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Regulation of Cathepsin D Activity and Activation
Máša, Martin ; Mareš, Michael (advisor) ; Jonáková, Věra (referee) ; Holada, Karel (referee)
PhD Thesis ABSTRACT REGULATION OF CATHEPSIN D ACTIVITY AND ACTIVATION Martin Máša supervisor: Michael Mareš Department of Biochemistry Faculty of Science Charles University Institute of Organic Chemistry and Biochemistry Academy of Sciences of the Czech Republic PRAGUE 2009 Introduction Cathepsin D (CD) is an aspartic peptidase located in the lysosomes of all mammalian cells, its main role is catabolic degradation of proteins. More over CD is known to participate in a range of physiological processes such as apoptosis and tissue homeostasis, as well as in the regulation of angiogenesis and the production of peptidic antigens. The role of CD in pathophysiology is associated with several diseases such as Alzheimer's disease and cancer. Alzheimer's disease is a neurodegenerative disorder, which is generally considered to be the most common form of dementia. Progression of this disease is accompanied with the deposition of amyloid plaques (AP) in the brain, which leads to neurodegeneration. The AP is a fragment released from amyloid precursor protein (APP) cleaved by secretases1 . High levels of CD were found in cerebrospinal fluid of the Alzheimer's patients2 . It was demonstrated that CD is able to cleave APP and produce the pathogenic AP. A genetic polymorphism in the CD gene was reported, which changes...
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Proteolytic enzymes of the blood fluke Schistosoma mansoni: pathobiochemistry and their use in biomedicine
Leontovyč, Adrian ; Mareš, Michael (advisor) ; Kašný, Martin (referee) ; Mikeš, Libor (referee)
Blood flukes of the genus Schistosoma are causative agents of the disease schistosomiasis, which affects more than 250 million people worldwide and together with malaria represents the most important parasitic infection. There is a high risk of resistance development against the only drug in use, therefore novel therapeutic approaches for schistosomiasis are intensively researched. Proteolytic enzymes of schistosomes are crucial for their survival in the host and thus are promising drug and vaccine targets. This thesis is focused on two proteases of the human blood fluke Schistosoma mansoni, which were produced as recombinant proteins and functionally characterized. The first one is serine protease SmSP2, which is localized at the surface of the adult worms and secreted into the blood of the host. It was identified as a vasodilatory and fibrinolytic agent, and its modulatory role in host-parasite interactions was proposed. The second one is cysteine cathepsin SmCL3, which is involved in the digestion of host blood proteins serving schistosomes as nutrients. Potent peptidomimetic inhibitors of SmCL3 were identified, and their antischistosomal activity was demonstrated in an assay with live parasites. The thesis provides new important information about S. mansoni proteases, their pathobiochemistry...
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Recombinant expression and functional characterization of plant Kunitz inhibitors
Rybáriková, Renata ; Mareš, Michael (advisor) ; Hlouchová, Klára (referee)
PDI ("potato cathepsin D inhibitor ") and NID ("novel inhibitor of cathepsin D ") from potato (Solanum tuberosum) belong to the protein family of Kunitz inhibitors (I3 family, Merops database). These 20 kDa isoinhibitors with the typical β-trefoil architecture inhibit aspartic and serine peptidases. In this thesis, the constructs for recombinant expression of PDI and NID in the yeast Pichia pastoris system were prepared and high-producing colonies were selected. Both proteins were identified in the cultivation media by mass spectrometry and N-terminal sequencing. A purification protocol for PDI with three chromatographic steps was designed. Analogous functional properties were demonstrated for the purified recombinant PDI and the native PDI isolated from a natural source. Analysis of the inhibitory specificity showed that PDI is a potent inhibitor of selected aspartic peptidases from the A1 family and serine peptidases from the S1 family, including a relevant enzyme of insect origin. This finding supports the hypothesis that Kunitz inhibitors are involved in plant defense against herbivorous insects. The inhibitors prepared within the project will be used for analysis of the reactive centers against target peptidases by protein crystallography. (In Czech) Key words: proteolytic enzymes, activity...
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Specific prion protein antibodies characterisation and use in diagnostic
Šafaříková, Eva ; Holada, Karel (advisor) ; Mareš, Michael (referee) ; Živný, Jan (referee)
Transmissive spongiform encephalopathies (TSEs) are neurodegenerative diseases characterized by depositions of abnormally folded prion protein (PrPTSE ) in brain. PrPTSE is at present the only specific biochemical marker of human and animal TSEs. Diagnostic tests are based on the detection of PrPres after proteinase K digestion of brain homogenate using Western blot or on the immunohistochemistry of fixed brain tissue, which are both difficult and time consuming. In this work we focused on development of a new type of tests based on PrP detection without need of proteinase K digestion. As deposits of PrPTSE remain in the body for a long time, there is a substantial chance of them being nonenzymatically modified by glycation. The detection of glycated PrPTSE may have a potential to serve as a diagnostic marker. We prepared monoclonal antibodies specific for carboxymethyl lysine/arginine modified prion protein. Bacterially expressed and purified recombinant human prion protein (rhPrP) was modified by glyoxylic acid that introduces carboxymethyl groups on lysine and arginine residues present within the molecule of the protein. Modified rhPrP (rhPrP-CML) was used for immunization of laboratory mice and hybridoma cells were prepared. Screening of cell supernatants resulted in the selection of 4...
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New inhibition mechanisms of regulation of cathepsin D activity
Hánová, Iva ; Mareš, Michael (advisor) ; Heidingsfeld, Olga (referee) ; Mikeš, Libor (referee)
The aspartic protease cathepsin D (CatD) is associated with numerous pathologies, and therefore the molecular mechanisms of its activation are studied for their potential uses in biomedicine. This dissertation thesis is focused on new, natural endogenous inhibitors of CatD, the analysis of their interaction, and the development of synthetic inhibitory biomimetics. Two groups of inhibitors of CatD, which are the first specific endogenous regulators of this enzyme, have been identified. (1) Sphingolipids are complex modulators of human CatD, depending on their structure. While sphingosines and ceramides are inhibitors of CatD, their phosphorylated derivates act as activators of CatD. A correlation was found between the action of these sphingolipids on CatD and their modulatory effect on cancer cells. (2) Using the analysis of a CatD of parasitic origin, a new mechanism of inhibition was identified, which is conserved in aspartic proteases of the pepsin family. A peptide fragment is released autocatalytically from the zymogen of CatD, which then acts as an allosteric inhibitor, binding to an exosite on the surface of the catalytically active enzyme. Furthermore, synthetic macrocyclic inhibitors of CatD were prepared, which mimic the binding conformation of the bacterial inhibitor pepstatin in the...
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Regulation of the activity of aspartic and serine proteases by selective natural inhibitors
Srp, Jaroslav ; Mareš, Michael (advisor) ; Novák, Petr (referee) ; Bařinka, Cyril (referee)
Proteases are involved in many physiological processes and their dysregulation is associated with various pathologies. Protease activity is effectively controlled by natural inhibitors. This PhD thesis is focused on the inhibitors of aspartic and serine proteases of animal and plant origin and provides the identification, biochemical characterization and structural description of their inhibition mechanisms. Plant Kunitz inhibitors are produced as defensive proteins, and they are able to block activities of a broad spectrum of proteases. In this thesis, the digestive proteolytic system of the Colorado potato beetle, a herbivore pest of potato plants, was described with the help of functional proteomics. It was shown that aspartic and serine proteases from this herbivore are effectively blocked by two potato Kunitz inhibitors (namely PCDI, PSPI). Using structural analysis, novel types of reactive centers were identified on PCDI and PSPI molecules for the inhibition of aspartic protease cathepsin D and the serine proteases trypsin and chymotrypsin. The analysis of the reactive center on a PCDI with the crystal structure of digestive cathepsin D from the Colorado potato beetle explained the mechanism of their interaction. Sphingolipids were identified as the first endogenous inhibitors of human...
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