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The metabolic role of pulmonary arterial fibroblasts in the activation of immune system during development of pulmonary arterial hypertension
Křivonosková, Monika ; Plecitá, Lydie (advisor) ; Zadražil, Zdeněk (referee)
The development of inflammation in the small distal pulmonary vessels plays an important role in the development of pulmonary arterial hypertension (PAH). One of the cell types found in the pulmonary vessels are fibroblasts, which, according to the "outside-in" theory, may be the first to respond to stimuli in the vessel, modulating remodeling of the pulmonary vessels toward the inner layers of the vessel and attracting other immune cells to the site. In addition to inflammation, the so- called Warburg effect also occurs in vessels affected by PAH, in which metabolism shifts toward glycolysis and lactate production. Among other changes, a pro-oxidative state is induced within the cell by mitochondrial metabolism and NADPH oxidase, leading to an imbalance in reactive oxygen species production. We therefore wanted to test whether calf lung fibroblasts with hypoxia-induced PAH have an active inflammasome, with which they would produce mature interleukin 1β (IL-1β) and to clarify the effect of a pro-oxidant environment on this expression. In our in vitro model we have confirmed IL-1β mRNA expression, but we were unable to detect its expression at the protein level. This was consistent with the inability to detect inflammasome activity. We believe that the inability to detect the protein form of IL-1β...
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Proteins demaged by oxidative stress, their role in physiology and ageing of yest cells
Mikešová, Jana ; Palková, Zdena (advisor) ; Borčin, Kateřina (referee)
Reactive oxygen species (ROS) are regularly produced in cells as a by-product of aerobic metabolism. Hence, organisms developed various defence mechanisms, which are able to avoid molecular damages caused by ROS under physiological conditions. In stress conditions, however, such defence mechanisms are not sufficient to avoid molecular damages. Accumulation of oxidized proteins is supposed to be a reason for ageing and many diseases including Friedreich's ataxia, Amylotrophic lateral sclerosis, Alzheimer's disease and many others. During oxidative stress, reactive oxygen species are reflected in oxidation of cystein residues in transcription factors, regulation proteins and active canters centers of enzymes. Oxidative modifications however could lead also to changes in transcription factor activity and activation of specific pathways, including changes in gene expression, cell cycle and proteolysis. This work shows defence mechanisms, ROS and proteins altered by reactive oxygen species that may function as important signalling molecules, which are essential for many cellular processes.
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Proteins demaged by oxidative stress, their role in physiology and ageing of yest cells
Mikešová, Jana ; Palková, Zdena (advisor) ; Borčin, Kateřina (referee)
Reactive oxygen species (ROS) are regularly produced in cells as a by-product of aerobic metabolism. Hence, organisms developed various defence mechanisms, which are able to avoid molecular damages caused by ROS under physiological conditions. In stress conditions, however, such defence mechanisms are not sufficient to avoid molecular damages. Accumulation of oxidized proteins is supposed to be a reason for ageing and many diseases including Friedreich's ataxia, Amylotrophic lateral sclerosis, Alzheimer's disease and many others. During oxidative stress, reactive oxygen species are reflected in oxidation of cystein residues in transcription factors, regulation proteins and active canters centers of enzymes. Oxidative modifications however could lead also to changes in transcription factor activity and activation of specific pathways, including changes in gene expression, cell cycle and proteolysis. This work shows defence mechanisms, ROS and proteins altered by reactive oxygen species that may function as important signalling molecules, which are essential for many cellular processes.
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