|
|
Regenerace smyslových orgánů u raků
KOR, Golara
The antennae are a crucial sensory organ in crayfish that plays vital roles in their survival, communication, and orientation within their environment. They are equipped with sensory hairs that enable crayfish to detect various stimuli. Crayfish possess the unique ability to regenerate their antennae. Hemocytes are specialized cells within crayfish and play a crucial role in their immune system and contribute to the process of regeneration. We applied cryo-scanning and Transmission electron microscopies to study sensory organ morphology and regeneration in crayfish. In Chapter 2, cryo-scanning electron microscopy was used to identify potential differences in antennal morphology in six different crayfish species including marbled crayfish Procambarus virginalis, Mexican dwarf crayfish Cambarellus patzcuarensis, red swamp crayfish Procambarus clarkii, signal crayfish Pacifastacus leniusculus, common yabby Cherax destructor, and spiny-cheek crayfish Faxonius limosus. We observed significant differences among the six crayfish species in the ratios of antenna length, segment length and width to carapace length, and the number of segments. Examination of ultrastructural features unveiled differences in the distribution patterns of sensory hairs along the antenna and the morphology of the antennal surface. The varying morphology of antennae among studied species possibly indicates an adaptation to the specific conditions of their respective habitats. Furthermore, the outcomes demonstrated that a combination of variations in both antennal morphological characteristics and biometric measurements could effectively help us to distinguish the different studied crayfish species. In Chapter 3, the ultrastructural behaviour of hemocytes during coagulation and phagocytosis in the initial phases of injury in marbled crayfish was explored using transmission electron microscopy. During the coagulation process, hemocytes experienced marked transformations in morphology. The cytoplasmic granules exhibited a change from electron-dense to electron-lucent forms with the progress of coagulation. The transformed granules containing amorphous, electron-lucent material were observed to combine and release their contents into the extracellular space as part of the coagulation process. Additionally, it was observed that the nucleus contents also play a role in the coagulation process. Furthermore, the amputation of the leg led to substantial muscle degeneration, and phagocytic hemocytes start to take up the necrotic tissues. Besides, we observed the digested remains from phagocytized necrotic tissues merged into granules and other cellular components, thereby enhancing the granularity of the hemocytes and altering their cellular morphology. However, it is essential to note that hemocyte degranulation during coagulation could potentially reduce their granularity. Since morphological features are critical for classifying hemocytes, these morphological changes during coagulation and phagocytosis must be considered significant factors. The degenerated material that stored inside phagocytic hemocytes may have application in immunological and regeneration processes. In Chapter 4, we employed transmission electron microscopy to explore the ultrastructural aspects of potential immune cell involvement in nerve regeneration within crayfish antennae post-amputation. The findings indicated that, during nerve regeneration, all three forms of hemocytes were present. However, the granules within semi-granulocytes and granulocytes mainly contributed to the generation of new organelles such as mitochondria, the Golgi apparatus, and nerve fibers in the regenerated nerves of crayfish antennae. We revealed the transformation of granules of hemocytes into diverse organelles during the process of nerve regeneration at the ultrastructural level. In conclusion, these granules function as compact repositories of adaptable materials carried by immune cells, capable of transformatio
|
|
|
Applied Artificial Immune Systems
Dolejší, Petr ; Bidlo, Michal (referee) ; Schwarz, Josef (advisor)
This final year thesis introduces the principles and properties of the artificial immune systems to the reader, then abstracts the principles from this knowledge and applies the real artificial immune systems on them. It provides a view at the practical applications that use and extend given ideas.
|
|
|
Produkce cytokinů v průběhu mastitid skotu
Tylčová, Natálie
The aim of this work was to detect the pro-inflammatory cytokine TNF-α and the anti-inflammatory IL-10. The experiment included 20 dairy cows at different stages of mastitis, which came from the Nová Ves agricultural cooperative. 80 samples were totaly taken, from all quarters, from each dairy cow, which were divided into three groups. The first group represented healthy dairy cows, without clinical signs of mastitis, with a somatic cell count of up to 100 000, from 5 dairy cows, that is 20 milk samples. The second group consisted of dairy cows with clinical signs of mastitis and somatic cell counts up to 400 000, from 10 cows, that is 40 milk samples. The third group consisted of dairy cows with somatic cell counts of more than 1 000 000, from 5 cows, that is 20 milk samples. These samples were processed in the laboratory of the Department of Animal Morphology, Physiology and Genetics at Mendel University in Brno. The concentration of TNF-α and IL-10 was detected by ELISA. The average concentration of TNF-α in the first group was 138.70 pg/ml, in the second group 133.60 pg/ml, in the third group 95.05 pg/ml. The average concentration of IL-10 in the first group was 9.52 pg/ml, in the second group 11.03 pg/ml, in the third group 8.66 pg/ml.
|
|
|
Circadian system as a modulator of neuroinflammation
Kotková, Eliška ; Spišská, Veronika (advisor) ; Dočkal, Tereza (referee)
The circadian system is involved in the regulation of biological rhythms in physiological, behavioural and immune processes. These rhythms can be found in the central nervous system, including the blood-brain barrier, astrocytes, microglia, and the pineal gland, which produces the hormone melatonin. Neuroinflammation is a complex response of the central nervous system to inflammatory stimuli by rhythmic expression of pro-inflammatory and anti-inflammatory mediators or by rhythmic regulation of immune system cells. Studies have examined the influence of genes and proteins of the circadian system, suprachiasmatic nuclei, melatonin, and glial cell rhythms on neuroinflammation. Lipopolysaccharide was used to induce neuroinflammation in these studies. Based on these studies, the effect of melatonin on mikroglia and endothelial cells, and the responses of suprachiasmatic nuclei was evaluted as the most important circadian modulator of neuroinflammation. This thesis describes the basic principles of the circadian system and neuroinflammation, with the last section presenting the modulation of neuroinflammation by the circadian system. Keywords: astrocytes, blood-brain barrier, circadian system, cytokines, immune system, melatonin, microglia, neuroinflammation, suprachiasmatic nuclei
|
|
|
Current knowledge about the influence of the intestinal microbiome on the development, course and consequences of lactose intolerance
Černá, Pavlína ; Tomešová, Jitka (advisor) ; Kohout, Pavel (referee)
The bachelor thesis investigates the current knowledge about the influence of the gut microbiome on the development and severity of lactose intolerance, as well as whether and how it can be changed to influence the course of existing lactose intolerance and its immediate and long- term consequences. In the first part of this bachelor thesis I discuss lactose itself and its metabolism, which shows its direct link to the gastrointestinal tract. Lactose intolerance (LI) is also described, how it is diagnosed, what it manifests itself as, and what its degrees are. The next chapter discusses the relationship between LI, the gut, and the gut microbiome. First, I focus here on the possible adaptability of the gut, which is mainly determined by the presence of the microbiome. There is also a link between LI and other gastrointestinal disorders in which gut bacteria play a role. The microbiome is a very dynamic population of different types of bacteria, fungi and viruses that can influence the course of lactose intolerance. This can be exploated in the subsequent therapy of LI with probiotics, which are included in part three. The most commonly used probiotic bacteria are representatives of the genus Bifidobacterium and Lactobacillus. However, probiotics are not the only option for using the gut microbiome...
|
|
|
Verification of practical possibilities of strengthening the immune system in men
BOHÁČOVÁ, Kateřina
This thesis focuses on the immune systém, its function and the factors that influence it. The theoretical part defines the concept of the immune systém and its functioning. Firstly, it presents the biological perspective, including a description of its basic cells, primary organs and division. The thesis then addresses important factors that have a significant impact on its function. These factors are divided into positively influencing and negatively influencing factors with each chapter discussing their effects onhuman health in case of excess or deficiency. The practical part aims to apply the knowledge in practice, specifically through immune training designesd by Dr. Hermann Geesing. The immune training is conducted with eight men over a period of five months. The participants subjectively evaluate the results of their training based on predetermined questions. The output is presented through tables and graphs along with an interview. The evaluation includes the participantts mental and physical state at the beginning and end of the immune training, along with a description of activities that were either easy or difficult for the participants to accomplish.
|
|
|
Anaphylactic shock in prehospital emergency care
DLOUHÁ, Andrea
The bachelor thesis is elaborated on the topic "Anaphylactic shock in pre-hospital emergency care" and consists of two parts - theoretical and practical. The theoretical part aims to acquaint the reader with the finding of professional sources on the topic of pre-hospital emergency care and anaphylactic shock. It also includes basic information about allergies and immune system function. In anaphylactic shock, it is first defined what the condition is and what shock means in general. Furthermore, the data are focused on pathophysiology - what pathological processes take place in this state in the organism, etiology - causes of reaction, clinical picture - manifestations on individual organ systems, and therapy of anaphylactic shock. The second, practical, part presents the information that was obtained through semi-structured interviews. The interview consisted of 19 questions and the research group consisted of 14 paramedics who worked in the regional centers of the Emergency Medical Service of the South Bohemian Region. The results of the research were analyzed, divided into 8 categories, and broken down into tables. The practical part included two objectives: 1. To map the knowledge of paramedics in the field of anaphylactic shock and 2. To map the progress of paramedics in the RZP crew in a patient with anaphylactic shock. We believe that the set goals have been met and thanks to this it will be possible to evaluate the sufficiency of knowledge of this issue and to look into the procedures that paramedics apply when they encounter a patient in anaphylactic shock in pre-hospital emergency care.
|
|
| |
|
|
Molecular mechanisms of morphine action on the immune system
Zeťková, Anna ; Hejnová, Lucie (advisor) ; Vašek, Daniel (referee)
This paper focuses on the molecular effect of morphine, which is widely used for its analgesic and sedative properties. This makes it an important drug for the treatment of chronic and severe pain. In addition to its positive effects, the long-term administration of morphine in particular has its drawbacks, such as the rapid development of tolerance and dependence on it. Other negative effects include constipation, respiratory stagnation or vomiting. These effects are caused not only by the influence of morphine on nerve cells, but also on other cells of the body. This thesis is primarily concerned with the effect of morphine on microglia, which are not only involved in the immune response in the central nervous system, but also have an effect on pain perception or the development of tolerance. This is one of the main areas of research in the field of opioids, therefore, the aim of this thesis is to summarize the findings on the effect of morphine on microglia, which happens mainly through opioid receptors, toll-like receptors and purinoceptors.
|
|
|
Úloha Adenylát kinázy 1 v aktivaci a metabolismu imunitních buněk larev \kur{Drosophila melanogaster}
KAISLEROVÁ, Nikola
The aim of this thesis was to study the role of Adenylate kinase 1 (Ak1) in the immune system of Drosophila melanogaster larvae upon the infection by parasitoid wasp Leptopilina boulardi. Using the immune specific Ak1 RNA interference, it was analyzed the effect of Ak1 reduction on the immune response and viability of Drosophila. The importance of Ak1 was also evaluated within the metabolism of immune cells. It has been shown that Ak1 is crucial in energy metabolism of immune cells and important for the proper functioning of immune system.
|
guest ::
