Your search keyword '"tick cells"' showing total 15 results

1. Rickettsial pathogen augments tick vesicular-associated membrane proteins for infection and survival in the vector host.

Author

Namjoshi P, Kolape J, Patel A, Sultana H, and Neelakanta G

Abstract

Anaplasma phagocytophilum is an obligate intracellular rickettsial pathogen that infects humans and animals. The black-legged tick Ixodes scapularis acts as a vector and transmits this bacterium to the vertebrate host. Upon entry into a host cell, A. phagocytophilum resides and multiplies in a host-derived vacuole called morulae. There is not much information available on the molecules that play an important role(s) in A. phagocytophilum entry and formation of these morulae in tick cells. In this study, we provide evidence that tick vesicular-associated membrane proteins, VAMP3 and VAMP4, play important roles in this phenomenon. Quantitative real-time polymerase chain reaction (QRT-PCR) analysis showed that both vamp3 and vamp4 transcripts are significantly upregulated at early time points of A. phagocytophilum infection in tick cells. We noted that both VAMP3 and VAMP4 predominantly localized to the A. phagocytophilum -containing vacuole. RNAi-mediated silencing of vamp3 and/or vamp4 expression, followed by confocal microscopy and expression analysis, indicated an impairment in A. phagocytophilum morulae formation in tick cells. We also noted that VAMP3 and VAMP4 play a role in the A. phagocytophilum persistent infection of ticks and tick cells. Furthermore, RNAi-mediated silencing of expression of arthropod vamp3 and vamp4 affected bacterial acquisition from an infected murine host to ticks. Collectively, this study not only provides evidence on the role of arthropod vesicular-associated membrane proteins in A. phagocytophilum morulae formation in tick cells but also demonstrates that these proteins are important for bacterial acquisition from an infected vertebrate host into ticks., Importance: Anaplasma phagocytophilu m is a tick-borne pathogen primarily transmitted by black-legged Ixodes scapularis ticks to humans and animals. This bacterium enters host cells, forms a host-derived vacuole, and multiplies within this vacuole. The molecules that are critical in the formation of host-derived vacuole in tick cells is currently not well-characterized. In this study, we provide evidence that arthropod vesicular-associated membrane proteins, VAMP3 and VAMP4, are critical for A. phagocytophilum early and persistent infection in tick cells. These arthropod proteins are important for the formation of host-derived vacuoles in tick cells. Our study also provides evidence that these proteins are important for A. phagocytophilum acquisition from the infected murine host into ticks. Characterization of tick molecules important in bacterial entry and/or survival in the vector host could lead to the development of strategies to target this and perhaps other rickettsial pathogens.

Published

2025

2. Molecular and antigenic characterisation of Ehrlichia ruminantium in Amblyomma variegatum ticks and in vitro cultures

Author

Postigo, Milagros, Postigo Mercades, Maria Milagros, Morrison, Ivan, and Welburn, Sue

Subjects

591.9857, heartwater, ticks, Ehrlichia ruminantiu, tick cells

Abstract

The rickettsial pathogen Ehrlichia ruminantium, transmitted by ticks of the genus Amblyomma, causes heartwater, an economically important, often fatal disease of domestic and wild ruminants in sub-Saharan Africa and in the Caribbean. The studies described in this thesis have contributed to understanding several aspects of heartwater. First, a real-time PCR method was developed in order to study the kinetics of infection with E. ruminantium in the mammalian host. The assay was validated for specificity and sensitivity and was used to estimate numbers of the organisms in the blood of infected sheep. However, organisms were only detected during the clinical phase of infection, indicating that the way in which it was applied did not provide sufficient sensitivity to follow the early stages of infection. This PCR assay was then used, together with transcription and proteomic analyses, to investigate differential gene expression of E. ruminantium in the arthropod and mammalian hosts, in order to identify genes that may allow the organisms to successfully adapt to different environments. These studies used in vitro tick and mammalian cell culture systems, as well as tissues from infected A. variegatum ticks, and initially focused on the map1 multigene family. Although transcripts for most of the map1 paralogs were detected in organisms grown in vitro, in both mammalian and tick cells, only transcripts from map1 and map1-1 were detected in infected ticks. Moreover, map1-1 transcripts were more abundant in midguts than in salivary glands whereas map1 transcripts were most abundant in salivary glands and were expressed at higher levels following several days of tick feeding on a mammalian host. Because of the quantities of material required, proteomic analysis was only possible using in vitro-cultured organisms. Comparison of proteins encoded by the map1 cluster in E. ruminantium grown in tick or bovine endothelial cell cultures, using 2D gels and MALDI-TOF analysis, revealed that different proteins predominated in the corresponding spots in 2D gels from the different cultures; products of the map1-1 gene were abundant in tick cells, while products of map1 were abundant in endothelial cells. The detection of higher levels of map1 transcripts in salivary glands than in midguts of infected ticks, together with the presence of abundant MAP1 protein in organisms grown in mammalian but not in tick cell lines, suggest that expression of this protein may be associated with infectivity for mammalian cells. In contrast, map1-1 transcripts were abundant both in midguts of infected ticks and in tick cell lines, and the protein was expressed at high levels in infected tick cell cultures. Since both of these stages have low infectivity for sheep, these results suggest that the MAP1-1 protein may play an important role within the vector, possibly associated with colonisation and replication of E. ruminantium in the tick midgut. Collectively these findings suggest that this multigene family is involved in functions of biological relevance in different stages of the life cycle of E. ruminantium. Lastly the suppression subtractive hybridisation (SSH) technique was applied to RNA extracted from E. ruminantium-infected endothelial and tick cell cultures in an attempt to sample a large portion of the E. ruminantium genome for differentially expressed genes; although not resulting in identification of any differentially transcribed genes in the present study, this method was shown to work in principle.

Published

2007

3. In vitro cultivation of Anaplasma marginale and A. phagocytophilum in tick cell lines: a review Cultivo in vitro de Anaplasma marginale e A. phagocytophilum em células de carrapatos: uma revisão

Author

Lygia Maria Friche Passos

Subjects

Células de carrapatos, Anaplasma marginale, Anaplasma phagocytophilum, cultivo in vitro, revisão, Tick cells, in vitro culture, review, Animal culture, SF1-1100

Abstract

Continuous cell lines have been established from several ixodid and argasid tick species, representing an excellent tool suitable for the isolation of pathogens and their subsequent propagation, which in turn allows the production of antigenic material for diagnostic tests, antibody and vaccine production, and also for studies on host-vector-pathogen relationships. This paper reviews the use of tick cells for culture initiation and maintenance of two obligate intracellular bacterial pathogens, Anaplasma marginale and Anaplasma phagocytophilum. These in vitro cultivation systems have been used in a wide range of studies, covering morphological ultrastructural analysis, genetics, proteomics and biological differences between strains, including genome transcriptional and protein expression approaches, enabling comparisons between host and vector cells. Thus, such systems open a new window for a better understanding of interactions between pathogens and tick cells. Last but not least, such systems contribute to the reduction in usage of animals for experimental research, as antigenic material can be produced in reasonably large quantities without the use of in vivo species-specific systems.Linhagens contínuas de células já foram estabelecidas a partir de várias espécies de carrapatos ixodídeos e argasídeos e representam uma ferramenta excelente para o isolamento e propagação de patógenos, permitindo a produção de material antigênico para testes diagnósticos, produção de anticorpos e vacinas, e também para estudos das relações entre hospedeiro-vetor-patógenos. Este artigo revisa o uso de células de carrapatos para estabelecimento e manutenção in vitro de dois patógenos intracelulares, Anaplasma marginale e Anaplasma phagocytophilum. Estes sistemas de cultivo in vitro, têm sido utilizados em vários estudos, tais como análises morfológicas, genéticas, proteômicas e estudos diferenciais entre isolados, incluindo genômica transcricional e expressões proteicas, permitindo comparações entre células dos hospedeiros e dos vetores. Tais sistemas constituem, portanto, uma nova abordagem para melhor entendimento das relações entre patógenos e células de carrapatos. Além disso, tais sistemas contribuem para a redução do uso de animais de experimentação, uma vez que permitem a produção de grandes quantidades de material antigênico sem o uso de sistemas espécie-específicos in vivo.

Published

2012

4. Interaction of tick-borne encephalitis virus with host and vector cells

Author

TYKALOVÁ, Hana

Subjects

transcriptomic, tick-borne encephalitis virus, translational shut-off, RNAi pathway, neural cells, quasispecies, tick cells, transcriptional shut-off, proteomics, immune response

Abstract

The proposed thesis deals with the various aspects of tick-borne encephalitis virus infection in the host and the vector on the cellular level. It uncovers transcriptomic and proteomic responses in infected cells in the human neurons and astrocytes, and vector cells. It identifies the subgenomic flaviviral RNA as an important pathogenesis effector that can interfere with the vector RNAi pathway, and at the same time denotes the components of this pathway. It also describes the phenomenon of impairment of host protein and rRNA synthesis upon TBEV infection. Moreover, it uncovers the importance of quasispecies in the adaptation to vector and host cells.

Published

2022

5. Manutenção in vitro de células IDE8 em dois tipos de soro bovino In vitro maintenance of IDE8 cells using two types of bovine serum

Author

C.V. Bastos, M.M.C. Vasconcelos, M.F.B. Ribeiro, and L.M.F. Passos

Subjects

bovino, IDE8, cultivo in vitro, células de carrapato, soro fetal bovino, bovine, in vitro culture, tick cells, fetal bovine serum, Animal culture, SF1-1100

Abstract

The present study had the objective of defining the culture conditions, optimizing the maintenance and expansion of an IDE-8 cell line in Brazil, with the aim to propose its use as a model for in vitro infection and multiplication of Brazilian strains of rickettsia and other hemoparasites. The supplementation of IDE-8 cells with two distinct fetal bovine sera (a Brazilian and an imported) was evaluated. Culture media were changed weekly and subcultures were carried out every 15 days. The development of cultures and subcultures was evaluated by the percentage of viability and cellular morphology. The results indicate that the imported SFB can be replaced by the Brazilian SFB one, as no significant differences (P

Published

2007

6. Transgene expression in tick cells using Agrobacterium tumefaciens.

Author

Machado-Ferreira, Erik, Balsemão-Pires, Emilia, Dietrich, Gabrielle, Hojgaard, Andrias, Vizzoni, Vinicius, Scoles, Glen, Bell-Sakyi, Lesley, Piesman, Joseph, Zeidner, Nordin, and Soares, Carlos

Subjects

TRANSGENE expression, AGROBACTERIUM tumefaciens, CONFOCAL microscopy, IXODES scapularis, MESSENGER RNA

Abstract

Ticks transmit infectious agents to humans and other animals. Genetic manipulation of vectors like ticks could enhance the development of alternative disease control strategies. Transgene expression using the phytopathogen Agrobacterium tumefaciens has been shown to promote the genetic modification of non-plant cells. In the present work we developed T-DNA constructs for A. tumefaciens to mediate transgene expression in HeLa cells as well as Rhipicephalus microplus tick cells. Translational fusions eGfp: eGfp or Salp15: eGfp, including the enhanced-green fluorescent protein and the Ixodes scapularis salivary factor SALP15 genes, were constructed using the CaMV 35S (cauliflower mosaic virus) promoter, 'PBm' tick promoter ( R. microplus pyrethroid metabolizing esterase gene) or the Simian Virus SV40 promoter. Confocal microscopy, RT-PCR and Western-blot assays demonstrated transgene(s) expression in both cell lines. Transgene expression was also achieved in vivo, in both R. microplus and I. scapularis larvae utilizing a soaking method including the A. tumefaciens donor cells and confirmed by nested-RT-PCR showing eGfp or Salp15 poly-A-mRNA(s). This strategy opens up a new avenue to express exogenous genes in ticks and represents a potential breakthrough for the study of tick-host pathophysiology. [ABSTRACT FROM AUTHOR]

Published

2015

7. An Entry-Triggering Protein of Ehrlichia Is a New Vaccine Candidate against Tick-Borne Human Monocytic Ehrlichiosis

Author

Mariella Mestres-Villanueva, Mingqun Lin, Khemraj Budachetri, Yasuko Rikihisa, Omid Teymournejad, Guy Brock, and Qi Yan

Subjects

Male, dogs, animal diseases, 030231 tropical medicine, Tick, immunization, Microbiology, Monocytes, Cell Line, Amblyomma americanum, 03 medical and health sciences, Interferon-gamma, 0302 clinical medicine, Ticks, Antigen, Bacterial Proteins, Virology, parasitic diseases, ISCOM, Ehrlichia chaffeensis, Animals, Humans, neutralizing antibodies, EtpE, 030304 developmental biology, 0303 health sciences, biology, Ehrlichia, Vaccination, Ehrlichiosis, Therapeutics and Prevention, biology.organism_classification, bacterial infections and mycoses, human monocytic ehrlichiosis, QR1-502, Specific Pathogen-Free Organisms, interferon gamma, Immunization, Ehrlichiosis (canine), tick cells, Bacterial Vaccines, bacteria, tick-borne pathogens, Female, Research Article

Abstract

The incidence of tick-borne diseases has risen dramatically in the past two decades and continues to rise. Discovered in 1986 and designated a nationally notifiable disease in 1998 by the Centers for Disease Control and Prevention, human monocytic ehrlichiosis, which is caused by the bacterium Ehrlichia chaffeensis, is one of the most prevalent, life-threatening, emerging tick-borne zoonoses in the United States. We investigated the role of the E. chaffeensis protein EtpE in transmission of the bacterium from tick to human cells and in vaccinated dogs with EtpE to assess the efficacy of vaccination against E. chaffeensis-infected tick challenge. Our results help fill gaps in our understanding of E. chaffeensis-derived protective antigens that could be used in a candidate vaccine for immunization of humans to counter tick-transmitted ehrlichiosis., Ehrlichia chaffeensis is an obligatory intracellular bacterium that causes human monocytic ehrlichiosis, an emerging disease transmitted by the Lone Star tick, Amblyomma americanum. E. chaffeensis outer membrane protein entry triggering protein of Ehrlichia (EtpE) is necessary for bacterial entry into human cells. We investigated the role of EtpE in transmission of the bacteria from tick to human cells and whether or not vaccination with EtpE can prevent transmission of ehrlichiae from ticks to mammals. An antiserum against the recombinant C terminus of EtpE (rEtpE-C), which binds a mammalian cell-surface receptor and triggers bacterial entry, significantly inhibited E. chaffeensis transmission from infected tick cells to human monocytes in culture. Each of five specific-pathogen-free dogs were vaccinated with rEtpE-C along with an immunostimulating complex or were sham vaccinated with the complex alone. Dogs vaccinated with rEtpE-C developed high antibody titers against rEtpE-C and produced interferon-γ-secreting cells, as assessed with the ELISpot assay. All 10 dogs were challenged with A. americanum adult ticks infected as nymphs by syringe inoculation with E. chaffeensis. Upon challenge, both the vaccinated and control dogs became infected by day 1 post-tick attachment, but the majority of rEtpE-C-vaccinated dogs rapidly cleared the infection from the bloodstream as soon as day 7, whereas most of sham-vaccinated dogs remained infected at day 35. Peripheral blood leukocytes from vaccinated dogs had significantly elevated interferon-γ mRNA levels and secreted significantly elevated interferon-γ soon after tick attachment. Thus, the EtpE-C vaccine represents the first ehrlichial protein vaccine demonstrated to reduce bacterial infection in mammals upon challenge with infected ticks.

Published

2020

8. Whole Antigenic Lysates of Ixodes ricinus, but not Der-p2 Allergen-Like Protein , are Potent Inducers of Basophil Activation in Previously Tick-Exposed Human Hosts.

Author

Oltean, B. M., Ernst, M., Renneker, S., Bakheit, M. A., Seitzer, U., and Ahmed, J.

Subjects

*CASTOR bean tick, *ALLERGENS, *BASOPHILS, *TICK-borne diseases, *HOSTS (Biology), *ANAPHYLAXIS, *PARASITE antigens

Abstract

The clinical suspicion of tick anaphylaxis is based on a history of the bite and occurs often during the warm season. Further arguments are the presence of natural hosts in the immediate environment and, eventually, the identification of the tick. The diagnosis is confirmed when immediate-type sensitization is shown by positive skin prick tests performed with specific tick extracts or the demonstration of specific Ig E in vitro. In the current study, we hypothesize that hard tick-derived material contains potent inducers being able to promote basophil stimulation, which correlates with a sensitization immunological response following tick bites. To this end, biological material from two hard tick cell lines ( IRE11 and IDE8 - derived from Ixodes ricinus and I. scapularis, respectively) as well as I. ricinus salivary gland and body lysates were used in a human basophil activation test ( BAT) to analyse binding and cross-linking capacity of membrane-bound Ig E, because basophils are one of the main effector cells of allergic reactions. Additionally, Der-p2 allergen-like gene from I. ricinus was recombinantly expressed as a 15-kDa histidine-tagged fusion protein, purified and included as a stimulus within the setup. Blood was drawn and submitted to BAT screening from a pool of 36 individuals, both bitten and who served solely as negative controls. We have found that seven subjects (19%), all of whom were at least two times tick-bitten, positively reacted to the aforementioned stimuli, whereas the reactivity level of the ones bearing single bites proved to be within the normal range. Moreover, no significant upregulation of the assessed basophil activation marker was detected in the case of Der-p2, except a faint reaction at high dosages. We conclude that at least two tick bites of the human host must occur in order to induce significant basophil activation. [ABSTRACT FROM AUTHOR]

Published

2013

9. The DEVD motif of Crimean-Congo hemorrhagic fever virus nucleoprotein is essential for viral replication in tick cells

Author

Michele Celestino, Eric Bergeron, Mikael Leijon, Stephanie Devignot, Lesley Bell-Sakyi, Vanessa Monteil, Friedemann Weber, Helen Karlberg, Cristiano Salata, and Ali Mirazimi

Subjects

0301 basic medicine, Virus Cultivation, Epidemiology, Immunology, Amino Acid Motifs, Biology, Tick, DEVD motif, Virus Replication, Microbiology, Cell Line, 03 medical and health sciences, Ticks, Crimean-Congo hemorrhagic fever virus, CCHF, DEVD motif, tick cells, Virology, CCHF, parasitic diseases, Drug Discovery, Correspondence, Animals, Humans, Host Microbial Interactions, General Medicine, Nucleocapsid Proteins, Hemorrhagic fever virus, biology.organism_classification, Crimean-Congo hemorrhagic fever virus, 3. Good health, Nucleoprotein, 030104 developmental biology, Infectious Diseases, Viral replication, tick cells, Hemorrhagic Fever Virus, Crimean-Congo, Parasitology, Viral disease, Crimean Congo hemorrhagic fever virus

Abstract

Dear Editor,Crimean-Congo hemorrhagic fever (CCHF) is an emerging tick-borne viral disease widely distributed across countries of Africa, Southern Europe, the Middle East, and Asia1. CCHF is caused...

Published

2018

10. Vaccinomics Approach to Tick Vaccine Development

Author

José de la Fuente, Margarita Villar, Marinela Contreras, Pilar Alberdi, Ministerio de Economía y Competitividad (España), and European Commission

Subjects

Proteomics, 0301 basic medicine, Recombinant protein, Tick cells, Tick, 03 medical and health sciences, Lyme disease, parasitic diseases, medicine, Transcriptomics, Pathogen, 030102 biochemistry & molecular biology, biology, Transmission (medicine), bacterial infections and mycoses, biology.organism_classification, medicine.disease, Virology, 3. Good health, 030104 developmental biology, Immunization, Ixodes scapularis, Tick–host–pathogen interactions, Vector (epidemiology), Immunology, Anaplasmosis

Abstract

Ticks are blood-feeding arthropod ectoparasites that transmit disease-causing pathogens to humans and animals worldwide. Vaccines using tick antigens have proven to be cost-effective and environmental friendly for the control of vector infestations and pathogen infection and transmission. However, new strategies are needed to identify tick protective antigens for development of improved vaccines. These strategies will be greatly enhanced by vaccinomics approaches starting from the study of tick–host–pathogen molecular interactions and ending in the characterization and validation of vaccine formulations. The discovery of tick antigens that affect both tick infestations and pathogen infection/transmission could be used for vaccines targeting human and animal populations at risk and reservoir species to reduce host exposure to ticks while reducing the number of infected ticks and their vector capacity for pathogens that affect human and animal health. In this chapter, we describe methods of the vaccinomics platform using transcriptomics and proteomics for the identification of candidate protective antigens in Ixodes scapularis, the vector for human and animal granulocytic anaplasmosis, tick-borne encephalitis, and Lyme disease., This research was supported by grants BFU2011-23896 and the EU FP7 ANTIGONE project number 278976.

Published

2016

11. The case for oxidative stress molecule involvement in the tick-pathogen interactions -an omics approach.

Author

Hernandez, Emmanuel Pacia, Talactac, Melbourne Rio, Fujisaki, Kozo, and Tanaka, Tetsuya

Subjects

*OXIDATIVE stress, *LYME disease, *TICK infestations, *TICK-borne diseases, *FUNCTIONAL genomics, *MOLECULES, *TICKS

Abstract

The blood-feeding behavior of ticks has resulted in them becoming one of the most important vectors of disease-causing pathogens. Ticks possess a well-developed innate immune system to counter invading pathogens. However, the coevolution of ticks with tick-borne pathogens has adapted these pathogens to the tick's physiology and immune response through several mechanisms including transcriptional regulation. The recent development in tick and tick-borne disease research greatly involved the "omics" approach. The omics approach takes a look en masse at the different genes, proteins, metabolomes, and the microbiome of the ticks that could be differentiated during pathogen infection. Data from this approach revealed that oxidative stress-related molecules in ticks are differentiated and possibly being exploited by the pathogens to evade the tick's immune response. In this study, we review and discuss transcriptomic and proteomic data for some oxidative stress molecules differentially expressed during pathogen infection. We also discuss metabolomics and microbiome data as well as functional genomics in order to provide insight into the tick-pathogen interaction. • Ticks have an antioxidant system that is important for immunity and blood-feeding. • Tick-borne pathogens exploit the tick's antioxidant system to establish infection. • Antioxidant molecules could be targeted for the control of tick-borne disease. • Omics approaches are "gate-openers" in studies of host–pathogen interaction. [ABSTRACT FROM AUTHOR]

Published

2019

12. Vaccinomics approach to tick vaccine development

Author

Ministerio de Economía y Competitividad (España), European Commission, Contreras, Marinela, Villar, Margarita, Alberdi, Pilar, Fuente, José de la, Ministerio de Economía y Competitividad (España), European Commission, Contreras, Marinela, Villar, Margarita, Alberdi, Pilar, and Fuente, José de la

Abstract

Ticks are blood-feeding arthropod ectoparasites that transmit disease-causing pathogens to humans and animals worldwide. Vaccines using tick antigens have proven to be cost-effective and environmental friendly for the control of vector infestations and pathogen infection and transmission. However, new strategies are needed to identify tick protective antigens for development of improved vaccines. These strategies will be greatly enhanced by vaccinomics approaches starting from the study of tick–host–pathogen molecular interactions and ending in the characterization and validation of vaccine formulations. The discovery of tick antigens that affect both tick infestations and pathogen infection/transmission could be used for vaccines targeting human and animal populations at risk and reservoir species to reduce host exposure to ticks while reducing the number of infected ticks and their vector capacity for pathogens that affect human and animal health. In this chapter, we describe methods of the vaccinomics platform using transcriptomics and proteomics for the identification of candidate protective antigens in Ixodes scapularis, the vector for human and animal granulocytic anaplasmosis, tick-borne encephalitis, and Lyme disease.

Published

2016

13. COMPARATIVE ANALYSIS OF NAIROVIRUS REPLICATION IN HYALOMMA-DERIVED TICK CELL LINES

Author

Salata, Cristiano, Karlberg, H, Bell Sakyi, L, and Mirazimi, A.

Subjects

CCHFV, tick cells, nairovirus

Published

2015

14. Hazara nairovirus elicits differential induction of apoptosis and nucleocapsid protein cleavage in mammalian and tick cells.

Author

Fuller J, Surtees RA, Shaw AB, Álvarez-Rodríguez B, Slack GS, Bell-Sakyi L, Mankouri J, Edwards TA, Hewson R, and Barr JN

Subjects

Amino Acid Motifs, Animals, Bunyaviridae Infections enzymology, Bunyaviridae Infections genetics, Bunyaviridae Infections virology, Caspase 3 genetics, Caspase 3 metabolism, Caspase 7 genetics, Caspase 7 metabolism, Cell Line, Host-Pathogen Interactions, Humans, Nairovirus chemistry, Nairovirus genetics, Nucleocapsid Proteins chemistry, Nucleocapsid Proteins genetics, Protein Processing, Post-Translational, Apoptosis, Bunyaviridae Infections physiopathology, Nairovirus metabolism, Nucleocapsid Proteins metabolism, Ticks virology

Abstract

The Nairoviridae family within the Bunyavirales order comprise tick-borne segmented negative-sense RNA viruses that cause serious disease in a broad range of mammals, yet cause a latent and lifelong infection in tick hosts. An important member of this family is Crimean-Congo haemorrhagic fever virus (CCHFV), which is responsible for serious human disease that results in case fatality rates of up to 30 %, and which exhibits the most geographically broad distribution of any tick-borne virus. Here, we explored differences in the cellular response of both mammalian and tick cells to nairovirus infection using Hazara virus (HAZV), which is a close relative of CCHFV within the CCHFV serogroup. We show that HAZV infection of human-derived SW13 cells led to induction of apoptosis, evidenced by activation of cellular caspases 3, 7 and 9. This was followed by cleavage of the classical apoptosis marker poly ADP-ribose polymerase, as well as cellular genome fragmentation. In addition, we show that the HAZV nucleocapsid (N) protein was abundantly cleaved by caspase 3 in these mammalian cells at a conserved DQVD motif exposed at the tip of its arm domain, and that cleaved HAZV-N was subsequently packaged into nascent virions. However, in stark contrast, we show for the first time that nairovirus infection of cells of the tick vector failed to induce apoptosis, as evidenced by undetectable levels of cleaved caspases and lack of cleaved HAZV-N. Our findings reveal that nairoviruses elicit diametrically opposed cellular responses in mammalian and tick cells, which may influence the infection outcome in the respective hosts.

Published

2019

15. In vitro cultivation of Anaplasma marginale and A. phagocytophilum in tick cell lines: a review

Author

Passos, Lygia Maria Friche

Subjects

Anaplasma marginale, revisão, Células de carrapatos, cultivo in vitro, Tick cells, in vitro culture, review, Anaplasma phagocytophilum

Abstract

Continuous cell lines have been established from several ixodid and argasid tick species, representing an excellent tool suitable for the isolation of pathogens and their subsequent propagation, which in turn allows the production of antigenic material for diagnostic tests, antibody and vaccine production, and also for studies on host-vector-pathogen relationships. This paper reviews the use of tick cells for culture initiation and maintenance of two obligate intracellular bacterial pathogens, Anaplasma marginale and Anaplasma phagocytophilum. These in vitro cultivation systems have been used in a wide range of studies, covering morphological ultrastructural analysis, genetics, proteomics and biological differences between strains, including genome transcriptional and protein expression approaches, enabling comparisons between host and vector cells. Thus, such systems open a new window for a better understanding of interactions between pathogens and tick cells. Last but not least, such systems contribute to the reduction in usage of animals for experimental research, as antigenic material can be produced in reasonably large quantities without the use of in vivo species-specific systems. Linhagens contínuas de células já foram estabelecidas a partir de várias espécies de carrapatos ixodídeos e argasídeos e representam uma ferramenta excelente para o isolamento e propagação de patógenos, permitindo a produção de material antigênico para testes diagnósticos, produção de anticorpos e vacinas, e também para estudos das relações entre hospedeiro-vetor-patógenos. Este artigo revisa o uso de células de carrapatos para estabelecimento e manutenção in vitro de dois patógenos intracelulares, Anaplasma marginale e Anaplasma phagocytophilum. Estes sistemas de cultivo in vitro, têm sido utilizados em vários estudos, tais como análises morfológicas, genéticas, proteômicas e estudos diferenciais entre isolados, incluindo genômica transcricional e expressões proteicas, permitindo comparações entre células dos hospedeiros e dos vetores. Tais sistemas constituem, portanto, uma nova abordagem para melhor entendimento das relações entre patógenos e células de carrapatos. Além disso, tais sistemas contribuem para a redução do uso de animais de experimentação, uma vez que permitem a produção de grandes quantidades de material antigênico sem o uso de sistemas espécie-específicos in vivo.

Published

2012