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Diversity of methods used for characterization of molluscan hemocytes
Jindrová, Zuzana ; Horák, Petr (advisor) ; Skála, Vladimír (referee)
Hemocytes are the main immune cells of invertebrates; therefore they can be found in molluscs, too. They differ both in morphology and function. The two generally accep- ted morphological types, granulocytes and hyalinocytes, vary in the level of phagocy- tosis and encapsulation, production of reactive oxygen species and nitrogen oxide, and presence of some enzymes. There is an array of methods by means of which hemocy- tes can be characterized. Microscopy serves particularly for study of morphology. An- tigens localized on the surface can be determined by monoclonal antibodies or lectin probes. Hemocytes can be divided on the basis of cell size and granularity using gra- dient centrifugation or flow cytometry. Production of nitrogen oxide and reactive oxy- gen species is monitored by adding appropriate substrate which changes its proper- ties after reaction with the radical. It may become fluorescent, change absorbance of the solution or form a visible precipitate. Another possibility is the use of chemilu- miniscence. The objective of hemocyte research is to explain mollusc-pathogen inter- action. 1
Lymnaeid snails: hemocyte activities and their changes caused by Trichobilharzia infections
Jindrová, Zuzana ; Horák, Petr (advisor) ; Bilej, Martin (referee)
Molluscs as well as all other invertebrates rely on innate immune response only. Their internal defense system is capable of destroying most pathogens. However, there are some exceptions, e.g. some snails serve as intermediate hosts for some trematodes. Trematodes are able to develop inside these snails due to intervention in the snail internal defense system. The submitted thesis describes hemocyte activities of two lymnaeid snails, Lymnaea stagnalis a Radix lagotis, and the influence of Trichobilharzia regenti infection on R. lagotis hemocytes. Hemocytes of both species exposed to various chemicals produced different amounts of H2O2 and NO. The response varied between both lymnaeid species. The amount of circulating hemocytes was elevated in R. lagotis snails due to T. regenti infection. However, the infenction attenuated hemocyte activities monitored by us. Hemocyte basal NO production was decreased as well as phagocytosis of bacteria, cell adherence and pseudopodia formation. Toxicity of L. stagnalis plasma against T. regenti miracidia was also described. Mechanisms used by trematodes to interact with the snail internal defense system will help us to understand why one species is suitable for the develepment of the trematode whereas another closely related species kills it. Powered by TCPDF (www.tcpdf.org)
Diversity of methods used for characterization of molluscan hemocytes
Jindrová, Zuzana ; Skála, Vladimír (referee) ; Horák, Petr (advisor)
Hemocytes are the main immune cells of invertebrates; therefore they can be found in molluscs, too. They differ both in morphology and function. The two generally accep- ted morphological types, granulocytes and hyalinocytes, vary in the level of phagocy- tosis and encapsulation, production of reactive oxygen species and nitrogen oxide, and presence of some enzymes. There is an array of methods by means of which hemocy- tes can be characterized. Microscopy serves particularly for study of morphology. An- tigens localized on the surface can be determined by monoclonal antibodies or lectin probes. Hemocytes can be divided on the basis of cell size and granularity using gra- dient centrifugation or flow cytometry. Production of nitrogen oxide and reactive oxy- gen species is monitored by adding appropriate substrate which changes its proper- ties after reaction with the radical. It may become fluorescent, change absorbance of the solution or form a visible precipitate. Another possibility is the use of chemilu- miniscence. The objective of hemocyte research is to explain mollusc-pathogen inter- action. 1

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