Strukturní a funkční analýza katepsinu B1 z krevničky Schistosoma mansoni / Structural and functional analysis of cathepsin B1 from the blood fluke, Schistosoma mansoni

Jílková, Adéla

January 2014

Schistosomiasis is a serious infectious disease that afflicts over 200 million people in tropical and subtropical regions. It is caused by Schistosoma blood flukes that live in human blood vessels and obtain nutrients from host hemoglobin, which is degraded by digestive proteases. Current therapy relies on a single drug and concern over resistance necessitates new drug development. In Schistosoma mansoni, cathepsin B1 (SmCB1) is a critical digestive protease that is a target molecule for therapeutic interventions. This thesis provides a comprehensive characterization of SmCB1 focused on structure-activity relationships and inhibitory regulation based on six crystal structures solved for SmCB1 molecular forms and complexes. SmCB1 is biosynthesized as an inactive zymogen in which the N-terminal propeptide operates as a natural intra-molecular inhibitor by blocking the active site. Detailed biochemical and structural analyses have identified a new and, so far, unique mechanism of SmCB1 zymogen activation through which the propeptide is proteolytically removed and the regulatory role of glycosaminoglycans in this process has been described. A study of SmCB1 proteolytic activity has revealed that the enzyme acts in two modes, as endopeptidase and exopeptidase, which makes it an efficient tool for host...

Substrátová specifita, mechanismus a regulace aktivity intramembránových proteas z rodiny rhomboidů / Substrate specificity, mechanism and activity regulation of the rhomboid family intramembrane proteases

Škerle, Jan

January 2020

Intramembrane proteases from the rhomboid-like superfamily are enzymes widely distributed and conserved in all domains of life. They participate in many important processes such as membrane protein quality control or mitochondrial dynamics. Their activity is also linked with diseases like Parkinson's disease or cancer. This makes them potential therapeutic targets. In this work we tried to elucidate in more detail the mechanism of action of the main model intramembrane protease, GlpG from E. coli. We also focused on the mechanism of eukaryotic rhomboid RHBDL2, one of the four mammalian rhomboids, function of which is poorly understood. To acquire more detailed information about substrate-enzyme interaction, we synthesized a series of novel peptidyl-chloromethylketone inhibitors derived from natural rhomboid substrate TatA from P. stuartii. Crystal structure of the complex of GlpG with these inhibitors revealed four substrate binding subsites (S1 to S4) of the enzyme and explained its observed substrate specificity structurally. This study showed that substrate cleavage rate can be dramatically modified by changing the substrate sequence in positions P1 to P5. This helped us develop fluorogenic transmembrane peptide substrates for rhomboid proteases, which are usable in detergent and liposomes, and...

Nové inhibitory HIV proteasy: návrh, synthesa a testování aktivity / Nové inhibitory HIV proteasy: návrh, synthesa a testování aktivity

Schimer, Jiří

January 2011

More than 20 years after its discovery HIV protease still remains one of the primary targets in HIV treatment. Currently there are 9 approved protease inhibitors on the market. However, due to immense replication rate and the high error prone nature of reverse transcriptase, resistance to each of them has already been described. Therefore, the search for new protease inhibitors with different binding mode is still active. A novel type of protease inhibitors (1, 4-benzodiazepine analogs) was recently discovered in our laboratory. Even though this new class of inhibitors is highly potent (Ki' in range of 10-9 ), it also has several undesirable qualities, such as low solubility and a high number of stereogenic centers. Primary objective of this study was to try to prepare more soluble compounds with lower number of possible stereoisomers, enzymologically characterize its binding to the wild-type and mutated HIV protease and to determine its structure in the complex with the enzyme. A small library of 1, 4-benzodiazepine inhibitors of HIV protease was synthesized and fully characterized using NMR spectroscopy and mass spectroscopy. The number of stereogenic centers was successfully reduced from 4 to 2 without loosing activity of the inhibitor. The improvement in solubility was always associated with a...

Evaluace vlastností polymerních konjugátů specificky vážících proteiny pro použití v molekulární biologii / Evaluation of the properties of polymer conjugates which specifically bind proteins and can be used in molecular biology

Parolek, Jan

January 2015

During last three decades, a great effort was invested to the development of polymer conjugates of low molecular drugs with the aim to improve the specific targeting of drugs to diseased tissues, cells and organs. The main reason for this effort was the fact that high molecular weight copolymers have a favourite distribution profile in tissues and organisms. A linker between a polymer backbone and drug has very important role: it is possible to synthesize a biodegradable linker, which can be enzymatically hydrolyzed. Conversely, there is a possibility to synthesize an inert linker, resistant to the hydrolysis. Proper choice of the suitable precursor- polymer is also essential, hence it has to accomplish all of the stringent demands for biocompatibility. Macromolecular polymer-drug conjugates tend to accumulate in solid tumors because of the so called enhanced permeability and retention (EPR) effect. There is a whole range of possible applications of high molecular polymer-drug conjugates. In the introduction part of this thesis, I summarize potential use of drugs based on poly(N-(2-hydroxypropyl)methacrylamide) (HPMA) copolymers. Moreover, I introduce some therapeutically important proteins used in experimental drug discovery. In our laboratory, we have developed a concept of HPMA copolymers...

Inhibitory proteas jako nástroj: Návrh, syntéza a testování inhibitorů HIV proteasy a GCPII / Protease Inhibitors as a Research Tool: Design, Synthesis and Evaluation of HIV PR and GCPII Inhibitors

Schimer, Jiří

January 2015

This dissertation thesis focuses on creating tools for the analysis and potential therapeutic intervention in the biological processes regulated by proteolysis. I focus on two important proteolytic enzymes: HIV-1 protease, which is indispensable for the polyprotein processing of the nascent virus and thus for the development of infectious viral particle, and glutamate carboxypeptidase II, a tumor marker and a neuropeptidase from the prostate and central nervous system. Rational design of inhibitors of these therapeutically relevant enzymes serves two purposes: firstly, protease inhibitors were shown to be powerful drugs (HIV protease is in fact the example of successful drug development driven by structural biology). Secondly, and in the context of this thesis perhaps more importantly, inhibitors of medicinally relevant proteases might serve as tools for the elucidation of basic biological questions concerning regulation, timing and spatiotemporal control of such key processes as virus maturation or cancer development. The experimental work described in this thesis summarizes my results in both these areas. Human Immunodeficiency Virus Protease Human immunodeficiency virus (HIV), a causative agent of AIDS, has been estimated to kill close to 40 million people during the past four decades with 1.5...

Hledání biologické role rodiny proteinů podobných Ddi1 / Deciphering the biological role of Ddi1-like protein family

Sivá, Monika

January 2019

Ddi1-like protein family has been recently raised into the spotlight by the scientific community due to its important roles in cellular homeostasis maintenance. It represents a specific group among shuttling proteins of the ubiquitin-proteasome system. When compared to other shuttles, Ddi1-like protein family members harbor a unique retroviral-protease like domain besides the conventional ubiquitin-like (UBL) domain and domains interacting with ubiquitin. In addition, a helical domain of Ddi (HDD) has been recently found in most of the orthologs. In this thesis, I focus on characterization of several members of Ddi1-like protein family, both on molecular level using NMR and in model mouse strains via a variety of biological methods. Solution structure of the UBL domain of Ddi1p of S. cerevisiae was solved and its characteristics were compared to those of the UBL domain of its human ortholog. Furthermore, we show that human DDI2 specifically binds to ubiquitin with its terminal domains, both the UBL and the UIM; however, with very low affinity in contrast to binding properties of its yeast counterpart. Our study also show that hDDI2 does not form a head-to-tail homodimer. Based on our structural studies, we hypothesize that human DDI2 might have evolved a different function compared to its yeast...

Comparación de la respuesta virológica según los esquemas terapéuticos prescritos a pacientes con VIH que presentaron la mutación M184V en dos hospitales nacionales durante los años 2008 al 2019

Paredes Pacheco, Raisa Alessandra, Véliz Julca, Fritner

09 April 2019

Introducción: En pacientes con VIH en TARV y fallo virológico a primera línea, establecer un esquema terapéutico tras haber identificado la mutación M184V, que confiere resistencia, representa una disyuntiva. Objetivo: Comparar la respuesta virológica de los esquemas terapéuticos prescritos a pacientes con VIH que presentaron la mutación M184V en dos hospitales nacionales de Lima, Perú durante los años 2008 a 2019 y determinar los factores de riesgo asociados a una mala respuesta virológica. Métodos: Se desarrolló un estudio de cohorte retrospectivo. Resultados: Un total de 175 participantes fueron elegibles para el estudio. El sexo masculino predominó (75.4%), la mediana de edad actual fue 41 años (IQR 35.84 ; 47.47) y tiempo en TARV fue 89 meses (IQR 57.7 ; 124.53). La mediana de carga viral inicial fue 4.5 log10 (IQR 3.97 ; 5.09) y el tiempo entre la genotipificación y el cambio de terapia fue 2 meses (IQR 0 ; 3.57). El esquema antirretroviral más utilizado fue IP + 2 INTR (55.4%). Con el esquema IP + INI se obtuvo 69% menos riesgo de mala respuesta virológica [p=0.019 (IC 95% 0.117 ; 0.825)]. Conclusiones: En los pacientes con VIH y mutación M184V, el esquema IP + INI ha demostrado una mayor disminución de la carga viral de control y, así, una buena respuesta virológica. Los factores de riesgo asociados a una mala respuesta virológica fueron la demora entre la genotipificación y el cambio de terapia, niveles elevados de carga viral inicial y mala adherencia. / Introduction: In patients with HIV in ART and virological failure to the first-line regimen, establishing a therapeutic regimen after having identified the M184V mutation, which confers ART resistance, represents a dilemma. Objective: To compare the virological response of the therapeutic regimens prescribed to patients with HIV who presented the M184V mutation in two national hospitals in Lima, Peru during the years 2008 to 2019, and to determine the risk factors associated with poor virological response. Methods: A retrospective cohort study was developed based on the information of the HIV program participants with the M184V mutation. Results: A total of 175 participants were eligible for the study. The male sex predominated (75.4%), the current median age was 41 years (IQR 35.84, 47.47) and the time on ART was 89 months (IQR 57.7, 124.53). The median initial viral load was 4.5 log10 copies/ml (IQR 3.97, 5.09) and the time between genotyping and the change of therapy was 2 months (IQR 0; 3.57). The most used antiretroviral regimen was PI + 2 NRTIs (55.4%). With the PI + INI ART, 69% less risk of poor virological response was obtained [p=0.019 (CI 95% 0.117 ; 0.825)]. Conclusions: In patients with HIV and the M184V mutation, the PI + INI ART has shown a greater decrease in control viral load and, thus, a good virological response. The risk factors associated with a poor virological response were the delay between genotyping and change of therapy, high levels of initial viral load, and poor adherence among the participants. / Tesis

Mutación M184V

TARV

Fallo virológico

inhibidor de proteasa

inhibidor de integrasa

M184V mutation

Virological failure

Protease inhibitor

integrase inhibitor