National Repository of Grey Literature 3 records found  Search took 0.01 seconds. 
Translational control in immune response.
Hlaváček, Adam ; Valášek, Leoš (advisor) ; Čáp, Michal (referee)
Immune reaction often requires a prompt modification of gene expression that in turn alters cellular physiology. There are an increasing number of articles supporting a critical role of translational control in this aspect of cellular biology. The aim of this work is to present some of cellular and molecular mechanisms that connect translational control and immune reaction in immune and somatic cells and can be possibly misused by some viruses. Perhaps not surprisingly, many immunologically relevant translational control mechanisms are similar to those acting during the stress response. Over the years it has been documented that the T cells, dendrocytes, Natural killer cells and macrophages utilize translational control for their immunological activation following stimulation. Combination of general and gene-specific translational control mechanisms enables fast changes in proteome and physiology that are characteristic for immune cell activation. The overall impact of translational control on immune response is further illustrated by the fact that it acts upon each stage of life of immune cells - from their activation, through survival, to a programmed cell death. Even in some non-immune cells the translational control plays an important role with respect to immunity, as these cells are known to have an...
Role of translational elongation factors in dynamics of stress granules.
Hlaváček, Adam ; Hašek, Jiří (advisor) ; Janderová, Blanka (referee)
eIF5A seems to be involved in both, translation initiation and elongation. It was also reported to affect assembly of P-bodies. Given similarities of P-bodies with stress granules (SGs) we decided to test the role of eIF5A in dynamics of heat-induced SGs and its implications for the cell recovery. For the evaluation of eIF5A function in SGs formation was used the temperature- sensitive (ts) mutant eIF5A-3 (C39Y/G118D) cultivated under permissive temperature 25řC and Rpg1-GFP fusion protein as a marker of SGs. The cells were exposed to robust heat shock at 46řC for 10 minutes. The ability of the mutant cells to recover was tested by propidium iodine staining and colony forming units plating. We found that the eIF5A-3 mutant forms heat-induced SGs more loosely aggregated, indicating that the fully functional eIF5A is necessary for SGs assembly. However, it does not seem to affect the rate of SGs dissolution. Survival tests indicate that eIF5A-3 mutant cells are susceptible to dying in a similar way as WT cells; nevertheless, their ability to resume proliferation is significantly better. We also observed a loss of the ts phenotype of the eIF5A-3 mutant. This loss cannot be explained by reversion of mutated eIF5A sequence into normal. Probable cause lies in the adaptive evolution. Our results indicate role of...
Translational control in immune response.
Hlaváček, Adam ; Valášek, Leoš (advisor) ; Čáp, Michal (referee)
Immune reaction often requires a prompt modification of gene expression that in turn alters cellular physiology. There are an increasing number of articles supporting a critical role of translational control in this aspect of cellular biology. The aim of this work is to present some of cellular and molecular mechanisms that connect translational control and immune reaction in immune and somatic cells and can be possibly misused by some viruses. Perhaps not surprisingly, many immunologically relevant translational control mechanisms are similar to those acting during the stress response. Over the years it has been documented that the T cells, dendrocytes, Natural killer cells and macrophages utilize translational control for their immunological activation following stimulation. Combination of general and gene-specific translational control mechanisms enables fast changes in proteome and physiology that are characteristic for immune cell activation. The overall impact of translational control on immune response is further illustrated by the fact that it acts upon each stage of life of immune cells - from their activation, through survival, to a programmed cell death. Even in some non-immune cells the translational control plays an important role with respect to immunity, as these cells are known to have an...

See also: similar author names
3 Hlaváček, Aleš
4 Hlaváček, Antonín
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