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Signaling effects of adenylate cyclase toxin action on phagocytes
Černý, Ondřej
The adenylate cyclase toxin (CyaA) plays a key role in the virulence of Bordetella pertussis. CyaA penetrates CR3-expressing phagocytes and catalyzes the uncontrolled conversion of cytosolic ATP to the key second messenger molecule cAMP. This paralyzes the capacity of neutrophils and macrophages to kill bacteria by oxidative burst and opsonophagocytic mechanisms. Here we show that CyaA suppresses the production of bactericidal reactive oxygen and nitrogen species in neutrophils and macrophages, respectively. The inhibition of reactive oxygen species (ROS) production is most-likely achieved by the combined PKA-dependent inhibition of PLC and Epac-dependent dysregulation of NADPH oxidase assembly. Activation of PKA or Epac interfered with fMLP-induced ROS production and the inhibition of PKA partially reversed the CyaA-mediated inhibition of ROS production. CyaA/cAMP signaling then inhibited DAG formation, while the PIP3 formation was not influenced. These results suggest that cAMP produced by CyaA influences the composition of target membranes. We further show here that cAMP signaling through the PKA pathway activates the tyrosine phosphatase SHP-1 and suppresses the production of reactive nitrogen species (RNS) in macrophages. Selective activation of PKA interfered with LPS- induced iNOS expression...
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Pore-forming properties of Bordetella pertussis CyaA toxin and composition of the lipid bilayer.
Rädisch, Robert ; Konopásek, Ivo (advisor) ; Krůšek, Jan (referee)
Bordetella pertussis produces many virulent factors including adenylate cyclase toxin (CyaA) This toxin preferentially invades cells of immune system with integrin receptor CD11b/CD18 and weakens the immune system of the host. CyaA affects invaded cells in two ways. First, CyaA creates a cation-selective pores in the membrane of invaded cell and causes colloidal osmotic lysis. Second, CyaA converts cytosolic ATP into signal molecule cAMP, which causes a loss of physiological function of invaded cell and also leads to cellular death. The aim of my thesis was to test a suitability of a new model system composed from synthetic lipids - diphytanoyls, for a characterization of pore-forming properties of adenylate cyclase toxin. In the past, asolectin model system comprising many different lipid was used for characterization but it was found to be too complex for defining the role of individual lipids in CyaA activity. Further the effect of cholesterol for activity of CyaA was studied in a new model system because it was found recently that translocation of adenylate cyclase domain takes place at lipids rafts with high concentration of cholesterol. The last aim of my thesis was to characterize a newly discovered type of channel with the two conductance levels. Key words: Bordetella pertussis, adenylate...
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The role of RTX domain in the activity of adenylate cyclase toxin from Bordetella pertussis
Klímová, Nela ; Bumba, Ladislav (advisor) ; Konopásek, Ivo (referee)
The adenylate cyclase toxin (CyaA) of Bordetella pertussis is a 1706-residue protein comprising an amino-terminal adenylate cyclase (AC) domain and a carboxy-terminal Repeat-in-Toxin (RTX) domain. The RTX domain is a hallmark of the family of RTX proteins, which are secreted from the cytosol of Gram-negative bacteria to the cell environment through the Type I Secretion System (T1SS). The RTX domain of CyaA consists of five blocks of RTX nonapetide repeats with a consensus sequence X-(L/I/V)-X-G-G-X-G- X-D. The aim of this work was to determine the role of the RTX domain in biological activities of CyaA and its role in the secretion of the toxin molecule from Bordetella pertussis. Systematic deletion analysis revealed that none of the prepared CyaA constructs was able to translocate its AC domain across the cytoplasmic membrane of host cells and make pores in target membranes. Moreover, deletion of individual RTX repeat blocks resulted in a very low efficacy of secretion of CyaA mutants into cell exterior. These data suggested that structural integrity of the RTX domain of CyaA is essential not only for cytotoxic activities of the toxin molecule but also for its secretion through the T1SS.
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Mechanism of secretion of adenylate cyclase toxin from Bordetella pertussis via Type I secretion system (TISS)
Klímová, Nela ; Bumba, Ladislav (advisor) ; Konopásek, Ivo (referee)
Type I secretion system in Gram-negative bacteria translocates proteins from the cytoplasm to the extracellular medium in a single step across both membranes. The membrane-spanning channel is made up of just three proteins - an ATPase in the inner membrane, a membrane fusion protein and a specific outer membrane protein. This work provides a summary of current knowledge concerning the structure of the secretion system, as well as the assembly of the trans-envelope complex and the mechanism of protein secretion. The role of substrate folding on secretion is highlighted. It deals to some extent with the properties of the substrates translocated by the type I secretion system, with emphasis on the adenylate cyclase toxin of Bordetella pertusis, the agent causing whooping cough.
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Adenylate cyclase toxin of Bordetella pertussis, its conformation and ion balance in host cell.
Motlová, Lucia ; Konopásek, Ivo (advisor) ; Krůšek, Jan (referee)
Adenylate cyclase (CyaA, ACT) toxin is one of the major virulence factors of Bordetella pertussis. Although CyaA binds to many types of membranes, it is assumed that the integrin CD11b/CD18 is its receptor which is expressed on the surface of myeloid cells. CyaA belongs to the family of RTX toxin-hemolysins. CyaA acts on the host cells by two independent activities. One of them is the conversion of ATP to cyclic AMP, which is catalyzed by adenylate cyclase (AC) domain after its translocation into the cytosol of the host cell, which leads to the entry of calcium cations into the host cell. Translocation is probably initiated by interaction of CyaA monomer with the target membrane. The second activity is the formation of CyaA channel selective for cations, which probably causes colloid osmotic lysis of target cells. The channel forming activity is provided by RTX hemolysin domain which most probably forms oligomers, although it was found that CyaA as a monomer causes leakage of potassium cations from the host cell. It is also not clear whether the oligomerization of CyaA would occur in solution, or after interaction with the host membrane. The aim of this study was to examine the flow of sodium ions on the membrane of murine macrophages J774A.1, which express integrin CD11b/CD18 on their surface....
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Adenylate-cyclase toxin of Bordetella pertussis as a marker for the study of the complement receptor CD11b/CD18 endocytosis.
Chvojková, Věra ; Bumba, Ladislav (advisor) ; Černý, Jan (referee)
Bordetella pertussis is an important human pathogen that causes an infection disease called whooping cough. This gram-negative bacterium produces an adenylate cyclase toxin (CyaA) that recognizes an integrin receptor CD11b/CD18 present on the surface of myeloid phagocytes and delivers an adenylate cyclase (AC) domain into the cell cytosol. This thesis deals with the endocytic machinery of CyaA and its potential use as a specific marker for endocytosis of the CD11b/CD18 receptor molecule. Detoxified mutant of CyaA, CyaA-AC- , that has the capacity to promote calcium influx as well the potassium efflux, was shown to trigger activation of the integrin receptor CD11b/CD18 followed with endocytic uptake by clathrin-dependent pathway. On the other side, the inactive mutant CyaA-KP-AC- that is unable to provoke integrin activation was endocytosed by clathrin-independent pathway. These results suggest that the various endocytic pathways of the CD11b/CD18 are determined by different conformational states of the receptor molecule.
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Assessing biochemical properties of PDE8A1: Design of experimental system in living cells"
Galica, Tomáš ; Černý, Jan (advisor) ; Mašek, Tomáš (referee)
4 Abstract Phosphodiesterases (PDEs), enzymes that hydrolyze cyclic nucleotides, are important components of signal transduction pathways in eukaryotic cells. Second messenger 3'-5'- cyclic adenosine monophosphate (cAMP) is hydrolyzed by specific PDEs. By controlling concentration levels of cAMP in cell, PDEs preserve favorable environment for successful transmission of the cAMP signal. Moreover, PDEs are activated by protein kinase A (PKA) in response to elevated cAMP concentration, which is a feature crucial for signal termination. PDE8A1 is a high-affinity cAMP-specific IBMX insensitive phosphodiesterase, an enzyme important for cAMP signaling. However, mostly due to a lack of specific inhibitor, its role has not been assessed in detail. This thesis reports cloning of PDE8A1, identification of its posttranslational modifications and subcellular localization, as well as an alternative approach to address PDE biology by the use of cyclase toxin from Bordetella pertussis. Keywords: phosphodiesterase, cAMP, posttranslational modification, myristoylation, palmitoylation, adenylate cyclase toxin
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Immunomodulation of dendritic cells by adenylate cyclase toxin from B. pertussis
Jáňová, Hana ; Brdička, Tomáš (referee) ; Adkins, Irena (advisor)
Adenylate cyclase toxin (CyaA) produced by the causative agent of whooping cough Bordetella pertussis, is a key virulence factor important for colonization of the host. CyaA targets preferentially myeloid phagocytes expressing CD11b/CD18 integrin. By elevating cytosolic cAMP in the host cells, CyaA interferes with their phagocytic, chemotactic and oxidative burst capacities. Furthermore, CyaA modulates the secretion of cytokines and the maturation state in LPS-stimulated dendritic cells (DC) by affecting the expression of costimulatory molecules. In this study, we investigated the effects of CyaA on the capacity of murine bone-marrow DC to prime CD4+ and CD8+ T cells in response to ovalbumin epitopes delivered by the CyaA-AC- toxoid, as a model antigen. Further, we examined the possible impact of CyaA on the antigen uptake and processing for MHC class I and II-restricted presentation by DC, as we previously observed a decreased T cell stimulatory capacity of CyaA-treated DC in response to soluble ovalbumin. We found out that the high levels of cAMP generated by CyaA in LPS-stimulated DC account for the decreased presentation of ovalbumin epitopes carried by CyaA-AC- toxoid on MHC class I and II molecules, thereby impairing the CD8+ and CD4+ T cell responses. Whereas CyaA did not influence the...
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Construction and characterization of recombinant adenylate cyclase toxoid of bacterium Bordetella pertussis carrying mycobacterial antigen TB7.7
Mikulecký, Pavel ; Vopálenský, Václav (referee) ; Staněk, Ondřej (advisor)
Bacterium Mycobacterium tuberculosis is an etiological agent of a deadly disease called tuberculosis that presents a global problem. According to The World Health Organization there are more than 2 billions people infected with latent tuberculosis all over the world. There is still need of specific, sensitive, quick and economic available method for identification of infected individuals. Currently in vitro blood tests are considered to be the best way of diagnosis. They are based on restimulation of specific T lymphocytes by mycobacterial antigens derived from virulent strains. There are several different approaches for enhancing of direct antigen delivery into antigen presenting cells and promising one is a genetically detoxified adenylate cyclase toxin (CyaA) of bacteria Bordetella pertussis. The main aim of the thesis includes construction and subsequent characterization of biological properties of CyaA protein carrying specific mycobacterial antigen TB7.7 in translocating domain. Here is shown that fusion protein CyaA-TB7.7 can form cation selective pores in target cell membranes and is able to deliver antigens into the cytosol of APC to be presented on surface with molecules MHC class II. Genetically detoxified CyaA- TB7.7 protein will be used to supplement current approaches such as also in vitro...
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Signalization of adenylate cyclase toxin of Bordetella pertussis in macrophages.
Černý, Ondřej ; Kuthan, Martin (referee) ; Kamanová, Jana (advisor)
Adenylate cyclase toxin (CyaA) is a key virulence factor of Bordetella pertussis, the causative agent of whooping cough. The toxin targets primarily myeloid phagocytes expressing CD11b/CD18 (αMβ2, CR3, Mac-1) and by elevation of cytosolic cAMP levels it paralyses their macropinocytic and opsono-phagocytic functions. Here, we dissected the cAMP-regulated pathway responsible for the block of macrophage macropinocytosis and characterized the capacity of CyaA-treated macrophages to shut- down Akt (protein kinase B, PKB) signaling; that controls nitric oxide (NO) production by macrophages. By using specific activators of protein kinase A (PKA) and for the exchange protein activated by cAMP (Epac), we show that activation of the cAMP effector Epac inhibits macropinocytosis in macrophages. Moreover, upon transfection of macrophages by the constitutively active and dominant negative variants of a downstream effector of Epac, the small GTPase Rap1, inhibition or upregulation of macrophage macropinocytosis was observed, respectively. It was reported previously that the Epac/Rap1 pathway regulates activity of tyrosin phosphatase SHP-1 as well as of protein phosphatase 2 A (PP2A). We show that inhibition of both tyrosin phosphatases and PP2A interferes with CyaA-mediated block of macropinocytosis. These...
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