|
|
GENE EXPRESSION AND IMMUNOLOGICAL RESPONSE IN MICE EXPOSED TO ZnO NANOPARTICLES
Rössner ml., Pavel ; Vrbová, Kristýna ; Strapáčová, S. ; Rössnerová, Andrea ; Ambrož, Antonín ; Brzicová, Táňa ; Líbalová, Helena ; Javorková, Eliška ; Zajícová, Alena ; Holáň, Vladimír ; Kulich, P. ; Večeřa, Zbyněk ; Mikuška, Pavel ; Coufalík, Pavel ; Křůmal, Kamil ; Čapka, Lukáš ; Dočekal, Bohumil ; Šerý, Omar ; Machala, M. ; Topinka, Jan
We analyzed gene expression changes in the lungs and the immunological response in splenocytes of mice exposed by inhalation of ZnO nanoparticles - NP. Adult female ICR mice were treated for three days and three months, respectively. Analysis of differential expression in genes involved in oxidative stress was conducted using quantitative RT-PCR. The potential immunotoxic and immunomodulatory effects of ZnO NP were analyzed by phenotyping and cytokine production by splenocytes after three months exposure. Three days exposure resulted in down-regulation of GCLC, GSR, HMOX-1, NQO-1, NF-kB2, PTGS2 and TXNRD1 mRNA expression, three months exposure increased the expression of these genes. Three months exposure caused a significant decrease in the percentage of granulocytes in the spleen cells, and affected the production of IL-10 and IL-6 by lipopolysaccharide-stimulated leukocytes. In summary, our study revealed changes in the expression of genes involved in the oxidative stress response following acute ZnO NP exposure. Subchronic ZnO NP exposure induced immunomodulatory effects in the spleen.
|
|
|
Study of mechanisms of Sertoli cell survival in xenogeneic organism
Porubská, Bianka ; Krulová, Magdaléna (advisor) ; Anděra, Ladislav (referee)
Sertoli cells (SCs) are somatic cells located in the testes. They are the only cells in direct contact with germ cells and play a key role in process of spermatogenesis. New insights in the biology of SCs are highlighting the immunological function of these cells: germ cells protection by maintaining the immunoprotective niche, creating the blood- testis barrier and local modulation of the immune response to spermatic cells. Immunomodulatory activity of SCs is preserved after their allo- and xenogeneic transplantation, and thus SCs prolongs survival not only of themselves but also of cells transplanted with them. The aim of this thesis was to study the survival and migration of SCs precursors (TSC) in mice recipients. The project is employing the neonatal tolerance phenomenon and evolutionary distinct donor organism, Xenopus tropicalis, to monitor conserved mechanisms of immune system (IS) modulation using SCs. SCs were detectable in the lungs and thymus 7 days after transplantation. The phenotype of immune cells was not altered 30 days after transplantation, however we detected changes in cytokine environment, namely increased levels of cytokines typical for Th2 and Treg immune responses. In vitro experiments further confirmed IS modulation by SCs - changing the phenotype of macrophages to alternatively...
|
|
| |
|
|
Role genu \kur{Impl2} v regulaci imunitní odpovědi na bakteriální infekci u \kur{Drosophila melanogaster}
ŠOKČEVIČOVÁ, Helena
The main aim of this thesis is to investigate the role of Impl2 gene in the regulation of immune response to bacterial infection in Drosophila melanogaster. The theoretical part provides a conceptual background concerning immunity in drosophila and also it summarizes what is known about the Impl2 gene. In the practical part, the function of Impl2 gene during infection is examined, starting with the location of its production during immune response, the changes of Impl2 gene amount during infection and its essentiality for a proper immune response. Furthermore, it examines the metabolic changes underlying an immune activation in connection to Impl2 gene. Last but not least, it tests how Impl2 gene is connected with the mobilization of energy during Chill Coma Recovery assay.
|
|
|
Surface glycoconjugates of Leishmania parasites and their interactions with immune system of vertebrate host
Pacáková, Lenka ; Leštinová, Tereza (advisor) ; Kolářová, Iva (referee)
musí po vstupu do obratlovčího hostitele čelit obranným mechanismům hostitelské imunity a proniknout do cílové buňky - pokračuje. Evoluční strategií leishmanií vyvinutou k přelstění imunitního systému Mezi nejvýznamnější povrchové glykokonjugáty patří membránově vázané proteofosfoglykany a metaloproteáz lním účinkům produktů neutrofilů a zprostředk vazbu na makrofágy. Intracelulárně pak modulují signalizační dráhy, které vedou k produkci cytokinů, směřujících polarizaci imunitní odpovědi ve prospěch Th2. Výsledkem tohoto přesměrování je vyhnutí se účinkům toxického NO, čímž je ustanovena chronicita infekce. Glykokonjugáty jsou zkoumány jako účinná složka chránících obratlovce před nákazou či bránících zpětnému přenosu čímž dalšímu šíření infekce. Klíčová slova: leishmanie, lipofosfoglykan, glykoinositolfosfolipid, proteofosfoglykan, gp63, imunitní odpověď, makrofág
|
|
|
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...
|
|
|
Immune response to experimental active immunotherapy DCVac/OvCa in patients with ovarian carcinoma in phase II clinical trials.
Ksandrová, Marie ; Sadílková, Lenka (advisor) ; Krulová, Magdaléna (referee)
The immunotherapeutic drug DCVAC/OvCa is being tested in the treatment of ovarian cancer patients within the SOV02 clinical trial (Eudra CT number: 2013-001323-38). Ovarian cancer belongs to gynaecological malignancies with the highest mortality rate. Around 60% of patients are diagnosed at advanced stages. Despite the initial successful treatment, relapses occur in most cases, and the disease often becomes resistant to chemotherapy. Effective therapy for relapsed or metastatic patients is still missing. The solution could be immunotherapeutic treatment. DCVAC is an active cellular immunotherapy based on autologous dendritic cells. The aim of this diploma thesis was monitoring of immune parameters in samples from clinical trial SOV02 patients during the time period defined in the study protocol. We have monitored the presence of antigen specific T lymphocytes, tumor specific antibodies, immunosuppressive populations of regulatory T cells and MDSC cells, and also the expression of inhibitory molecules on the surface of T lymphocytes. We observed higher levels of Her-2, Muc-1 and MAGE-A1 antibodies in the DCVAC/OvCa treated group of patients versus the control group. Significant differences in the other monitored parameters were not observed. However, a large amount of data have been obtained that...
|
|
|
Cytokines and chemokines, their role in the infections with helminths.
Majer, Martin ; Panská, Lucie (advisor) ; Leštinová, Tereza (referee)
Parasitic helminths belong to extracellular pathogens of mammals, including human. Immunologic response depends on their migration and site of dwelling within host body. The response is among other affected by cytokines and chemokines. These small proteins are responsible for appropriate proliferation and migration of other components of immune system. These bachelor thesis summarizes current knowledge about their role during helminth infection in mammals.
|
|
|
Genes participating in response to Leishmania major revealed by targeted mutation.
Ezrová, Zuzana ; Lipoldová, Marie (advisor) ; Krulová, Magdaléna (referee)
Leishmania major is an intracellular parasite which often successfully multiplies and disseminates in a body of the host thanks to strategies that help it to escape the components of immune system of the host organism. Thus, the parasites evoke an impairment of regulatory pathways that in physiological conditions lead to an expression of genes involved in a response to L. major and its efficient elimination. Gene targeted deletion, also called gene knock-out, can result in phenotypic alteration and associated enhanced susceptibility or resistance of the host. Although such detected genes do not have to signify their variability in population and hence they may not be responsible for the worsened outcome of leishmaniasis of some people necessarily, studies in which they are analysed and general knowledge being also a subject of this thesis help us together with techniques of forward genetics to reveal the biochemical pathways during the infection and their elements that influence the outcome of the disease and might be useful for researches of new medicine drugs or gene therapy.
|
|
|
Role slizniční imunity a střevní mikroflóry při vývoji zánětlivých onemocnění
Málková, Jana ; Kverka, Miloslav (advisor) ; Bártová, Jiřina (referee)
Gut microbiota is important for our health and well-being, but when its composition is disrupted, it can induce or perpetuate several chronic inflammatory disorders, including inflammatory bowel diseases (IBD). The mechanisms which distinguish protective microbes from the deleterious or indifferent ones are largely unknown. The aim of this thesis was to study the interaction of the immune system with microbes that have different relationships to IBD pathogenesis. Escherichia coli is a predominant aerobic microorganism of the gastrointestinal tract. This species includes microbes implicated in induction of IBD as well as in its therapy. Four E. coli strains with different relations to IBD were selected for our experiments: E. coli Nissle 1917 (EcN), which has been successfully used in IBD therapy, E. coli strains LF82 and p19A, which have been implicated in the pathogenesis of IBD, and E. coli strain K6, which has neither been implicated in pathogenesis nor in protection from this disease. The experiments were performed both with living bacteria and inactivated ones. As the mode of inactivation may change the microbial antigenic structure, we measured how different methods of inactivation, i.e. 1% formaldehyde, exposure to heat or UV irradiation, influence the microbe's immunogenicity. First, we...
|
guest ::
