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Synthesis of peptides as potential ligands of aspartate protease HIV and MAY1 and confirmation of their inhibitory activity
Klikarová, Ivana ; Šácha, Pavel (advisor) ; Žáková, Lenka (referee)
The lentivirus known as the human immunodeficiency virus (HIV) is transmitted through blood and body fluids, causing the destruction of CD4 lymphocytes and leading to opportunistic infections that define acquired immunodeficiency syndrome (AIDS). The urgent need for new antiretroviral drugs stems from concerns about the long-term toxicity of existing drugs, HIV-1 variants resistant to treatment, and frequent changes in patient treatment. Drug development is focused on inhibitors of two viral enzymes, reverse transcriptase and protease. Antiretroviral therapy uses protease inhibitors in combination with nucleoside analogs to effectively suppress viral replication, prolonging the lives of HIV-infected patients and reducing morbidity. Cryptococcus neoformans and cryptococcus gattii infections primarily affect the immunocompromised population and have high morbidity and mortality rates. Resistance to commonly used antifungals has been emerging, making it more difficult to treat these infections. Protease inhibitor components used in antiretroviral therapies have shown some clinical efficacy in these opportunistic infections, particularly in Major Aspartyl peptidase 1, an aspartate protease belonging to the same family of proteases as the HIV protease. To search for low molecular weight peptide ligands,...
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The development, constitution and functions of the gland apparatus in schistosome cercariae and endopeptidases in its contents
Titlová, Lucie ; Mikeš, Libor (advisor) ; Konečný, Lukáš (referee)
Flukes of the family Schistosomatidae are blood parasites with two-host life cycles involving aquatic snails as intermediate hosts and avian or mammalian definitive hosts. Cercariae, as invasive aquatic stages of schistosomes, enter the lumen of vessels by penetrating the skin of the definitive host. During their short life, cercariae possess a glandular apparatus consisting of three types of glands with external secretion: penetration glands, escape glands, and a head gland. These glands secrete granules containing, among other things, proteolytic enzymes, which play an important role in the process of penetrating the host's skin, but at the same time they occupy many other functions during the life of the cercaria and other life stages of schistosomes. This thesis summarizes basic knowledge about the anatomy, function and development of the gland apparatus of schistosome cercariae and further focuses on the representation of proteolytic enzymes in these glands, specifically endopeptidases. At the end, it briefly compares the different representation of endopeptidases in some members of the family.
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Cathepsins L of Diplostomum pseudospathaceum cercariae
Perháčová, Terézia ; Mikeš, Libor (advisor) ; Hartmann, David (referee)
This study is focused on cercarial cysteine peptidases of the trematode Diplostomum pseudospathaceum. It follows previous research which confirmed the presence of a 24kDa cysteine peptidase in cercariae biochemically and by mass spectrometry. It was postulated, that the function of this peptidase is histolytic, when cercariae penetrate the tissues. During an attempt to purify this peptidase and characterize its peptidolytic activity, it was found out that the cercarial homogenate containsmore different peptidases varying in their pI. Tests of peptidolytic activity and inhibition have shown that these peptidases are cathepsin L-like. They are active over a broad spectrum of pH with optima of activities in weakly acidicor neutral pH. Using degenerate primers based on conserved motifs of cysteine pepridases, partial sequences of three genes for cathepsin L of D. pseudospataceum (DpCL1, 2 a 3) were obtained. Then the complete sequences of DpCL2 and 3 genes and partial sequence (without 5'end) of DpCL1 were obtained by RACE PCR. To confirm function of these peptidases we tried to immunolocalize them. We assumed that they are localized in penetration glands. Preliminary results suggested that some of the cathepsins could be also localized in the gut of cercariae. For more detailed biochemical...
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Cathepsin L by parasites - occurrence, features, functions
Perháčová, Terézia ; Mikeš, Libor (advisor) ; Kašný, Martin (referee)
Cathepsines L are lysosomal cysteine endopeptidases with an universal function in protein catabolism. This work discusses present knowledge about their characteristics in the context of their specific function in parasites. Features and function differences are described in detail on molecular level. The emphasis is on the biochemical properties with resultant use of these enzymes. Cathepsines L of kinetoplastida, aplikomplexa, entamoeba and helmints (focused on Fasciola spp and Schistosoma spp) are each discussed in appropriate chapters. Key words: hydrolase, protease, cysteine peptidase, cathepsin L, lysosome, parasite
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Kunitz-type inhibitors in Eudiplozoon nipponicum
Černíková, Markéta ; Mikeš, Libor (advisor) ; Jedličková, Lucie (referee)
Proteins containing Kunitz domain are mostly inhibitors of serine proteases. Their general characteristic is the presence of three disulfide bonds and small sizes around 6-10 kDa, although sometimes they consist of several Kunitz domains or they are part of more complex proteins. Their function is usually related to the regulation of physiological and proteolytic processes, but also to an interaction with pathogens or other defense mechanisms, such as being part of the sea anemone mucus or the venom of snakes and other invertebrates. We focused on Kunitz proteins in Eudiplozoon nipponicum, a helminth of the class Monogenea parasiting on gills of common carp (Cyprinus carpio). In the transcriptome of this parasite, several sequences with Kunitz domain have been identified based on similarities with the one already described Kunitz protein, EnKT1, suggesting that this parasite, like other bloodfeeding parasites, uses a whole set of these serine protease inhibitors with other specific functions. Several sequences with the Kunitz domain found in the transcriptome were verified by PCR and optionally supplemented by RACE-PCR. One protein, called EnKC1, was subsequently produced by recombinant expression in E. coli cells of SHuffleTM and Rosetta Gami B strains. Recombinant protein with the Kunitz domain...
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Generation and analysis of mutant mouse model to study roles of KLKs in cutaneous inflammation
Eliáš, Jan ; Kašpárek, Petr (advisor) ; Drbal, Karel (referee)
Kallikrein-related peptidases (KLKs) are a subgroup of serine proteases of undisputable importance for a variety of functions, whose dysregulation has been linked to several pathological phenotypes. Among those pathologies, the Netherton syndrome stands out, since it is one of the very few that has its mechanism directly linked to KLK proteases as the main culprit of the disease, namely KLK5, KLK7 and to a lesser degree, KLK14. In this case, a mutation in the SPINK5 gene leads to uncontrolled hyperactivity of those proteases, which results in epidermal barrier breach due to excessive epidermal desquamation and severe inflammation of the skin. Inflammation mechanisms of NS are still relatively poorly understood, with important roles being attributed to the activities of KLKs in the processing of immune system molecules and also to the dysregulation of the cutaneous microbiome. TNFα signalling plays a key role in the homeostasis and immune response in the skin. Chronic skin infections may lead to deleterious effects with strong participation of TNFα signalling. To address the degree of its effects on the pathogenesis of NS, we have created a mouse model where the TNFR1 is disrupted by knockout of the Tnfr1 gene on the background of a previously established mouse model of the Netherton syndrome. We...
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Bioactive molecules involved in blood processing by haematophagous monogeneans of the family Diplozoidae
Jedličková, Lucie
Monogeneans from the family Diplozoidae (subclass Heteronchoinea) are bloodfeeding ectoparasites inhabiting gills of common carp. Digestion of blood in diplozoids is an intracellular process taking place in gut cells within lysosomal cycle in the presence of parasite's peptidases. However, information about the blood digestion comes only from ultrastructural and histochemical analyses. Therefore, I have focused in this work on biochemical and molecular characteristics of bioactive molecules which may participate in blood processing by E. nipponicum adults, especially cysteine peptidases of cathepsin L- and B- types, aspartic peptidases of cathepsin D-type, and Kunitz-type inhibitors of serine peptidases. In homogenates and excretory/secretory (E/S) products of E. nipponicum adults, an activity of cysteine peptidases of cathepsins L-type dominated, followed by an activity of cathepsin D-like aspartic peptidases and a minor cathepsin B-like activity. Inhibitors of the abovementioned peptidase types completely blocked hemoglobinolytic activity in the samples. In the transcriptome of E. nipponicum adults, ten cathepsin L-coding transcripts were found and only one cathepsin B-coding transcript. Primary structures of the encoded enzymes were bioinformatically and phylogenetically compared. Two abundant...
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Bioactive molecules involved in blood processing by haematophagous monogeneans of the family Diplozoidae
Jedličková, Lucie
Monogeneans from the family Diplozoidae (subclass Heteronchoinea) are bloodfeeding ectoparasites inhabiting gills of common carp. Digestion of blood in diplozoids is an intracellular process taking place in gut cells within lysosomal cycle in the presence of parasite's peptidases. However, information about the blood digestion comes only from ultrastructural and histochemical analyses. Therefore, I have focused in this work on biochemical and molecular characteristics of bioactive molecules which may participate in blood processing by E. nipponicum adults, especially cysteine peptidases of cathepsin L- and B- types, aspartic peptidases of cathepsin D-type, and Kunitz-type inhibitors of serine peptidases. In homogenates and excretory/secretory (E/S) products of E. nipponicum adults, an activity of cysteine peptidases of cathepsins L-type dominated, followed by an activity of cathepsin D-like aspartic peptidases and a minor cathepsin B-like activity. Inhibitors of the abovementioned peptidase types completely blocked hemoglobinolytic activity in the samples. In the transcriptome of E. nipponicum adults, ten cathepsin L-coding transcripts were found and only one cathepsin B-coding transcript. Primary structures of the encoded enzymes were bioinformatically and phylogenetically compared. Two abundant...
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Bioactive molecules involved in blood processing by haematophagous monogeneans of the family Diplozoidae
Jedličková, Lucie ; Mikeš, Libor (advisor) ; Horn, Martin (referee) ; Sojka, Daniel (referee)
Monogeneans from the family Diplozoidae (subclass Heteronchoinea) are bloodfeeding ectoparasites inhabiting gills of common carp. Digestion of blood in diplozoids is an intracellular process taking place in gut cells within lysosomal cycle in the presence of parasite's peptidases. However, information about the blood digestion comes only from ultrastructural and histochemical analyses. Therefore, I have focused in this work on biochemical and molecular characteristics of bioactive molecules which may participate in blood processing by E. nipponicum adults, especially cysteine peptidases of cathepsin L- and B- types, aspartic peptidases of cathepsin D-type, and Kunitz-type inhibitors of serine peptidases. In homogenates and excretory/secretory (E/S) products of E. nipponicum adults, an activity of cysteine peptidases of cathepsins L-type dominated, followed by an activity of cathepsin D-like aspartic peptidases and a minor cathepsin B-like activity. Inhibitors of the abovementioned peptidase types completely blocked hemoglobinolytic activity in the samples. In the transcriptome of E. nipponicum adults, ten cathepsin L-coding transcripts were found and only one cathepsin B-coding transcript. Primary structures of the encoded enzymes were bioinformatically and phylogenetically compared. Two abundant...
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Analysis of secretome from Trichobilharzia regenti cercariae and characterisation of selected peptidases
Konečný, Lukáš ; Kašný, Martin (advisor) ; Horn, Martin (referee)
(English): Trichobilharzia regenti is a neurotropic parasite of birds from the family Schistosomatidae. Cercariae, the invasive stages of these trematodes actively penetrate the host skin employing excretory- secretory products (ESPs), which contain proteolytic enzymes able to disrupt host tissues and thus reach the successful transmission. The most abundant secreted enzyme responsible for cercarial penetration of the human schistosome S. mansoni is a cercarial elastase. This serine peptidase is well known for the degradation of skin proteins such as elastin, keratin, collagen or laminin. However, the active expression of the orthologue of this enzyme has never been found in the genus Trichobilharzia. For this reason, it was firmly believed, that cercaria of T. regenti uses mainly cysteine peptidases for the invasion of the host, particularly cathepsins, which were repeatedly identified in this life stage. To strengthen this hypothesis, we incubated T. regenti cercariae in the apparatus with the excised duck skin stimulating the release of their glands' content. The collected ESPs were further analysed by shotgun mass-spectrometry and for the first time, the protein form of cercarial elastase was identified. Unfortunately, we failed to produce its active recombinant protein in yeast and bacterial...
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