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The development of Leishmania in the insect vector of the genus Phlebotomus
Kvapilová, Kateřina ; Volf, Petr (advisor) ; Bilej, Martin (referee)
The work was focused on the study of various aspects of development of Leishmania in vectors of genus Phlebotomus and can be divided into two main parts. In the first part, we studied the competition of Leishmania major and L. turanica during their development in the sand flies who are natural vectors of L. major using the experimental co-infections of fluorescently marked promastigots of these two species. While both leishmania species developed similar in the intestine of Phlebotomus papatasi, L. turanica prevailed in P. duboscqi in the late stages of infection. The fluorescent marking of Leishmania should allow us also to study possible genetic exchange between species at different stages of Leishmania infection (2nd, 9th and 14th day after the infective feeding). Using the flow cytometry (FACS) we have repeatedly identified dozens of objects emitting red and green signals in the intestinal homogenates of co-infected sand flies, however further analysis with confocal microscope disproved these objects as the hybrid promastigots of Leishmania. In the second part of this thesis we investigated the role of L. major genes HASP and SHERP, which lies on the locus LmcDNA16 and are expressed exclusively in metacyclics. We used mutant lines KO (lacking the locus LmcDNA16) and HASPB (KO line with gene...
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Role of catalase and chitinase in the life cycle of Leishmania parasites
Glanzová, Kristýna ; Sádlová, Jovana (advisor) ; Kodym, Petr (referee)
Leishmaniasis is an infectious disease caused by protozoa of the genus Leishmania (Kinetoplastida: Trypanosomatidae) which are transmitted by phlebotomine sand flies (Diptera: Phlebotominae). For the dixenous life cycle, leishmania parasites are equipped with enzymes that facilitate survival in both insect vectors and mammalian hosts. Gene for the enzyme catalase which protects cells from reactive oxygen species by the elimination of H2O2 and is present in related monoxenous trypanosomatids is, however, missing in Leishmania genome. Chitinase can be involved in the interaction of leishmania parasites with chitin-containing structures in sand flies (peritrophic matrix, stomodeal valve). The expression of the enzyme in amastigotes suggests its significant function also in the mammalian host. I tested the role of these enzymes in the life cycle of leishmania by direct comparison of L. mexicana mutants (i) with inserted catalase gene and (ii) with deleted chitinase gene with control groups. I conducted experimental infections of Lu. longipalpis including transmission of leishmania to the hosts by bite, tested the survival of leishmania in macrophages and performed experimental infections of BALB/c mice followed by xenodiagnoses. The experiments confirmed that the presence of catalase in leishmania does...
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The development of Leishmania in the insect vector of the genus Phlebotomus
Kvapilová, Kateřina ; Volf, Petr (advisor) ; Bilej, Martin (referee)
The work was focused on the study of various aspects of development of Leishmania in vectors of genus Phlebotomus and can be divided into two main parts. In the first part, we studied the competition of Leishmania major and L. turanica during their development in the sand flies who are natural vectors of L. major using the experimental co-infections of fluorescently marked promastigots of these two species. While both leishmania species developed similar in the intestine of Phlebotomus papatasi, L. turanica prevailed in P. duboscqi in the late stages of infection. The fluorescent marking of Leishmania should allow us also to study possible genetic exchange between species at different stages of Leishmania infection (2nd, 9th and 14th day after the infective feeding). Using the flow cytometry (FACS) we have repeatedly identified dozens of objects emitting red and green signals in the intestinal homogenates of co-infected sand flies, however further analysis with confocal microscope disproved these objects as the hybrid promastigots of Leishmania. In the second part of this thesis we investigated the role of L. major genes HASP and SHERP, which lies on the locus LmcDNA16 and are expressed exclusively in metacyclics. We used mutant lines KO (lacking the locus LmcDNA16) and HASPB (KO line with gene...
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