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2. Supplementary Information from Haem-responsive gene transporter enables mobilization of host haem in ticks

Author

Perner, J., Hatalova, T., Cabello-Donayre, M., Urbanova, V., Sojka, D., Frantova, H., Hartmann, D., Jirsova, D., Pérez-Victoria, J. M., and Kopacek, P.

Subjects
digestive, oral, and skin physiology, polycyclic compounds
Abstract

Ticks, notorious blood-feeders and disease-vectors, have lost a part of their genetic complement encoding haem biosynthetic enzymes and are, therefore, dependent on the acquisition and distribution of host haem. Solute carrier protein SLC48A1, aka haem-responsive gene 1 protein (HRG1), has been implicated in haem transport, regulating the availability of intracellular haem. HRG1 transporter has been identified in both free-living and parasitic organisms ranging from unicellular kinetoplastids, nematodes, up to vertebrates. However, an HRG1 homologue in the Arthropod lineage has not yet been identified. We have identified a single HRG1 homologue in the midgut transcriptome of the tick Ixodes ricinus, denoted as IrHRG, and have elucidated its role as a haem transporter. Data from haem biosynthesis-deficient yeast growth assays, systemic RNA interference and the evaluation of Gallium protoporphyrin IX-mediated toxicity through tick membrane feeding clearly show that IrHRG is the bona fide tetrapyrrole transporter. We argue that during evolution, ticks profited from retaining a functional hrg1 gene in the genome because its protein product facilitates host haem escort from intracellularly digested haemoglobin, rendering haem bioavailable for a haem-dependent network of enzymes.

Published
2021
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4. Research the possibility of separating hydrophobic gel used in gel cables from metal and plastics using wet methods

Author

Sojka Dawid, Pikon Krzysztof, Klejnowska Katarzyna, and Lewandowska Marta

Subjects
Environmental sciences, GE1-350
Abstract

This article presents basic information on gel cables and methods of processing them. The wet recycling plant for waste gel cables currently used in the industry is presented. The advantages and disadvantages of this installation are discussed. Current gel cable recycling technologies do not ensure the recovery of all raw materials. The article also shows the reproduction of an industrial installation on a laboratory scale. Laboratory tests included determining the efficiency of the separation of hydrophobic gel from metal and plastic. The moisture content of the resulting products was measured. The final section of the article identifies further research directions.

Published
2024
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11. Shucking DP

Author

Sojka, D.

Subjects
Employment, Retirement
Abstract

When you were young, you'd hear older people say things like 'I was in law' or 'i was a railroad man,' but no one ever said 'I worked in computers.' […]

Published
1984

12. On the Job

Author

Sojka, D.

Subjects
Universities and Colleges, Technical Instruction, Student
Published
1983

13. PLAY Makes Jack A Better Manager

Author

Sojka, D.

Subjects
Management, Computer Game, Game Theory, Decision Theory, Business, Decision Making, International Management Game (IMG) -- Evaluation
Published
1983

14. Soft-Selling Software

Author

Sojka, D.

Subjects
New Product, Software, Payroll Software, Inventory Control, Fire Fighting, Time Sharing, Sperry Corporation -- Product introduction, Mapper -- Evaluation
Published
1983

15. Counterpoint

Author

Sojka, D.

Subjects
Preventive Maintenance, Hardware, Field Engineers, Hardware Maintenance, Hardware Vendors
Published
1983

16. When Opportunity Knocks

Author

Sojka, D.

Subjects
Technology, Microcomputer, Personal Computers, Careers, Women, Data Processing
Published
1983

18. On the Job: Self-Help

Author

Sojka, D.

Subjects
Management, Leadership, Executive, Education, New Product, Management Development
Published
1983

20. Suitability of imaging methods (X-ray, CT, MRI) in the diagnostics of ewing's sarcoma in children - Analysis of own material

Author

Kuleta-Bosak, E., Kluczewska, E., Machnik-Broncel, J., Madziara, W., Ciupińska-Kajor, M., Sojka, D., Rogala, W., Jan Maria Juszczyk, and Wilk, R.

Subjects
children, bone tumour, X-rays, Ewing sarcoma, CT, MRI
Abstract

Background: Ewing sarcoma is a malignant, small round cell bone tumor, presenting predominantly in children and adolescents. Ewing sarcoma may develop in every bone; diaphyses of long bones, ribs and flat bones are the main locations. Local and systemic clinical symptoms are nonspecific - pain, swelling, fever or ill-being. The aim of the study was to assess the role of radiography, computed tomography and magnetic resonance imaging in the analysis of bone lesions in children and young adults with Ewing sarcoma. Material/Methods: Twenty-seven patients, aged between 1 year and 10 months, and 17 years and 2 months, with histologically verified Ewing sarcoma of the bone, referred to the Radiological Department of University Hospital No 6., John Paul II Upper Silesian Centre for Child Health Katowice, in the period from 1996 to 2007, were included in the study.Plain radiography was performed in every child, CT in 20 and MRI in 12 individuals. Tumour location, extension of the tumour, soft tissue mass, and periosteal reaction were taken into consideration in the evaluation of the lesion. In some cases, pathological features of the MRI and CT were compared. The prevalence of some radiological features was compared to the literature data. Results: The most common site of tumor was: ribs (6 children), femoral bone (6 children), pelvis (4 children) and tibia (3 children). In 2 children, a primary tumor was diagnosed in the spine (multifocal in 1 child). X-rays revealed: periosteal reaction in 17 children (63%), soft tissue involvement in 19 children (70%), permeative component in 16 children (59%), and sclerotic component in 5 children (19%). In 10 children (37%), periosteal reaction was not detected. The examination revealed: soft tissue calcifications in 7 cases (26%), a well-delineated focus of destruction within bones in 3 children (11%), cortical thickening in 4 children (15%), cortical destruction in 4 children (15%), saucerisation in 3 children (11%), bone expansion in 3 children (11%), pathological fracture in 2 children (7%), cystic component in 1 child (4%), and vertebra plana in 1 child (4%).Reaction of tumors after i.v. contrast administration, shown on CT, was visible in 16 children - it was useful for a better description of the tumor and extension of the mass within the soft tissue.All MRI examinations (12 children) showed a heterogenous mass with ill-defined borders and a violated cortex. Low signal intensity of the tumor in a T1-weighted image and high signal intensity in a T2-weighted image was shown as well. Heterogenous enhancement of signal intensity on T1-weighted images could be observed after i.v. contrast administration. MRI examinations showed: tumor in an adjacent soft tissue in 11 children, and involvement of the epiphyseal plate or of the joint cavity in 6 children. Conclusions: X-ray and MRI are essential in diagnostics. CT examination is more useful to estimate periosteal reactions and destruction of bone and marrow cavity, especially in flat bones. However, to recognise a malignancy, it is necessary to perform a histopathological examination. In doubtful cases, the examination has to be verified as well.

21. Dynamics of digestive proteolytic system during blood feeding of the hard tick Ixodes ricinus

Author

Sojka Daniel, Horn Martin, Konvičková Jitka, Frantová Helena, Franta Zdeněk, Mareš Michael, and Kopáček Petr

Subjects
Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background Ticks are vectors of a wide variety of pathogens causing severe diseases in humans and domestic animals. Intestinal digestion of the host blood is an essential process of tick physiology and also a limiting factor for pathogen transmission since the tick gut represents the primary site for pathogen infection and proliferation. Using the model tick Ixodes ricinus, the European Lyme disease vector, we have previously demonstrated by genetic and biochemical analyses that host blood is degraded in the tick gut by a network of acidic peptidases of the aspartic and cysteine classes. Results This study reveals the digestive machinery of the I. ricinus during the course of blood-feeding on the host. The dynamic profiling of concentrations, activities and mRNA expressions of the major digestive enzymes demonstrates that the de novo synthesis of peptidases triggers the dramatic increase of the hemoglobinolytic activity along the feeding period. Overall hemoglobinolysis, as well as the activity of digestive peptidases are negligible at the early stage of feeding, but increase dramatically towards the end of the slow feeding period, reaching maxima in fully fed ticks. This finding contradicts the established opinion that blood digestion is reduced at the end of engorgement. Furthermore, we show that the digestive proteolysis is localized intracellularly throughout the whole duration of feeding. Conclusions Results suggest that the egressing proteolytic system in the early stage of feeding and digestion is a potential target for efficient impairment, most likely by blocking its components via antibodies present in the host blood. Therefore, digestive enzymes are promising candidates for development of novel 'anti-tick' vaccines capable of tick control and even transmission of tick-borne pathogens.

Published
2010
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22. 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
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24. Evaluating Antimalarial Proteasome Inhibitors for Efficacy in Babesia Blood Stage Cultures.

Author

Robbertse L, Fajtová P, Šnebergerová P, Jalovecká M, Levytska V, Barbosa da Silva E, Sharma V, Pachl P, Almaliti J, Al-Hindy M, Gerwick WH, Bouřa E, O'Donoghue AJ, and Sojka D

Abstract

Tick-transmitted Babesia are a major global veterinary threat and an emerging risk to humans. Unlike their Plasmodium relatives, these erythrocyte-infecting Apicomplexa have been largely overlooked and lack specific treatment. Selective targeting of the Babesia proteasome holds promise for drug development. In this study, we screened a library of peptide epoxyketone inhibitors derived from the marine natural product carmaphycin B for their activity against Babesia . Several of these compounds showed activity against both the asexual and sexual blood stages of Plasmodium falciparum . These compounds inactivate β5 proteasome subunit activity in the lysates of Babesia divergens and Babesia microti in the low nanomolar range. Several compounds were tested with the purified B. divergens proteasome and showed IC 50 values comparable to carfilzomib, an approved anticancer proteasome inhibitor. They also inhibited B. divergens growth in bovine erythrocyte cultures with solid EC 50 values, but importantly, they appeared less toxic to human cells than carfilzomib. These compounds therefore offer a wider therapeutic window and provide new insights into the development of small proteasome inhibitors as selective drugs for babesiosis., Competing Interests: The authors declare no competing financial interest., (© 2024 The Authors. Published by American Chemical Society.)

Published
2024
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25. Chelation of Mitochondrial Iron as an Antiparasitic Strategy.

Author

Arbon D, Mach J, Čadková A, Sipkova A, Stursa J, Klanicová K, Machado M, Ganter M, Levytska V, Sojka D, Truksa J, Werner L, and Sutak R

Subjects
Deferoxamine chemistry, Antiparasitic Agents pharmacology, Iron Chelating Agents pharmacology, Iron Chelating Agents therapeutic use, Mitochondria, Iron, Anti-Infective Agents
Abstract

Iron, as an essential micronutrient, plays a crucial role in host-pathogen interactions. In order to limit the growth of the pathogen, a common strategy of innate immunity includes withdrawing available iron to interfere with the cellular processes of the microorganism. Against that, unicellular parasites have developed powerful strategies to scavenge iron, despite the effort of the host. Iron-sequestering compounds, such as the approved and potent chelator deferoxamine (DFO), are considered a viable option for therapeutic intervention. Since iron is heavily utilized in the mitochondrion, targeting iron chelators in this organelle could constitute an effective therapeutic strategy. This work presents mitochondrially targeted DFO, mitoDFO, as a candidate against a range of unicellular parasites with promising in vitro efficiency. Intracellular Leishmania infection can be cleared by this compound, and experimentation with Trypanosoma brucei 427 elucidates its possible mode of action. The compound not only affects iron homeostasis but also alters the physiochemical properties of the inner mitochondrial membrane, resulting in a loss of function. Furthermore, investigating the virulence factors of pathogenic yeasts confirms that mitoDFO is a viable candidate for therapeutic intervention against a wide spectrum of microbe-associated diseases.

Published
2024
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26. Advances in protease inhibition-based chemotherapy: A decade of insights from Malaria research.

Author

Sojka D and Šnebergerová P

Subjects
Humans, Peptide Hydrolases metabolism, Peptide Hydrolases genetics, Malaria, Falciparum drug therapy, Malaria, Falciparum parasitology, Animals, Malaria drug therapy, Plasmodium falciparum enzymology, Plasmodium falciparum drug effects, Plasmodium falciparum genetics, Protease Inhibitors therapeutic use, Antimalarials pharmacology, Antimalarials therapeutic use
Abstract

Over the last decade, research on the most studied parasite, Plasmodium falciparum, has disclosed significant findings in protease research. Detailed descriptions of the individual roles of protease isoenzymes from various protease classes encoded by the parasite genome have been elucidated, along with their functional and biochemical characterizations. These insights have enabled the development of innovative chemotherapy using low molecular weight inhibitors targeting specific molecular sites. Progress has been made in understanding the proteolytic cascade associated with the apical complex, particularly the roles of aspartyl proteases plasmepsins IX and X as master regulators. Additionally, advancements in direct and alternative methods of proteasome inhibition and expression regulation have been achieved. Research on digestive/food vacuole-associated proteases, with a focus on essential metalloproteases, has also seen significant developments. The rise of extensive genomic datasets and functional genomic tools for other parasitic organisms now allows these approaches to be applied to the study and treatment of other, less known parasitic diseases, aiming to uncover specific biological mechanisms and develop innovative, less toxic chemotherapies., (Copyright © 2024. Published by Elsevier Ltd.)

Published
2024
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27. Establishment of a stable transfection and gene targeting system in Babesia divergens .

Author

Cubillos EFG, Snebergerova P, Borsodi S, Reichensdorferova D, Levytska V, Asada M, Sojka D, and Jalovecka M

Subjects
Humans, Transfection, Gene Targeting, Erythrocytes parasitology, Babesia genetics, Babesiosis parasitology
Abstract

Babesia divergens is an emerging tick-borne pathogen considered as the principal causative agent of bovine babesiosis in Europe with a notable zoonotic risk to human health. Despite its increasing impact, considerable gaps persist in our understanding of the molecular interactions between this parasite and its hosts. In this study, we address the current limitation of functional genomic tools in B. divergens and introduce a stable transfection system specific to this parasite. We define the parameters for a drug selection system hdhfr -WR99210 and evaluate different transfection protocols for highly efficient generation of transgenic parasites expressing GFP. We proved that plasmid delivery into bovine erythrocytes prior to their infection is the most optimal transfection approach for B. divergens , providing novel evidence of Babesia parasites' ability to spontaneously uptake external DNA from erythrocytes cytoplasm. Furthermore, we validated the bidirectional and symmetrical activity of ef-tgtp promoter, enabling simultaneous expression of external genes. Lastly, we generated a B. divergens knockout line by targeting a 6-cys-e gene locus. The observed dispensability of this gene in intraerythrocytic parasite development makes it a suitable recipient locus for further transgenic application. The platform for genetic manipulations presented herein serves as the initial step towards developing advanced functional genomic tools enabling the discovery of B. divergens molecules involved in host-vector-pathogen interactions., Competing Interests: The 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 © 2023 Cubillos, Snebergerova, Borsodi, Reichensdorferova, Levytska, Asada, Sojka and Jalovecka.)

Published
2023
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28. Compensative Resistance to Erastin-Induced Ferroptosis in GPX4 Knock-Out Mutants in HCT116 Cell Lines.

Author

Adamiec-Organisciok M, Wegrzyn M, Cienciala L, Sojka D, Nackiewicz J, and Skonieczna M

Abstract

Ferroptosis results from the accumulation of oxidized and damaged lipids which then leads to programmed cell death. This programmed process is iron-dependent, and as a fundamental biological process, plays a crucial role in tissue homeostasis. The ferroptosis molecular pathway depends on self-regulatory genes: GPX4; TFRC; ACSL4; FSP1; SLC7A11, and PROM2. Some of them were considered here as ferro-sensitive or ferro-resistance markers. We examined the impact of GPX4 gene knock-out, using the CRISPR/Cas-9 technique, on ferroptosis induction in the HCT116 colorectal cancer cell line. The results confirmed that cells lacking the GPX4 gene (GPX4 KO) should be more susceptible to ferroptosis after erastin treatment. However, the decrease in cell viability was not as significant as we initially assumed. Based on the lipid peroxidation markers profile and RT-qPCR gene expression analysis, we revealed the activation of an alternative antioxidant system supporting GPX4 KO cells, mostly for cellular ferroptotic death avoidance. Increased expression of FSP1 and PRDX1 genes in knock-out mutants was associated with their function-recognized here as ferroptosis suppressors. For such reasons, studies on the role of GPX4 and other crucial genes from the ferroptotic pathway should be explored. Despite promising prospects, the utilization of ferroptosis mechanisms in cancer therapy remains at the stage of experimental and in vitro preclinical studies.

Published
2023
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29. Insight Into the Dynamics of the Ixodes ricinus Nymphal Midgut Proteome.

Author

Kozelková T, Dyčka F, Lu S, Urbanová V, Frantová H, Sojka D, Šíma R, Horn M, Perner J, and Kopáček P

Subjects
Animals, Proteome, Proteomics, Digestive System, Ixodes parasitology
Abstract

Ticks are ectoparasites that feed on blood and have an impressive ability to consume and process enormous amounts of host blood, allowing extremely long periods of starvation between blood meals. The central role in the parasitic lifestyle of ticks is played by the midgut. This organ efficiently stores and digests ingested blood and serves as the primary interface for the transmission of tick-borne pathogens. In this study, we used a label-free quantitative approach to perform a novel dynamic proteomic analysis of the midgut of Ixodesricinus nymphs, covering their development from unfed to pre-molt stages. We identified 1534 I. ricinus-specific proteins with a relatively low proportion of host proteins. This proteome dataset, which was carefully examined by manual scrutiny, allowed precise annotation of proteins important for blood meal processing and their dynamic changes during nymphal ontogeny. We focused on midgut molecules related to lipid hydrolysis, storage, and transport, opening a yet unexplored avenue for studying lipid metabolism in ticks. Further dynamic profiling of the tick's multi-enzyme digestive network, protease inhibitors, enzymes involved in redox homeostasis and detoxification, antimicrobial peptides, and proteins responsible for midgut colonization by Borrelia spirochetes promises to uncover new targets for targeting tick nymphs, the most critical life stage for transmission the pathogens that cause tick-borne diseases., Competing Interests: Conflict of interest The authors declare no conflict of interest, (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2023
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30. Degrade to survive: the intricate world of piroplasmid proteases.

Author

Florin-Christensen M, Sojka D, Ganzinelli S, Šnebergerová P, Suarez CE, and Schnittger L

Subjects
Animals, Humans, Peptide Hydrolases, Babesia genetics, Piroplasmida, Theileria, Ticks parasitology, Babesiosis parasitology
Abstract

Piroplasmids of the genera Babesia, Theileria, and Cytauxzoon are tick-transmitted parasites with a high impact on animals and humans. They have complex life cycles in their definitive arthropod and intermediate vertebrate hosts involving numerous processes, including invasion of, and egress from, host cells, parasite growth, transformation, and migration. Like other parasitic protozoa, piroplasmids are equipped with different types of protease to fulfill many of such essential processes. Blockade of some key proteases, using inhibitors or antibodies, hinders piroplasmid growth, highlighting their potential usefulness in drug therapies and vaccine development. A better understanding of the functional significance of these enzymes will contribute to the development of improved control measures for the devastating animal and human diseases caused by these pathogens., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2023. Published by Elsevier Ltd.)

Published
2023
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31. Natural Clerodendrum-derived tick repellent: learning from Nepali culture.

Author

Mazuecos L, Contreras M, Kasaija PD, Manandhar P, Grąźlewska W, Guisantes-Batan E, Gomez-Alonso S, Deulofeu K, Fernandez-Moratalla I, Rajbhandari RM, Sojka D, Grubhoffer L, Karmacharya D, Gortazar C, and de la Fuente J

Subjects
Humans, Animals, Plant Extracts pharmacology, Plant Extracts chemistry, Clerodendrum chemistry, Ixodes, Insect Repellents pharmacology, Acaricides
Abstract

Ticks attaching to ear canals of humans and animals are the cause of otoacariasis, common in rural areas of Nepal. The plant Clerodendrum viscosum is used in multiple indigenous systems of medicine by ethnic communities in the Indo-Nepali-Malaysian region. Visiting the Chitwan National Park, we learned that in indigenous medicine, flower extract of C. viscosum is utilized to treat digestive disorders and extracts from leaves as tick repellent to prevent ticks from invading or to remove them from the ear canal. The objective of our study was to provide support to indigenous medicine by characterizing the in vivo effect of leave extracts on ticks under laboratory conditions and its phytochemical composition. We collected plant parts of C. viscosum (leaves and flowers) and mango (Mangifera indica) leaves at the Chitwan National Park, previously associated with repellent activity to characterize their effect on Ixodes ricinus ticks by in vivo bioassays. A Q-ToF high-resolution analysis (HPLC-ESI-QToF) was conducted to elucidate phenolic compounds with potential repellent activity. Clerodendrum viscosum and M. indica leaf extracts had the highest tick repellent efficacy (%E = 80-100%) with significant differences when compared to C. viscosum flowers extracts (%E = 20-60%) and phosphate-buffered saline. Phytochemicals with tick repellent function as caffeic acid, fumaric acid and p-coumaric acid glucoside were identified in C. viscosum leaf extracts by HPLC-ESI-QToF, but not in non-repellent flower extracts. These results support the Nepali indigenous medicine application of C. viscosum leaf extracts to repel ticks. Additional research is needed for the development of natural and green repellent formulations to reduce the risks associated with ticks resistant to acaricides., (© 2023. The Author(s).)

Published
2023
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32. Blood-feeding adaptations and virome assessment of the poultry red mite Dermanyssus gallinae guided by RNA-seq.

Author

Ribeiro JM, Hartmann D, Bartošová-Sojková P, Debat H, Moos M, Šimek P, Fara J, Palus M, Kučera M, Hajdušek O, Sojka D, Kopáček P, and Perner J

Subjects
Animals, Poultry, RNA-Seq, Virome, Chickens, Mite Infestations veterinary, Mite Infestations parasitology, Poultry Diseases, Mites genetics
Abstract

Dermanyssus gallinae is a blood-feeding mite that parasitises wild birds and farmed poultry. Its remarkably swift processing of blood, together with the capacity to blood-feed during most developmental stages, makes this mite a highly debilitating pest. To identify specific adaptations to digestion of a haemoglobin-rich diet, we constructed and compared transcriptomes from starved and blood-fed stages of the parasite and identified midgut-enriched transcripts. We noted that midgut transcripts encoding cysteine proteases were upregulated with a blood meal. Mapping the full proteolytic apparatus, we noted a reduction in the suite of cysteine proteases, missing homologues for Cathepsin B and C. We have further identified and phylogenetically analysed three distinct transcripts encoding vitellogenins that facilitate the reproductive capacity of the mites. We also fully mapped transcripts for haem biosynthesis and the ferritin-based system of iron storage and inter-tissue trafficking. Additionally, we identified transcripts encoding proteins implicated in immune signalling (Toll and IMD pathways) and activity (defensins and thioester-containing proteins), RNAi, and ion channelling (with targets for commercial acaricides such as Fluralaner, Fipronil, and Ivermectin). Viral sequences were filtered from the Illumina reads and we described, in part, the RNA-virome of D. gallinae with identification of a novel virus, Red mite quaranjavirus 1., (© 2023. The Author(s).)

Published
2023
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33. Babesia, Theileria, Plasmodium and Hemoglobin.

Author

Sojka D, Jalovecká M, and Perner J

Abstract

The Propagation of Plasmodium spp. and Babesia / Theileria spp. vertebrate blood stages relies on the mediated acquisition of nutrients available within the host's red blood cell (RBC). The cellular processes of uptake, trafficking and metabolic processing of host RBC proteins are thus crucial for the intraerythrocytic development of these parasites. In contrast to malarial Plasmodia , the molecular mechanisms of uptake and processing of the major RBC cytoplasmic protein hemoglobin remain widely unexplored in intraerythrocytic Babesia/Theileria species. In the paper, we thus provide an updated comparison of the intraerythrocytic stage feeding mechanisms of these two distantly related groups of parasitic Apicomplexa. As the associated metabolic pathways including proteolytic degradation and networks facilitating heme homeostasis represent attractive targets for diverse antimalarials, and alterations in these pathways underpin several mechanisms of malaria drug resistance, our ambition is to highlight some fundamental differences resulting in different implications for parasite management with the potential for novel interventions against Babesia / Theileria infections.

Published
2022
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34. Plasmepsin-like Aspartyl Proteases in Babesia .

Author

Šnebergerová P, Bartošová-Sojková P, Jalovecká M, and Sojka D

Abstract

Apicomplexan genomes encode multiple pepsin-family aspartyl proteases (APs) that phylogenetically cluster to six independent clades (A to F). Such diversification has been powered by the function-driven evolution of the ancestral apicomplexan AP gene and is associated with the adaptation of various apicomplexan species to different strategies of host infection and transmission through various invertebrate vectors. To estimate the potential roles of Babesia APs, we performed qRT-PCR-based expressional profiling of Babesia microti APs (BmASP2, 3, 5, 6), which revealed the dynamically changing mRNA levels and indicated the specific roles of individual BmASP isoenzymes throughout the life cycle of this parasite. To expand on the current knowledge on piroplasmid APs, we searched the EuPathDB and NCBI GenBank databases to identify and phylogenetically analyse the complete sets of APs encoded by the genomes of selected Babesia and Theileria species. Our results clearly determine the potential roles of identified APs by their phylogenetic relation to their homologues of known function- Plasmodium falciparum plasmepsins (PfPM I-X) and Toxoplasma gondii aspartyl proteases (TgASP1-7). Due to the analogies with plasmodial plasmepsins, piroplasmid APs represent valuable enzymatic targets that are druggable by small molecule inhibitors-candidate molecules for the yet-missing specific therapy for babesiosis.

Published
2021
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35. Protease Inhibition-An Established Strategy to Combat Infectious Diseases.

Author

Sojka D, Šnebergerová P, and Robbertse L

Subjects
Aspartic Acid Endopeptidases metabolism, COVID-19 enzymology, COVID-19 metabolism, Humans, Malaria enzymology, Malaria metabolism, Plasmodium falciparum pathogenicity, SARS-CoV-2 pathogenicity, Drug Development methods, Malaria drug therapy, Plasmodium falciparum drug effects, Protease Inhibitors pharmacology, Proteasome Endopeptidase Complex drug effects, SARS-CoV-2 drug effects, COVID-19 Drug Treatment
Abstract

Therapeutic agents with novel mechanisms of action are urgently needed to counter the emergence of drug-resistant infections. Several decades of research into proteases of disease agents have revealed enzymes well suited for target-based drug development. Among them are the three recently validated proteolytic targets: proteasomes of the malarial parasite Plasmodium falciparum, aspartyl proteases of P. falciparum (plasmepsins) and the Sars-CoV-2 viral proteases. Despite some unfulfilled expectations over previous decades, the three reviewed targets clearly demonstrate that selective protease inhibitors provide effective therapeutic solutions for the two most impacting infectious diseases nowadays-malaria and COVID-19.

Published
2021
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36. Mialostatin, a Novel Midgut Cystatin from Ixodes ricinus Ticks: Crystal Structure and Regulation of Host Blood Digestion.

Author

Kotál J, Buša M, Urbanová V, Řezáčová P, Chmelař J, Langhansová H, Sojka D, Mareš M, and Kotsyfakis M

Subjects
Amino Acid Sequence, Animals, Cathepsin L metabolism, Female, Male, Mice, Mice, Inbred BALB C, Phylogeny, Proteolysis, Blood Proteins metabolism, Cystatins metabolism, Digestive System metabolism, Ixodes metabolism, Ticks metabolism
Abstract

The hard tick Ixodes ricinus is a vector of Lyme disease and tick-borne encephalitis. Host blood protein digestion, essential for tick development and reproduction, occurs in tick midgut digestive cells driven by cathepsin proteases. Little is known about the regulation of the digestive proteolytic machinery of I. ricinus . Here we characterize a novel cystatin-type protease inhibitor, mialostatin, from the I. ricinus midgut. Blood feeding rapidly induced mialostatin expression in the gut, which continued after tick detachment. Recombinant mialostatin inhibited a number of I. ricinus digestive cysteine cathepsins, with the greatest potency observed against cathepsin L isoforms, with which it co-localized in midgut digestive cells. The crystal structure of mialostatin was determined at 1.55 Å to explain its unique inhibitory specificity. Finally, mialostatin effectively blocked in vitro proteolysis of blood proteins by midgut cysteine cathepsins. Mialostatin is likely to be involved in the regulation of gut-associated proteolytic pathways, making midgut cystatins promising targets for tick control strategies.

Published
2021
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37. Comparison of the hemolysis machinery in two evolutionarily distant blood-feeding arthropod vectors of human diseases.

Author

Dorrah M, Bensaoud C, Mohamed AA, Sojka D, Bassal TTM, and Kotsyfakis M

Subjects
Animals, Arthropods, Culex, Culicidae, Digestive System, Erythrocytes, Female, Hematologic Tests, Hemolysin Proteins, Humans, Mosquito Vectors physiology, Arthropod Vectors physiology, Feeding Behavior physiology, Hemolysis
Abstract

Host blood protein digestion plays a pivotal role in the ontogeny and reproduction of hematophagous vectors. The gut of hematophagous arthropods stores and slowly digests host blood and represents the primary gateway for transmitted pathogens. The initial step in blood degradation is induced lysis of host red blood cells (hemolysis), which releases hemoglobin for subsequent processing by digestive proteolytic enzymes. The activity cycles and characteristics of hemolysis in vectors are poorly understood. Hence, we investigated hemolysis in two evolutionarily distant blood-feeding arthropods: The mosquito Culex pipiens and the soft tick Argas persicus, both of which are important human and veterinary disease vectors. Hemolysis in both species was cyclical after blood meal ingestion. Maximum digestion occurs under slightly alkaline conditions in females. Hemolytic activity appears to be of lipoid origin in C. pipiens and enzymatic activity (proteolytic) in A. persicus. We have assessed the effect of pH, incubation time, and temperature on hemolytic activity and the hemolysin. The susceptibility of red blood cells from different hosts to the hemolysin and the effect of metabolic inhibition of hemolytic activity were assessed. We conclude that in C. pipiens and A. persicus midgut hemolysins control the amplitude of blood lysis step to guarantee an efficient blood digestion., Competing Interests: The authors have declared that no competing interests exist.

Published
2021
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38. Design, synthesis, and in vitro evaluation of aza-peptide aldehydes and ketones as novel and selective protease inhibitors.

Author

Corrigan TS, Lotti Diaz LM, Border SE, Ratigan SC, Kasper KQ, Sojka D, Fajtova P, Caffrey CR, Salvesen GS, McElroy CA, Hadad CM, and Doğan Ekici Ö

Subjects
Aldehydes chemistry, Animals, Aza Compounds chemistry, Cattle, Crystallography, X-Ray, Cysteine Endopeptidases metabolism, Dose-Response Relationship, Drug, Humans, Ketones chemistry, Models, Molecular, Molecular Structure, Peptides chemistry, Protease Inhibitors chemical synthesis, Protease Inhibitors chemistry, Proteasome Endopeptidase Complex metabolism, Structure-Activity Relationship, Aldehydes pharmacology, Aza Compounds pharmacology, Drug Design, Ketones pharmacology, Peptides pharmacology, Protease Inhibitors pharmacology
Abstract

Aza-peptide aldehydes and ketones are a new class of reversible protease inhibitors that are specific for the proteasome and clan CD cysteine proteases. We designed and synthesised aza-Leu derivatives that were specific for the chymotrypsin-like active site of the proteasome, aza-Asp derivatives that were effective inhibitors of caspases-3 and -6, and aza-Asn derivatives that inhibited S. mansoni and I. ricinus legumains. The crystal structure of caspase-3 in complex with our caspase-specific aza-peptide methyl ketone inhibitor with an aza-Asp residue at P1 revealed a covalent linkage between the inhibitor carbonyl carbon and the active site cysteinyl sulphur. Aza-peptide aldehydes and ketones showed no cross-reactivity towards cathepsin B or chymotrypsin. The initial in vitro selectivity of these inhibitors makes them suitable candidates for further development into therapeutic agents to potentially treat multiple myeloma, neurodegenerative diseases, and parasitic infections.

Published
2020
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39. Babesia Life Cycle - When Phylogeny Meets Biology.

Author

Jalovecka M, Sojka D, Ascencio M, and Schnittger L

Subjects
Animals, Babesia genetics, Genes, Protozoan genetics, Humans, Piroplasmida classification, Piroplasmida genetics, Piroplasmida growth & development, Babesia classification, Babesia growth & development, Babesiosis parasitology, Life Cycle Stages genetics, Phylogeny
Abstract

Although Babesia represents an important worldwide veterinary threat and an emerging risk to humans, this parasite has been poorly studied as compared to Plasmodium, its malaria-causing relative. In fact, Babesia employs highly specific survival strategies during its intraerythrocytic development and its intricate journey through the tick vector. This review introduces a substantially extended molecular phylogeny of the order Piroplasmida, challenging previous taxonomic classifications. The intriguing developmental proficiencies of Babesia are highlighted and compared with those of other haemoparasitic Apicomplexa. Molecular mechanisms associated with distinctive events in the Babesia life cycle are emphasized as potential targets for the development of Babesia-specific treatments., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published
2019
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40. 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
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41. 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
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42. Novel Structural Mechanism of Allosteric Regulation of Aspartic Peptidases via an Evolutionarily Conserved Exosite.

Author

Hánová I, Brynda J, Houštecká R, Alam N, Sojka D, Kopáček P, Marešová L, Vondrášek J, Horn M, Schueler-Furman O, and Mareš M

Subjects
Allosteric Regulation, Amino Acid Sequence, Animals, Catalytic Domain, Cathepsin D chemistry, Crystallography, X-Ray, Enzyme Activation, Enzyme Precursors chemistry, Enzyme Precursors metabolism, Hydrogen-Ion Concentration, Kinetics, Ligands, Peptides chemistry, Peptides metabolism, Sequence Alignment, Cathepsin D metabolism, Ticks enzymology
Abstract

Pepsin-family aspartic peptidases are biosynthesized as inactive zymogens in which the propeptide blocks the active site until its proteolytic removal upon enzyme activation. Here, we describe a novel dual regulatory function for the propeptide using a set of crystal structures of the parasite cathepsin D IrCD1. In the IrCD1 zymogen, intramolecular autoinhibition by the intact propeptide is mediated by an evolutionarily conserved exosite on the enzyme core. After activation, the mature enzyme employs the same exosite to rebind a small fragment derived from the cleaved propeptide. This fragment functions as an effective natural inhibitor of mature IrCD1 that operates in a pH-dependent manner through a unique allosteric inhibition mechanism. The study uncovers the propeptide-binding exosite as a target for the regulation of pepsin-family aspartic peptidases and defines the structural requirements for exosite inhibition., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published
2018
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43. Multiple legumain isoenzymes in ticks.

Author

Hartmann D, Šíma R, Konvičková J, Perner J, Kopáček P, and Sojka D

Subjects
Amino Acid Sequence, Animals, Arachnid Vectors enzymology, Arthropod Proteins classification, Arthropod Proteins genetics, Base Sequence, Cloning, Molecular, Cysteine Endopeptidases classification, Cysteine Endopeptidases genetics, Female, Gene Expression Regulation, Enzymologic, Isoenzymes, Male, Models, Molecular, Protein Conformation, Rabbits, Recombinant Proteins immunology, Tick Infestations prevention & control, Arthropod Proteins metabolism, Cysteine Endopeptidases metabolism, Ixodes enzymology, Tick Infestations veterinary, Vaccines immunology
Abstract

By searching nucleotide databases for the North American Lyme disease vector, Ixodes scapularis, we have complemented the previously characterized European Ixodes ricinus legumain IrAE1 with a full set of nine analogous genes (isae1-9). Six of these were PCR confirmed as genes present in all tick genomes tested. The absolute mRNA copy number examined by quantitative (q)PCR enabled expression profiling and an absolute comparison of mRNA levels for individual I. scapularis (Is)AEs in tick tissues. Four IsAEs (1, 2, 4, 9) were expressed solely in the gut and thus are proposed to be involved in host blood digestion. Expression qPCR profiling over developmental stages confirmed IsAE1, the direct analogue of previously characterized I. ricinus IrAE1, as the principle legumain transcript in partially engorged females, and demonstrated its strong regulation by on-host feeding in larvae, nymphs and females. In contrast, IsAE2 was the predominant gut legumain in unfed nymphs, unfed females and males. In-silico, IsAE1 and IsAE2 protein three-dimensional structural models displayed minimal differences in overall proenzyme structures, even in comparison with recently resolved crystal structures of mammalian prolegumain. Three functional studies were performed in I. ricinus with IsAE1/IsAE2 analogues: double IrAE1/IrAE2 RNA interference silencing, feeding of ticks on IrAE1+IrAE2 immunized hosts and in vitro membrane tick feeding on blood containing a legumain-specific inhibitor. The latter experiment led to reduced weights of fully engorged ticks and limited oviposition, and indicated the potential of legumain inhibitors for novel anti-tick interventions., (Copyright © 2017 Australian Society for Parasitology. Published by Elsevier Ltd. All rights reserved.)

Published
2018
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44. Parasite Cathepsin D-Like Peptidases and Their Relevance as Therapeutic Targets.

Author

Sojka D, Hartmann D, Bartošová-Sojková P, and Dvořák J

Subjects
Animals, Antiparasitic Agents pharmacology, Enzyme Inhibitors pharmacology, Parasitic Diseases enzymology, Protein Transport genetics, Antiparasitic Agents therapeutic use, Drug Delivery Systems, Parasites enzymology, Parasitic Diseases drug therapy, Peptide Hydrolases metabolism
Abstract

Inhibition of aspartic cathepsin D-like peptidases (APDs) has been often discussed as an antiparasite intervention strategy. APDs have been considered as virulence factors of Trypanosoma cruzi and Leishmania spp., and have been demonstrated to have important roles in protein trafficking mechanisms of apicomplexan parasites. APDs also initiate blood digestion as components of multienzyme proteolytic complexes in malaria, platyhelminths, nematodes, and ticks. Increasing DNA and RNA sequencing data indicate that parasites express multiple APD isoenzymes of various functions that can now be specifically evaluated using new functional-genomic and biochemical tools, from which we can further assess the potential of APDs as targets for novel effective intervention strategies against parasitic diseases that still pose an alarming threat to mankind., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published
2016
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45. Multienzyme degradation of host serum albumin in ticks.

Author

Sojka D, Pytelková J, Perner J, Horn M, Konvičková J, Schrenková J, Mareš M, and Kopáček P

Subjects
Animals, Female, Gene Expression Profiling, Hemoglobins metabolism, Hydrogen-Ion Concentration, Aspartic Acid Proteases metabolism, Cysteine Proteases metabolism, Ixodes enzymology, Proteolysis, Serum Albumin metabolism
Abstract

Host blood proteins, represented mainly by hemoglobin and serum albumin, serve as the ultimate source of amino acids needed for de novo protein synthesis during tick development and reproduction. While uptake and processing of hemoglobin by tick gut cells have been studied in detail, molecular mechanisms of host serum albumin degradation remain unknown. In this work, we have used artificial membrane feeding of Ixodes ricinus females on a hemoglobin-free diet in order to characterize the proteolytic machinery involved in albuminolysis. Morphological comparisons of ticks fed on whole blood (BF) and serum (SF) at microscopic and ultrastructural levels showed that albumin and hemoglobin have different trafficking routes in tick gut cells. Analysis in vitro with selective inhibitors demonstrated that albumin is degraded at an acidic pH by a network of cysteine and aspartic peptidases with predominant involvement of cysteine cathepsins having endo- and exopeptidase activities. The cleavage map of albumin and the roles of individual peptidases in albumin degradation were determined. These results indicate that the albuminolytic pathway is controlled by the same proteolytic system that is responsible for hemoglobinolysis. This was further supported by the overall similarity of gut peptidase profiles in SF and BF ticks at the transcriptional and enzymatic activity levels. In conclusion, our work provides evidence that although hemoglobin and albumin are transported differentially during heterophagy they are digested by a common multienzyme proteolytic network. This central digestive system, critical for successful blood feeding in tick females, thus represents a valuable target for novel anti-tick interventions., (Copyright © 2016. Published by Elsevier GmbH.)

Published
2016
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46. 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
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47. Fundamental Roles of the Golgi-Associated Toxoplasma Aspartyl Protease, ASP5, at the Host-Parasite Interface.

Author

Hammoudi PM, Jacot D, Mueller C, Di Cristina M, Dogga SK, Marq JB, Romano J, Tosetti N, Dubrot J, Emre Y, Lunghi M, Coppens I, Yamamoto M, Sojka D, Pino P, and Soldati-Favre D

Subjects
Animals, Blotting, Western, Cells, Cultured, Enzyme-Linked Immunosorbent Assay, Fluorescent Antibody Technique, Gene Knockout Techniques, Humans, Mice, Mice, Inbred C57BL, Microscopy, Electron, Transmission, Molecular Sequence Data, Protein Transport, Real-Time Polymerase Chain Reaction, Toxoplasma enzymology, Transfection, Aspartic Acid Proteases metabolism, Golgi Apparatus enzymology, Host-Parasite Interactions physiology, Toxoplasma pathogenicity, Toxoplasmosis enzymology
Abstract

Toxoplasma gondii possesses sets of dense granule proteins (GRAs) that either assemble at, or cross the parasitophorous vacuole membrane (PVM) and exhibit motifs resembling the HT/PEXEL previously identified in a repertoire of exported Plasmodium proteins. Within Plasmodium spp., cleavage of the HT/PEXEL motif by the endoplasmic reticulum-resident protease Plasmepsin V precedes trafficking to and export across the PVM of proteins involved in pathogenicity and host cell remodelling. Here, we have functionally characterized the T. gondii aspartyl protease 5 (ASP5), a Golgi-resident protease that is phylogenetically related to Plasmepsin V. We show that deletion of ASP5 causes a significant loss in parasite fitness in vitro and an altered virulence in vivo. Furthermore, we reveal that ASP5 is necessary for the cleavage of GRA16, GRA19 and GRA20 at the PEXEL-like motif. In the absence of ASP5, the intravacuolar nanotubular network disappears and several GRAs fail to localize to the PVM, while GRA16 and GRA24, both known to be targeted to the host cell nucleus, are retained within the vacuolar space. Additionally, hypermigration of dendritic cells and bradyzoite cyst wall formation are impaired, critically impacting on parasite dissemination and persistence. Overall, the absence of ASP5 dramatically compromises the parasite's ability to modulate host signalling pathways and immune responses.

Published
2015
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48. Cell type-dependent modulation of the gene encoding heat shock protein HSPA2 by hypoxia-inducible factor HIF-1: Down-regulation in keratinocytes and up-regulation in HeLa cells.

Author

Habryka A, Gogler-Pigłowska A, Sojka D, Kryj M, Krawczyk Z, and Scieglinska D

Subjects
HeLa Cells, Humans, Promoter Regions, Genetic, Down-Regulation physiology, HSP70 Heat-Shock Proteins genetics, Hypoxia-Inducible Factor 1, alpha Subunit physiology, Keratinocytes metabolism, Up-Regulation physiology
Abstract

HSPA2 belongs to the multigene HSPA family, whose members encode chaperone proteins. Although expression and function of HSPA2 is mainly associated with spermatogenesis, recent studies demonstrated that in humans, the gene is active in various cancers, as well as in normal tissues, albeit in a cell type-specific manner. In the epidermis, HSPA2 is expressed in keratinocytes in the basal layer. Currently, the mechanisms underlying the regulation of HSPA2 expression remain unknown. This study was aimed at determining whether HIF-1 and its binding site, the hypoxia-response element (HRE) located in the HSPA2 promoter, are involved in HSPA2 regulation. As a model system, we used an immortal human keratinocyte line (HaCaT) and cervical cancer cells (HeLa) grown under control or hypoxic conditions. Using an in vitro gene reporter assay, we demonstrated that in keratinocytes HSPA2 promoter activity is reduced under conditions that facilitate stabilization of HIF-1α, whereas HIF-1 inhibitors abrogated the suppressive effect of hypoxia on promoter activity. Chromatin immunoprecipitation revealed that HIF-1α binds to the HSPA2 promoter. In keratinocytes, hypoxia or overexpression of a stable form of HIF-1α attenuated the expression of endogenous HSPA2, whereas targeted repression of HIF-1α by RNAi increased transcription of HSPA2 under hypoxia. Conversely, in HeLa cells, HSPA2 expression increased under conditions that stimulated HIF-1α activity, whereas inhibition of HIF-1α abrogated hypoxia-induced up-regulation of HSPA2 expression. Taken together, our results demonstrate that HIF-1 can exert differential, cell context-dependent regulatory control of the HSPA2 gene. Additionally, we also showed that HSPA2 expression can be stimulated during hypoxia/reoxygenation stress., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published
2015
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49. New insights into the machinery of blood digestion by ticks.

Author

Sojka D, Franta Z, Horn M, Caffrey CR, Mareš M, and Kopáček P

Subjects
Animals, Digestion physiology, Gastrointestinal Tract enzymology, Blood Proteins metabolism, Ticks physiology
Abstract

Blood-protein digestion is a key physiological process providing essential nutrients for ticks and is a prerequisite for the transmission of tick-borne pathogens. Recently, substantial progress has been made in determining the proteolytic machinery in tick gut tissue, which is based on a dynamic multienzyme network capable of processing a vast amount of host blood. In this article we summarize our current knowledge of the molecular mechanisms of tick hematophagy and their similarities to those of Platyhelminthes, nematodes, and Plasmodium. Future research perspectives, including the potential for rational control of ticks and transmitted diseases, are also discussed., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published
2013
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50. Characterization of gut-associated cathepsin D hemoglobinase from tick Ixodes ricinus (IrCD1).

Author

Sojka D, Franta Z, Frantová H, Bartosová P, Horn M, Váchová J, O'Donoghue AJ, Eroy-Reveles AA, Craik CS, Knudsen GM, Caffrey CR, McKerrow JH, Mares M, and Kopácek P

Subjects
Animals, Arthropod Proteins genetics, Cathepsin D genetics, Genome physiology, Hemoglobins genetics, Ixodes genetics, Recombinant Proteins genetics, Recombinant Proteins metabolism, Transcription, Genetic physiology, Arthropod Proteins metabolism, Cathepsin D metabolism, Hemoglobins metabolism, Intestines enzymology, Ixodes enzymology, Protein Processing, Post-Translational physiology
Abstract

To identify the gut-associated tick aspartic hemoglobinase, this work focuses on the functional diversity of multiple Ixodes ricinus cathepsin D forms (IrCDs). Out of three encoding genes representing Ixodes scapularis genome paralogs, IrCD1 is the most distinct enzyme with a shortened propeptide region and a unique pattern of predicted post-translational modifications. IrCD1 gene transcription is induced by tick feeding and is restricted to the gut tissue. The hemoglobinolytic role of IrCD1 was further supported by immunolocalization of IrCD1 in the vesicles of tick gut cells. Properties of recombinantly expressed rIrCD1 are consistent with the endo-lysosomal environment because the zymogen is autoactivated and remains optimally active in acidic conditions. Hemoglobin cleavage pattern of rIrCD1 is identical to that produced by the native enzyme. The preference for hydrophobic residues at the P1 and P1' position was confirmed by screening a novel synthetic tetradecapeptidyl substrate library. Outside the S1-S1' regions, rIrCD1 tolerates most amino acids but displays a preference for tyrosine at P3 and alanine at P2'. Further analysis of the cleavage site location within the peptide substrate indicated that IrCD1 is a true endopeptidase. The role in hemoglobinolysis was verified with RNAi knockdown of IrCD1 that decreased gut extract cathepsin D activity by >90%. IrCD1 was newly characterized as a unique hemoglobinolytic cathepsin D contributing to the complex intestinal proteolytic network of mainly cysteine peptidases in ticks.

Published
2012
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