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Generation and Characterization of Glutamate Carboxypeptidase II (GCPII)-Deficient Mice
Vorlová, Barbora ; Šácha, Pavel (advisor) ; Eckschlager, Tomáš (referee) ; Bařinka, Cyril (referee)
Glutamate carboxypeptidase II (GCPII) is a transmembrane glycoprotein, which consists of short intracellular and transmembrane domains, and a large extracellular domain possessing carboxypeptidase activity. In the human body, GCPII fulfils a neuromodulatory function in the brain and facilitates folate absorption in the small intestine. In addition to the brain and small intestine, high level of GCPII is also present in the prostate and kidney. However, GCPII function in these tissues has not been determined yet. To study the role of GCPII in detail, several research groups attempted to inactivate GCPII encoding gene Folh1 in mice. Surprisingly, the experiments led to rather conflicting results ranging from embryonic lethality to generation of viable GCPII-deficient mice without any obvious phenotype. This dissertation project aimed to dissect the discrepancy using alternative strategy for gene modification. For this purpose, we designed TALENs that specifically targeted exon 11 of Folh1 gene and manipulated mouse zygotes of C57BL/6NCrl genetic background. We analysed all genetically modified mice of F0 generation for presence of TALEN-mediated mutations and established 5 different GCPII-mutant mouse colonies from founder mice that altogether carried 2 frame-shift mutations and 3 small in-frame...
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Zinc-Dependent Hydrolases: Structure-Function Study of Glutamate Carboxypeptidase II and Histone Deacetylase 6
Škultétyová, Ľubica
Zinc-binding proteins represent approximately one tenth of the proteome and a good portion of them are zinc-dependent hydrolases. This thesis focuses on biochemical and structural characterization of glutamate carboxypeptidase II (GCPII) and histone deacetylase 6 (HDAC6), two members of the zinc-dependent metallohydrolase superfamily. We describe here their interactions with natural substrates and inhibitors. GCPII is a homodimeric membrane protease catalyzing hydrolytic cleavage of glutamate from the neurotransmitter N-acetylaspartylglutamate (NAAG) and dietary folates in the central and peripheral nervous systems and small intestine, respectively. This enzyme is associated with several neurological disorders and also presents an ideal target for imaging and treatment of prostate cancer. GCPII inhibitors typically consist of a zinc-binding group (ZBG) linked to an S1' docking moiety (a glutamate moiety or its isostere). As such, these compounds are highly hydrophilic molecules therefore unable to cross the blood-brain barrier and this hampers targeting GCPII to the central nervous system. Different approaches are adopted to alter the S1' docking moiety of the existing inhibitors. As a part of this thesis, we present different strategies relying on replacement of the canonical P1' glutamate residue...
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Targeting of viral nanoparticles to cancer specific receptors
Žáčková Suchanová, Jiřina
The aim of this thesis is to reveal the potential of mouse polyomavirus (MPyV) based virus-like particles (VLPs) as possible nanocarriers for directed delivery of therapeutic or diagnostic compounds to specific cells or tissues. We have chosen mouse polyomavirus VLPs because they do not contain viral DNA and are considered safe for utilization in bio-applications. In our research, we used a chemical approach for retargeting of MPyV based VLPs from their natural receptor to cancer cells. The chemical modification of the capsid surface exposed lysines by an aldehyde-containing reagent enabled conjugation of VLPs to selected molecules: transferrin and inhibitor of glutamate carboxypeptidase II (GCPII). Transferrin, as a transporter of iron to metabolically active cells, targeted VLPs to numerous types of cancer cells overexpressing the transferrin receptor. On the other hand, GCPII serves as a transmembrane marker specific for prostate cancer cells and conjugation of its inhibitor to VLPs resulted in successful recognition of these cells. Electron microscopy was used for visualization of modified VLPs and flow cytometry together with confocal microscopy for investigation of cell specific interactions and VLP uptake. Furthermore, we explored the influence of serum proteins on VLPs. The abundance of...
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Development of analytical tools for quantification and screening for inhibitors of glutamate carboxypeptidases II and III
Navrátil, Václav ; Konvalinka, Jan (advisor) ; Obšil, Tomáš (referee) ; Šedo, Aleksi (referee)
Glutamate carboxypeptidase II (GCPII) usually called prostate specific membrane antigen (PSMA) is membrane bound metallopeptidase expressed mainly in prostate carcinoma (PCa). Agents targeting GCPII suitable for both imaging and treatment of PCa are in development and they show promising results in advanced clinical trials. Some studies showed that GCPII may serve also as PCa blood serum marker, but this has not been validated due to the lack of methods suitable for accurate detection of GCPII in human blood. Moreover, GCPII is also expressed in brain, where it cleaves inhibitory N-acetyl-α-L- aspartyl-L-glutamate (NAAG) to release excitatory L-glutamate and GCPII inhibition has been shown to be neuroprotective in animal models of several neuropathies. Tight binding inhibitors of GCPII have been identified by rational design, but all have poor bioavailability and thus cannot be used in clinics. Identifying new scaffolds by 'brute force' screening methods is thus essential; however, no such method for GCPII has been developed so far. Glutamate carboxypeptidase III (GCPIII) is also expressed in brain and cleaves NAAG. It is thus an important protein for understanding of GCPII function as well as GCPII targeting in medicine. Here, we focused on development of novel methods for quantification of both...
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Targeting of viral nanoparticles to cancer specific receptors
Žáčková Suchanová, Jiřina ; Španielová, Hana (advisor) ; Němečková, Šárka (referee) ; Ulbrich, Pavel (referee)
The aim of this thesis is to reveal the potential of mouse polyomavirus (MPyV) based virus-like particles (VLPs) as possible nanocarriers for directed delivery of therapeutic or diagnostic compounds to specific cells or tissues. We have chosen mouse polyomavirus VLPs because they do not contain viral DNA and are considered safe for utilization in bio-applications. In our research, we used a chemical approach for retargeting of MPyV based VLPs from their natural receptor to cancer cells. The chemical modification of the capsid surface exposed lysines by an aldehyde-containing reagent enabled conjugation of VLPs to selected molecules: transferrin and inhibitor of glutamate carboxypeptidase II (GCPII). Transferrin, as a transporter of iron to metabolically active cells, targeted VLPs to numerous types of cancer cells overexpressing the transferrin receptor. On the other hand, GCPII serves as a transmembrane marker specific for prostate cancer cells and conjugation of its inhibitor to VLPs resulted in successful recognition of these cells. Electron microscopy was used for visualization of modified VLPs and flow cytometry together with confocal microscopy for investigation of cell specific interactions and VLP uptake. Furthermore, we explored the influence of serum proteins on VLPs. The abundance of...
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Zinc-Dependent Hydrolases: Structure-Function Study of Glutamate Carboxypeptidase II and Histone Deacetylase 6
Škultétyová, Ľubica ; Bařinka, Cyril (advisor) ; Obšil, Tomáš (referee) ; Novák, Petr (referee)
Zinc-binding proteins represent approximately one tenth of the proteome and a good portion of them are zinc-dependent hydrolases. This thesis focuses on biochemical and structural characterization of glutamate carboxypeptidase II (GCPII) and histone deacetylase 6 (HDAC6), two members of the zinc-dependent metallohydrolase superfamily. We describe here their interactions with natural substrates and inhibitors. GCPII is a homodimeric membrane protease catalyzing hydrolytic cleavage of glutamate from the neurotransmitter N-acetylaspartylglutamate (NAAG) and dietary folates in the central and peripheral nervous systems and small intestine, respectively. This enzyme is associated with several neurological disorders and also presents an ideal target for imaging and treatment of prostate cancer. GCPII inhibitors typically consist of a zinc-binding group (ZBG) linked to an S1' docking moiety (a glutamate moiety or its isostere). As such, these compounds are highly hydrophilic molecules therefore unable to cross the blood-brain barrier and this hampers targeting GCPII to the central nervous system. Different approaches are adopted to alter the S1' docking moiety of the existing inhibitors. As a part of this thesis, we present different strategies relying on replacement of the canonical P1' glutamate residue...
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Human glutamate carboxypeptidases II and III
Navrátil, Michal ; Konvalinka, Jan (advisor) ; Obšil, Tomáš (referee) ; Pavlíček, Jiří (referee)
The herein presented Ph.D. dissertation describes kinetic and structural characterization of human glutamate carboxypeptidases II and III (GCPII and GCPIII) using a complete panel of their natural substrates. These enzymes hydrolyze C-terminal glutamate from their substrates. They share 67 % sequence identity and also similar enzymatic activities. This thesis quantitatively compares human GCPII and GCPIII in terms of their ability to hydrolyze the substrates N-acetyl-L-aspartyl-L-glutamate (NAAG), folyl-poly-γ-L-glutamic acids (FolGlun) and β-citryl-L-glutamate (BCG). We demonstrated that GCPIII hydrolyzes its substrates in a metal- dependent manner, that BCG is a specific substrate of GCPIII, and that NAAG and FolGlun are specific substrates of GCPII. We also provide indirect biochemical evidence that GCPIII might feature a heterometallic active-site cluster. Additionally, we characterized the relevance of a surface exosite of GCPII, the arene-binding site (ABS), for the hydrolysis of FolGlun substrates using mutagenesis and enzyme kinetics and showed that polymorphic His475Tyr variant of GCPII hydrolyzes FolGlun substrates with the same kinetic parameters as the wild-type enzyme. Furthermore, this thesis focuses on structural aspects of the substrate specificities of GCPII and GCPIII: we present...
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Chemically modified Murine Polyomavirus-like particles and their interaction with Prostate-Specific Membrane Antigen (PSMA)
Blažková, Kristýna ; Konvalinka, Jan (advisor) ; Horníková, Lenka (referee)
Prostate cancer is one of the most abundant types of cancer among men and the demand for a specific treatment is very high. In this thesis, I have focused on using Glutamate Carboxypepti- dase II (GCPII), as a target for a proof-of-principle delivery system. GCPII is a transmembrane protein that internalizes after a binding of a ligand and is overexpressed in prostate cancer. Virus-like particles from Murine polyomavirus (VLPs) are a suitable nanocarrier for the delivery of imaging agents and drugs. Here I describe modifying these VLPs with inhibitors of GCPII and fluorescent dyes and characterize their binding to GCPII on surface plasmon resonance and to cells expressing GCPII on confocal microscopy. VLPs carrying a GCPII inhibitor show specific binding to GCPII on surface plasmon reso- nance, however they bind non-specifically to cells that don't express GCPII. Several approaches have been tried to avoid that. The substitution of BC loop on the exterior surface of VLPs that is partially responsible for the binding of sialic acid did not seem to affect specificity on cells. Another approach tested was coating of the wild-type VLPs with large polymer carrying a flu- orescent label and a GCPII inhibitor. After the conjugation of the polymer to the VLP, specific binding and internalization in GCPII-positive...
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Mass Spectrometry-Based Identification of a Potential Binding Partner of Glutamate Carboxypetidase II
Tužil, Jan ; Konvalinka, Jan (advisor) ; Novák, Petr (referee)
English Abstract The incoming paradigm of the network (or systems) biology calls for a new high throughput tool for a wide scale study of protein-protein interactions. Mass spectrometry-based proteomics have experienced a great progress in recent years and have become an indispensable technology of elementary as well as clinical research. Glutamate carboxypeptidase II (GCPII; EC 3.5.17.21) is a transmembrane protein with two known enzymatic activities. Its expression is highly upregulated in some solid tumors and also in tumor-associated neovasculature in general. Nevertheless, none of the two enzymatic activities were shown to be physiologically relevant to these cells. Some facts point at a possible receptor function of GCPII, however, no specific binding partner has been found yet. In the search for potential binding partners and/or ligands of GCPII, a series of methods have been employed, including pull-down experiment, immunoprecipitation and mass spectrometry. Sample preparation and mass spectrometry data processing methodology was specifically developed in order to identify potential binding partners. As one of the outcome of that methodology, the interaction of β-subunit of F1 ATP synthase was selected for further detailed analysis as a putative ligand of GCPII.
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