underlines the importance of doing proper test validation before new or modified assays are introduced.

Published

2016

24. Invasive potential of Borrelia burgdorferi sensu stricto ospC type L strains increases the possible disease risk to humans in the regions of their distribution.

Author

Golovchenko M, Sima R, Hajdusek O, Grubhoffer L, Oliver JH Jr, and Rudenko N

Subjects

Animals, Antigens, Bacterial genetics, Bacterial Outer Membrane Proteins genetics, Borrelia burgdorferi classification, Europe epidemiology, Female, Gene Expression Regulation, Bacterial physiology, Humans, Lyme Disease epidemiology, Mice, Southeastern United States epidemiology, Antigens, Bacterial metabolism, Bacterial Outer Membrane Proteins metabolism, Borrelia burgdorferi physiology, Lyme Disease microbiology

Abstract

Background: Analysis of Borrelia burgdorferi ospC types from the southeastern U.S.A. supported the common belief that various ospC types are geographically restricted and host specific. Being widely distributed in the region, the southeastern population of B. burgdorferi is represented by a surprisingly small number of ospC types. Types B, G and H are dominant or common and are invasive, while scarce type L, restricted mostly to the southeastern U.S.A., is believed to rarely if ever cause human Lyme disease. OspC type B and L strains are represented in the region at the same rate, however their distribution among tick vectors and vertebrate hosts is unequal., Findings: Direct diagnostics was used to analyze the ability of B. burgdorferi ospC type L strains to disseminate into host tissues. Mice were infected by subcutaneous injections of B. burgdorferi strains of various ospC types with different invasive capability. Spirochete levels were examined in ear, heart, bladder and joint tissues. Noninfected I. ricinus larvae were fed on infected mice until repletion. Infection rates were determined in molted nymphs. Infected nymphs were then fed on naïve mice, and spirochete transmission from infected nymphs to mice was confirmed., Conclusions: B. burgdorferi ospC type L strains from the southeastern U.S.A. have comparable potential to disseminate into host tissues as ospC types strains commonly associated with human Lyme disease in endemic European and North American regions. We found no difference in the invasive ability of ospC type B and L strains originated either from tick vectors or vertebrate hosts.

Published

2014

25. Tick as a model for the study of a primitive complement system.

Author

Kopacek P, Hajdusek O, and Buresova V

Subjects

Amino Acid Sequence, Animals, Complement System Proteins genetics, Immunity, Innate immunology, Insect Proteins genetics, Insect Vectors genetics, Insect Vectors immunology, Ixodes genetics, Ixodes microbiology, Lectins metabolism, Molecular Sequence Data, Phagocytosis, RNA Interference, Sequence Alignment, Complement System Proteins immunology, Insect Proteins immunology, Ixodes immunology

Abstract

Ticks are blood feeding parasites transmitting a wide variety of pathogens to their vertebrate hosts. The transmitted pathogens apparently evolved efficient mechanisms enabling them to evade or withstand the cellular or humoral immune responses within the tick vector. Despite its importance, our knowledge of tick innate immunity still lags far beyond other well established invertebrate models, such as drosophila, horseshoe crab or mosquitoes. However, the recent release of the American deer tick, Ixodes scapularis, genome and feasibility of functional analysis based on RNA interference (RNAi) facilitate the development of this organism as a full-value model for deeper studies of vector-pathogen interactions.

Published

2012

26. Functional genomics of tick thioester-containing proteins reveal the ancient origin of the complement system.

Author

Buresova V, Hajdusek O, Franta Z, Loosova G, Grunclova L, Levashina EA, and Kopacek P

Subjects

Animals, Cells, Cultured, Chryseobacterium pathogenicity, Complement C3 genetics, Evolution, Molecular, Flavobacteriaceae Infections genetics, Genome immunology, Genomics, Hemocytes immunology, Hemocytes microbiology, Hemocytes pathology, Humans, Insect Proteins genetics, Phagocytosis genetics, RNA, Small Interfering genetics, Sequence Analysis, DNA, alpha-Macroglobulins genetics, Chryseobacterium immunology, Complement C3 metabolism, Flavobacteriaceae Infections immunology, Hemocytes metabolism, Insect Proteins metabolism

Abstract

Ticks are important ectoparasites and vectors of multiple human and animal diseases. The obligatory hemophagy of ticks provides a formidable route for parasite transmission from one host to another. Parasite survival inside the tick relies on the ability of a pathogen to escape or inhibit tick immune defenses, but the molecular interactions between the tick and its pathogens remain poorly understood. Here we report that tick genomes are unique in that they contain all known classes of the α(2)-macroglobulin family (α(2)M-F) proteins: α(2)-macroglobulin pan-protease inhibitors, C3 complement components, and insect thioester-containing and macroglobulin-related proteins. By using RNA interference-mediated gene silencing in the hard tick Ixodes ricinus we demonstrated the central role of a C3-like molecule in the phagocytosis of bacteria and revealed nonredundant functions for α(2)M-F proteins. Assessment of α(2)M-F functions in a single organism should significantly contribute to the general knowledge on the evolution and function of the complement system. Importantly, understanding the tick immune mechanisms should provide new concepts for efficient transmission blocking of tick-borne diseases., (Copyright © 2011 S. Karger AG, Basel.)

Published

2011

27. Characterization of ferritin 2 for the control of tick infestations.

Author

Hajdusek O, Almazán C, Loosova G, Villar M, Canales M, Grubhoffer L, Kopacek P, and de la Fuente J

Subjects

Animals, Cattle, Cattle Diseases parasitology, Escherichia coli genetics, Ferritins antagonists & inhibitors, Insect Proteins antagonists & inhibitors, Ixodes immunology, Rhipicephalus immunology, Tick Infestations prevention & control, Vaccines, Synthetic immunology, Cattle Diseases prevention & control, Ferritins immunology, Ferritins isolation & purification, Insect Proteins immunology, Insect Proteins isolation & purification, Rabbits parasitology, Tick Infestations veterinary

Abstract

Ixodes ricinus is one the most abundant tick species in Europe and these ticks transmit pathogens causing human and animal diseases. The cattle ticks, Rhipicephalus (Boophilus) spp., affect cattle production in tropical and subtropical regions of the world. Development of vaccines directed against tick proteins may reduce tick infestations and the transmission of tick-borne pathogens. However, a limiting step in tick vaccine development has been the identification of tick protective antigens. Herein, the tick iron metabolism pathway was targeted in an effort to identify new tick protective antigens. Recombinant I. ricinus (IrFER2) and Rhipicephalus microplus (RmFER2) ferritin 2 proteins were expressed in Escherichia coli and used to immunize rabbits and cattle, respectively. Vaccination with IrFER2 reduced I. ricinus tick numbers, weight and fertility in rabbits with an overall vaccine efficacy (E) of 98%. Control of cattle tick, R. microplus and Rhipicephalus annulatus infestations was obtained in vaccinated cattle with overall E of 64% and 72%, respectively. Notably, the efficacy of the RmFER2 vaccine was similar to that obtained with Bm86 against R. microplus. These collective results demonstrated the feasibility of using ferritin 2 to develop vaccines for the control of tick infestations., (Copyright 2010 Elsevier Ltd. All rights reserved.)

Published

2010

28. Tick innate immunity.

Author

Kopácek P, Hajdusek O, Buresová V, and Daffre S

Subjects

Animals, Hemocytes immunology, Host-Pathogen Interactions immunology, Ticks microbiology, Immunity, Innate immunology, Ticks immunology

Abstract

Ticks are blood feeding parasites transmitting a wide variety of pathogens to their vertebrate hosts. The vector competence of ticks is tightly linked with their immune system. Despite its importance, our knowledge of tick innate immunity is still inadequate and the limited number of sufficiently characterized immune molecules and cellular reactions are dispersed across numerous tick species. The phagocytosis of microbes by tick hemocytes seems to be coupled with a primitive complement-like system, which possibly involves self/nonself recognition by fibrinogen-related lectins and the action of thioester-containing proteins. Ticks do not seem to possess a pro-phenoloxidase system leading to melanization and also coagulation of tick hemolymph has not been experimentally proven. They are capable of defending themselves against microbial infection with a variety of antimicrobial peptides comprising lysozymes, defensins and molecules not found in other invertebrates. Virtually nothing is known about the signaling cascades involved in the regulation of tick antimicrobial immune responses. Midgut immunity is apparently the decisive factor of tick vector competence. The gut content is a hostile environment for ingested microbes, which is mainly due to the antimicrobial activity of hemoglobin fragments generated by the digestion of the host blood as well as other antimicrobial peptides. Reactive oxygen species possibly also play an important role in the tick-pathogen interaction. The recent release of the Ixodes scapularis genome and the feasibility of RNA interference in ticks promise imminent and substantial progress in tick innate immunity research.

Published

2010

29. IrAM-An alpha2-macroglobulin from the hard tick Ixodes ricinus: characterization and function in phagocytosis of a potential pathogen Chryseobacterium indologenes.

Author

Buresova V, Hajdusek O, Franta Z, Sojka D, and Kopacek P

Subjects

Amino Acid Sequence, Animals, Base Sequence, Hemocytes drug effects, Hemocytes microbiology, Hemolymph immunology, Ixodes genetics, Ixodes microbiology, Metalloproteases drug effects, Metalloproteases metabolism, Methylamines pharmacology, Molecular Sequence Data, Phenanthrolines pharmacology, RNA Interference, Sequence Alignment, alpha-Macroglobulins chemistry, alpha-Macroglobulins genetics, alpha-Macroglobulins pharmacology, Chryseobacterium immunology, Hemocytes immunology, Ixodes immunology, Phagocytosis immunology, alpha-Macroglobulins immunology

Abstract

The universal protease inhibitors of the alpha(2)-macroglobulin (alpha(2)M) family are evolutionarily conserved constituents of innate immunity, presumably because they guard organisms against undesired proteolytic attacks of a different origin. Here, we determined the primary structure of alpha(2)-macroglobulin from the hard tick Ixodes ricinus (IrAM) by sequencing of overlapping PCR products. Predicted disulfide and glycosylation patterns, post-translational cleavage and alternative splicing within its 'bait region' demonstrate that IrAM is closely related to the alpha(2)-macroglobulin from the soft tick Ornithodoros moubata. The IrAM message is expressed in all tick developmental stages and tissues, except for the gut, and the protein was detected to be mainly present in the hemolymph. Silencing of IrAM by dsRNA interference markedly reduced the phagocytosis of a potential pathogen, Chryseobacterium indologenes, by tick hemocytes both in vitro and in vivo. In contrast, phagocytosis of the Lyme disease spirochete Borrelia burgdorferi or a commensal bacteria Staphylococcus xylosus was not affected by the IrAM knock-down. Similar results were obtained upon deactivation of all thioester proteins in tick hemolymph by methylamine. We have further demonstrated that phagocytosis of C. indologenes is dependent on an active metalloprotease secreted by the bacteria. These data indicate that interaction of tick alpha(2)-macroglobulin with a protease of an invading pathogen is linked with cellular immune response.

Published

2009

30. Knockdown of proteins involved in iron metabolism limits tick reproduction and development.

Author

Hajdusek O, Sojka D, Kopacek P, Buresova V, Franta Z, Sauman I, Winzerling J, and Grubhoffer L

Subjects

Animals, Blotting, Western, Cloning, Molecular, Feeding Behavior, Female, Ferritins genetics, Gene Expression Profiling, Gene Expression Regulation, Gene Silencing, Genes, Insect, Guinea Pigs, Insect Proteins genetics, Intracellular Space metabolism, Male, Models, Biological, Phylogeny, Protein Biosynthesis, RNA, Messenger genetics, RNA, Messenger metabolism, Reproduction, Survival Analysis, Ticks genetics, Insect Proteins metabolism, Iron metabolism, Ticks growth & development, Ticks physiology

Abstract

Ticks are among the most important vectors of a wide range of human and animal diseases. During blood feeding, ticks are exposed to an enormous amount of free iron that must be appropriately used and detoxified. However, the mechanism of iron metabolism in ticks is poorly understood. Here, we show that ticks possess a complex system that efficiently utilizes, stores and transports non-heme iron within the tick body. We have characterized a new secreted ferritin (FER2) and an iron regulatory protein (IRP1) from the sheep tick, Ixodes ricinus, and have demonstrated their relationship to a previously described tick intracellular ferritin (FER1). By using RNA interference-mediated gene silencing in the tick, we show that synthesis of FER1, but not of FER2, is subject to IRP1-mediated translational control. Further, we find that depletion of FER2 from the tick plasma leads to a loss of FER1 expression in the salivary glands and ovaries that normally follows blood ingestion. We therefore suggest that secreted FER2 functions as the primary transporter of non-heme iron between the tick gut and the peripheral tissues. Silencing of the fer1, fer2, and irp1 genes by RNAi has an adverse impact on hatching rate and decreases postbloodmeal weight in tick females. Importantly, knockdown of fer2 dramatically impairs the ability of ticks to feed, thus making FER2 a promising candidate for development of an efficient anti-tick vaccine.

Published

2009

31. Profiling of proteolytic enzymes in the gut of the tick Ixodes ricinus reveals an evolutionarily conserved network of aspartic and cysteine peptidases.

Author

Sojka D, Franta Z, Horn M, Hajdusek O, Caffrey CR, Mares M, and Kopácek P

Abstract

Background: Ticks are vectors for a variety of viral, bacterial and parasitic diseases in human and domestic animals. To survive and reproduce ticks feed on host blood, yet our understanding of the intestinal proteolytic machinery used to derive absorbable nutrients from the blood meal is poor. Intestinal digestive processes are limiting factors for pathogen transmission since the tick gut presents the primary site of infection. Moreover, digestive enzymes may find practical application as anti-tick vaccine targets., Results: Using the hard tick, Ixodes ricinus, we performed a functional activity scan of the peptidase complement in gut tissue extracts that demonstrated the presence of five types of peptidases of the cysteine and aspartic classes. We followed up with genetic screens of gut-derived cDNA to identify and clone genes encoding the cysteine peptidases cathepsins B, L and C, an asparaginyl endopeptidase (legumain), and the aspartic peptidase, cathepsin D. By RT-PCR, expression of asparaginyl endopeptidase and cathepsins B and D was restricted to gut tissue and to those developmental stages feeding on blood., Conclusion: Overall, our results demonstrate the presence of a network of cysteine and aspartic peptidases that conceivably operates to digest host blood proteins in a concerted manner. Significantly, the peptidase components of this digestive network are orthologous to those described in other parasites, including nematodes and flatworms. Accordingly, the present data and those available for other tick species support the notion of an evolutionary conservation of a cysteine/aspartic peptidase system for digestion that includes ticks, but differs from that of insects relying on serine peptidases.

Published

2008

32. IrAE: an asparaginyl endopeptidase (legumain) in the gut of the hard tick Ixodes ricinus.

Author

Sojka D, Hajdusek O, Dvorák J, Sajid M, Franta Z, Schneider EL, Craik CS, Vancová M, Buresová V, Bogyo M, Sexton KB, McKerrow JH, Caffrey CR, and Kopácek P

Subjects

Amino Acid Sequence, Animals, Base Sequence, Cathepsin B metabolism, Cloning, Molecular, Cysteine Endopeptidases chemistry, Cysteine Endopeptidases isolation & purification, Cysteine Endopeptidases metabolism, Female, Fluorescent Antibody Technique, Indirect, Hemoglobins metabolism, Ixodes genetics, Microscopy, Electron, Transmission, Molecular Sequence Data, Phylogeny, Pichia genetics, Pichia metabolism, RNA, Messenger biosynthesis, RNA, Messenger genetics, Recombinant Proteins biosynthesis, Recombinant Proteins genetics, Reverse Transcriptase Polymerase Chain Reaction, Sequence Alignment, Cysteine Endopeptidases genetics, Digestive System enzymology, Ixodes enzymology

Abstract

Ticks are ectoparasitic blood-feeders and important vectors for pathogens including arboviruses, rickettsiae, spirochetes and protozoa. As obligate blood-feeders, one possible strategy to retard disease transmission is disruption of the parasite's ability to digest host proteins. However, the constituent peptidases in the parasite gut and their potential interplay in the digestion of the blood meal are poorly understood. We have characterised a novel asparaginyl endopeptidase (legumain) from the hard tick Ixodes ricinus (termed IrAE), which we believe is the first such characterisation of a clan CD family C13 cysteine peptidase (protease) in arthropods. By RT-PCR of different tissues, IrAE mRNA was only expressed in the tick gut. Indirect immunofluorescence and EM localised IrAE in the digestive vesicles of gut cells and within the peritrophic matrix. IrAE was functionally expressed in Pichia pastoris and reacted with a specific peptidyl fluorogenic substrate, and acyloxymethyl ketone and aza-asparagine Michael acceptor inhibitors. IrAE activity was unstable at pH > or = 6.0 and was shown to have a strict specificity for asparagine at P1 using a positional scanning synthetic combinatorial library. The enzyme hydrolyzed protein substrates with a pH optimum of 4.5, consistent with the pH of gut cell digestive vesicles. Thus, IrAE cleaved the major protein of the blood meal, hemoglobin, to a predominant peptide of 4kDa. Also, IrAE trans-processed and activated the zymogen form of Schistosoma mansoni cathepsin B1 -- an enzyme contributing to hemoglobin digestion in the gut of that bloodfluke. The possible functions of IrAE in the gut digestive processes of I. ricinus are compared with those suggested for other hematophagous parasites.

Published

2007

33. Molecular cloning and comparative analysis of fibrinogen-related proteins from the soft tick Ornithodoros moubata and the hard tick Ixodes ricinus.

Author

Rego RO, Hajdusek O, Kovár V, Kopácek P, Grubhoffer L, and Hypsa V

Subjects

Amino Acid Sequence, Animals, Cloning, Molecular, Fibrinogen chemistry, Molecular Sequence Data, Phylogeny, Sequence Alignment, Sequence Homology, Amino Acid, Species Specificity, Fibrinogen analogs & derivatives, Ixodes chemistry, Ornithodoros chemistry

Abstract

Among disease-vectors, the evolution of the tick innate immune system is still lagging when compared to insects. Such an investigation, which was initiated, by first cloning and sequencing lectins associated in the innate immunity of invertebrates and having fibrinogen related domains, helped in the sequencing of cDNA encoding for OMFREP from the soft tick, Ornithodoros moubata. Also obtained were Ixoderin A and Ixoderin B cDNA sequences from the hard tick Ixodes ricinus. Tissue-specific expression of OMFREP showed that it was present primarily in the hemocytes and salivary glands. Ixoderin A besides sharing a similar expression profile was also expressed in the midgut. Both showed significantly high homology to the lectin Dorin M, from O. moubata. Further, phylogenetic comparisons between these molecules of the soft and hard ticks showed their relatedness to Tachylectins 5A and 5B, involved in the innate immunity of Tachypleus tridentatus and ficolins from both vertebrates and invertebrates. Ixoderin B showing tissue-specific expression only in the salivary glands and the sequence displaying certain motif differences in homology point towards a possible function different from the other two molecules. This is the first report of lectin-like sequences, with a fibrinogen-domain, from the hard tick I. ricinus and a preliminary phylogenetic study of these tick sequences with related fibrinogen-domain containing sequences highlights a possible role for them in the innate immunity of the ticks.

Published

2005

34. Molecular identification of Cryptosporidium spp. in animal and human hosts from the Czech Republic.

Author

Hajdusek O, Ditrich O, and Slapeta J

Subjects

Amino Acid Sequence, Animals, Base Sequence, Cattle, Child, Child, Preschool, Cryptosporidiosis epidemiology, Cryptosporidium classification, Czech Republic epidemiology, DNA, Protozoan chemistry, DNA, Protozoan genetics, Humans, Infant, Molecular Sequence Data, Phylogeny, Polymerase Chain Reaction, Protozoan Proteins chemistry, Protozoan Proteins genetics, RNA, Ribosomal chemistry, RNA, Ribosomal genetics, Sequence Alignment, Zoonoses epidemiology, Cryptosporidiosis parasitology, Cryptosporidiosis veterinary, Cryptosporidium genetics, Zoonoses parasitology

Abstract

To study the diversity of Cryptosporidium spp. in various hosts, we used the variability of the small-subunit rRNA gene and the Cryptosporidium oocyst wall protein genes. Oocysts from humans, cattle, horses, dogs, field mice, chickens, reptiles, deer, goat, cat, antelope and from a sample of water reservoir were assayed. The zoonotic C. parvum bovine genotype sequence was found to be present in the most of isolates. This study shows a complex epidemiology pattern for C. parvum bovine genotype infections. The identification of cattle, horse, and deer isolates emphasizes a transmission route for C. parvum via these hosts, and identifies a potential source for human infection in the Czech Republic. Furthermore, C. andersoni from a cow, C. baileyi from a chicken, C. felis from a cat, C. meleagridis from a dog, and C. saurophilum and C. serpentis from reptiles were also identified in the isolates from the Czech Republic.

Published

2004

35. Natural infection of Cryptosporidium muris (Apicomplexa: Cryptosporiidae) in Siberian chipmunks.

Author

Hůrková L, Hajdusek O, and Modrý D

Subjects

Animals, Base Sequence, Cryptosporidiosis parasitology, Cryptosporidium classification, Cryptosporidium genetics, Cryptosporidium ultrastructure, Czech Republic, DNA, Protozoan chemistry, DNA, Protozoan isolation & purification, DNA, Ribosomal chemistry, Disease Susceptibility, Feces parasitology, Mice, Mice, Inbred BALB C, Molecular Sequence Data, Oocysts genetics, Oocysts ultrastructure, Polymerase Chain Reaction veterinary, RNA, Protozoan genetics, RNA, Ribosomal genetics, Sequence Alignment veterinary, Cryptosporidiosis veterinary, Cryptosporidium isolation & purification, Rodent Diseases parasitology, Sciuridae parasitology

Abstract

Coprologic examination of nine Siberian chipmunks (Eutamias sibiricus) imported from Southeast Asia revealed infection with Cryptosporidium sp. Experimental inoculation of BALB/c mice proved their susceptibility to the infection. Infected mice shed oocysts 14-35 days postinfection. Oocyst morphology was similar to that reported for C. muris in previous studies, oocysts were 8.1 (7.0-9.0) x 5.9 (5.0-6.5) microns. Clinical signs were absent in naturally infected chipmunks and experimental mice. Histologic examinations of mice revealed numerous developmental stages of C. muris in the glandular stomach. Analysis of partial small subunit rRNA gene sequences confirmed identity of these isolates as C. muris. Our results represent the first report of C. muris in members of the family Sciuridae.

Published

2003