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Effect of selected antiparasitic drugs on Trichobilharzia regenti
Lípová, Pavlína ; Horák, Petr (advisor) ; Chanová, Marta (referee)
Praziquantel is a drug of choice for the treatment of schistosomiasis caused by human species of the genus Schistosoma. The effect of the drug on avian schistosomes is not completely known. Monensin is a drug used for the treatment of coccidiosis, and its effect on avian schistosomes is unknown. In the thesis, we studied the effect of these drugs on avian schistosome Trichobilharzia regenti. Under in vitro conditions, both drugs were effective after 6 hours of incubation. Praziquantel causes an extensive vacuolization of the whole body, while monensis treatment causes vacuolization of the anterior part of body. Higher concentration of praziquantel causes depolymerization of myofilaments and separation of surface membranes. Monensin did not impair muscles, but caused separation of tegumental layer from the basal membrane. Schistosomula in ducks were not killed by the drugs under in vivo conditions, but the worms were damaged by the drugs. Praziquantel caused vacuolization of the tegument and separation of membranes from the surface. Only vacuolization of the tegument occurred in schistosomula from ducks treated with monensin . No damage to the muscles was observed in the case of both drugs. Histological evaluation of the nerve tissue showed that thero no difference between treated and control duck....
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Acid peptidases of schistosomes and haematophagous monogeneans
Dvořáková, Hana ; Mikeš, Libor (advisor) ; Horn, Martin (referee) ; Sojka, Daniel (referee)
Blood is a complex nutrient-rich mixture. No wonder that haematophagy has been adopted as a feeding strategy by many invertebrates, including many parasitic helminths. In general, processing of haemoglobin (and other blood proteins) in blood-feeding helminths relies on an evolutionary conserved network of cysteine and aspartic peptidases (e.g., cathepsins L, B and D). However, some helminth taxa have been neglected from this point of view - very little information has been available about the occurrence of these enzymes in haematophagous monogeneans. Therefore, the presented thesis focuses on the molecular and biochemical characteristics of peptidases that maybe potentially involved in blood processing by the monogenean Eudiplozoon nipponicum (Heteronchoinea, Diplozoidae), an ectoparasite inhabiting gills of common carp. We show that the most abundant haemoglobinolytic endopeptidase activities in soluble protein extracts and excretory/secretory products of E. nipponicum belong to the cysteine and aspartic classes, with cathepsin L-like activity predominating over cathepsin B-like activity and supplemented with cathepsin D-like activity (paper 1). Additionally, we found that E. nipponicum adults express a variety of cathepsins L with different structural characteristics and probably different...
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Development of surface and body musculature of the bird schistosome Trichobilharzia regenti
Bulantová, Jana
Description of Trichobilharzia regenti as a new species of nasal bird schistosome in 1998 was only the first step in our knowledge of this extraordinary parasite. Natural definitive hosts of T. regeni are anseriform birds, but infective larvae - cercariae - are able to penetrate also into mammalian hosts including humans. There they are causative agents of hypersensitive skin immune reaction called cercarial dermatitis or swimmer's itch. Contrary to other schistosomes, miracidia of T. regenti hatch directly inside the definitive host tissue. Schistosomula migrate through the nervous system of vertebrates and, together with adult worms, they have predominantly extravascular localization in definitive hosts. Adult worms have a short lifespan and low degree of sexual dimorphism, connected with lower dependence of adult females on long-term contact with males. During the life cycle, T. regenti can be found within three different environments (freshwater, tissue of intermediate molluscan host and tissue of vertebrate host). Each of the seven developmental stages has a different role in the life cycle which corresponds with different organization of various organ systems. The introductory part of the thesis is focused entirely on ontogenetic changes of surface ultrastructure and body musculature of...
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The immune response of naïve mice infected with the neuropathogenic schistosome Trichobilharzia regenti
Macháček, Tomáš
Helminth neuroinfections represent a serious health issue, but the mechanisms of the host immune response often remain neglected despite the fact they might contribute to pathogenesis. This is partly due to the unavailability of clinical samples and the lack of suitable laboratory models. Herein, I focused on the characterization of several aspects of the immune response of mice infected with the neuropathogenic avian schistosome Trichobilharzia regenti. After the percutaneous infection of mice (accidental hosts), most T. regenti schistosomula are entrapped and eliminated in the skin, but the parasite antigens initiating the protective immune reaction are not known. Our in vitro experiments revealed that T. regenti cathepsin B2, a cysteine peptidase used for the skin penetration, activates bone marrow-derived dendritic cells much stronger than the parasite homogenate, suggesting its role in initiating the mixed type1/2 host immune response. However, some schistosomula manage to escape from the skin and continue their migration to the spinal cord. Here they crawl preferentially within the white matter which we demonstrated by the robust 3D imaging techniques, ultramicroscopy and micro-CT. The invasion of the spinal cord is accompanied by striking hypertrophy of astrocytes and microglia. We showed...
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The immune response of naïve mice infected with the neuropathogenic schistosome Trichobilharzia regenti
Macháček, Tomáš
Helminth neuroinfections represent a serious health issue, but the mechanisms of the host immune response often remain neglected despite the fact they might contribute to pathogenesis. This is partly due to the unavailability of clinical samples and the lack of suitable laboratory models. Herein, I focused on the characterization of several aspects of the immune response of mice infected with the neuropathogenic avian schistosome Trichobilharzia regenti. After the percutaneous infection of mice (accidental hosts), most T. regenti schistosomula are entrapped and eliminated in the skin, but the parasite antigens initiating the protective immune reaction are not known. Our in vitro experiments revealed that T. regenti cathepsin B2, a cysteine peptidase used for the skin penetration, activates bone marrow-derived dendritic cells much stronger than the parasite homogenate, suggesting its role in initiating the mixed type1/2 host immune response. However, some schistosomula manage to escape from the skin and continue their migration to the spinal cord. Here they crawl preferentially within the white matter which we demonstrated by the robust 3D imaging techniques, ultramicroscopy and micro-CT. The invasion of the spinal cord is accompanied by striking hypertrophy of astrocytes and microglia. We showed...
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The immune response of naïve mice infected with the neuropathogenic schistosome Trichobilharzia regenti
Macháček, Tomáš ; Horák, Petr (advisor) ; Bilej, Martin (referee) ; Schabussova, Irma (referee)
Helminth neuroinfections represent a serious health issue, but the mechanisms of the host immune response often remain neglected despite the fact they might contribute to pathogenesis. This is partly due to the unavailability of clinical samples and the lack of suitable laboratory models. Herein, I focused on the characterization of several aspects of the immune response of mice infected with the neuropathogenic avian schistosome Trichobilharzia regenti. After the percutaneous infection of mice (accidental hosts), most T. regenti schistosomula are entrapped and eliminated in the skin, but the parasite antigens initiating the protective immune reaction are not known. Our in vitro experiments revealed that T. regenti cathepsin B2, a cysteine peptidase used for the skin penetration, activates bone marrow-derived dendritic cells much stronger than the parasite homogenate, suggesting its role in initiating the mixed type1/2 host immune response. However, some schistosomula manage to escape from the skin and continue their migration to the spinal cord. Here they crawl preferentially within the white matter which we demonstrated by the robust 3D imaging techniques, ultramicroscopy and micro-CT. The invasion of the spinal cord is accompanied by striking hypertrophy of astrocytes and microglia. We showed...
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The role of nitric oxide in mice infected with Trichobilharzia regenti, the neuropathogenic schistosome
Šmídová, Barbora ; Macháček, Tomáš (advisor) ; Panská, Lucie (referee)
Nitric oxide (NO) has been proved to reduce parasite burden in vertebrates infected with Schistosoma, Fasciola, Brugia or Taenia. NO negatively influences parasite growth and development, which then leads to smaller parasite-caused damage to the liver during schistosomosis and stimulates healing processes in muscles infected with Toxocara canis. Peroxynitrite, formed from NO and superoxide, significantly reduces the viability of F. hepatica adults. In case of T. regenti, the neuropathogenic schistosome, the cells capable of NO production (macrophages, neutrophils, eosinophils, microglia and astrocytes) migrate to the site of the infection suggesting that NO might affect T. regenti infection as well. Therefore, the production of NO and its effect on the course of the infection was examined in vivo and the effect of peroxynitrite on T. regenti schistosomula was examined in vitro to assess the role of reactive nitrogen species during the infection. Our results from in vivo experiments demonstrate that although the infection did not significantly elevate nitrite/nitrate results in the sera, NO is locally produced in the early stages of the infection in both the skin and the spinal cord as shown by immunohistochemical detection of inducible NO synthase. Diminishing NO production by aminoguanidine...
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Production of cytokines in mice infected with bird schistosome Trichobilharzia regenti
Majer, Martin ; Macháček, Tomáš (advisor) ; Černý, Jan (referee)
The neuropathogenic trematode Trichobilharzia regenti (Schistosomatidae) infects the central nervous system of birds and mammals. During its migration through the spinal cord, the parasite causes tissue damage and triggers inflammation which is likely responsible for the elimination of the parasite. In this thesis, the proinflammatory cytokines IL-1β and IL-17 were detected by immunohistochemistry in the affected spinal cord of C57BL/6J mice during the infection. Additionally, IL-4 and IL-6, participating in the regulation of the inflammation and tissue repair, respectively, were noticed. Astrocytes, microglia and other, yet unidentified cells, produced these cytokines. Furthermore, splenic T-lymphocytes were phenotyped by flow cytometry to characterize peripheral immune response. At the peak of nervous tissue inflammation, mixed (Th1/Th2) cellular immune response was observed. Taken together, this thesis extended the knowledge of cytokine immune response of mice infected with T. regenti and also confirmed that inflammation in the nervous tissue influences the polarization of peripheral immune response. Key words: cytokines, spleen, CNS, microglia, astrocytes, Trichobilharzia regenti, immunohistochemistry, flow cytometry
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Interactions of the eggs and miracidia of Trichobilharzia regenti with the duck nasal mucosa
Vlčková, Linda ; Horák, Petr (advisor) ; Chanová, Marta (referee)
Trichobilharzia regenti is a nasal avian schistosome which has during the initial phase of infection an affinity to the nervous system. Larvae migrate through the central nervous system to the nasal mucosa of waterfowl, where they mature and reproduce. Until now this infection phase has been described only marginally. Adults are located in the nasal mucosa approximately from 13th to 24th day post infection. During this life phase, they migrate through the vascularized connective tissue and lay eggs, the presence of which has been detected in the tissue only. Maturation and hatching of miracidia occur in the tissue (unlike human schistosomes). The parasite causes inflammation, and the tissue is infiltrated with immune cells. Lymphocytes, granulocytes, macrophages, plasma cells and giant multi-nuclear cells were described by histological methods. The thesis is focused on a more detailed description of cellular immune response and histopathological changes of the tissue by means of histological stains, and antibody/lectin probes. The flukes were observed more frequently in the blood vessel lumen, together with a higher number of immune cells compared to the healthy duck. Infiltration by a high number of lymphocytes occurred in the tissue, the macrophages were frequently observed in clusters around the...
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Ultrastructural interactions of larval bird schistosome Trichobilharzia regenti and immune cells of hosts nervous system
Krčmářová, Veronika ; Bulantová, Jana (advisor) ; Hodová, Iveta (referee)
Trichobilharzia regenti is a neurotropic fluke belonging to family Schistosomatidae. Larvae called schistosomula migrate in the definitive hosts (anseriform birds) throuth the central nervous system (CNS) to their final location in nasal mucosa, where they mature and lay eggs. In contrast with that, the infection of accidental mammalian hosts (including human), is often stopped already in the skin immediately after entering the host. However, some schistosomula are able to reach CNS of experimentally infected mice, and survive there temporarily. Reaction to the CNS infection of mice is usually provided by microglia, astrocytes or the other immune cells infiltrated from the hosts blood. Parasite protects itself against the host reaction with its tegument. It does not serve only as mechanical barrier, but also as main secretoric organ that is capable of active immune evasion. Changes within CNS of the vertebrate hosts, caused by migrating schistosomula of T. regenti, were already described by routine histological and immunohistochemical methods. Till now, there was a lack of informations about interactions of immune cells of the host and the tegument of the parasite on ultrastructural level. To fill this gap in knowledge, two different methods were used: (1) imunohistochemistry in light and electron...
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