Fyzikálně chemické vlastnosti léčiv / Physico-Chemical Properties of Drugs

Suchý, Miroslav

January 2016

1. Abstract Charles University in Prague Faculty of Pharmacy in Hradec Kralove Department of Biophysics and Physical Chemistry Candidate: Miroslav Suchy Supervisor: Ing. Vladimir Kubicek, CSc. Title of Diploma Thesis: Physico-Chemical properties of drugs To test physico-chemical properties of new molecules is necessary during drug development. It could be helpful to understand or predict the pharmacokinetic parametres of a new drug in vivo/in vitro experiments. One of this parameters is a dissociation constant (pK). Dissociation constant is defined as " Number on pH scale, wherein is just fifty percent of molecule in a ionization condition". In real case this number can help us to know where in the gastro-intestinal tract (GIT) the drug will be absorbed. In GIT only molecules exhibiting pK from 3 to 11 could be absorbed. Out of this range it is not possible. In this work I would like to introduce the ways of experimental measurement of pK values. I was working with two methods to measure the pK values of water-soluble compounds. The spectrophotometric method and the potentiometric one. I had to find out, that potentiometric titration is primary method which gets us good and accurate results. Based on my measurement I evaluated the spectrophotometric method as the secondary method. Spectrophotometric method...

Selenoproteínas: Seril-tRNA Sintetase e as selenoproteínas do Trypanosoma brucei / Selenoproteins: Seryl-tRNA synthetase and the selenoproteins of Trypanosoma brucei

Evangelista, Jaqueline Pesciutti

02 September 2014

O aminoácido selenocisteína (Sec) representa a principal forma biológica de selênio sendo requerida uma complexa maquinaria molecular para sua síntese e incorporação co-traducional em selenoproteínas. A Seril-tRNA sintetase (SerRS) inicia essa via, aminoacilando o Ser-tRNASec (SelC) com uma serina e também aminoacila os tRNAsSer. Sendo assim, um dos focos deste trabalho foi estudar a interação da SerRS de Trypanosoma brucei (T. brucei) com os tRNAsSer e o SelC utilizando a técnica de anisotropia de fluorescência para determinar suas constantes de dissociação. Em Kinetoplastidae, além da via de síntese de selenocisteína, há três selenoproteínas: SelT, SelK e SelTryp. No entanto, pouco se sabe a respeito das mesmas, sendo o estudo destas selenoproteínas o outro foco deste trabalho. Os fragmentos de DNA que codificam estas selenoproteínas foram subclonados em vetor de expressão pET 28a e 29a para posterior uso em células de Escherichia coli (E. coli). Para as proteínas SelK e SelTryp os ensaios de expressão apresentaram resultados insuficientes para dar continuidade aos experimentos planejados, pois o rendimento foi baixo e a purificação não foi possível. Já com a proteína SelT, devido à grande dificuldade encontrada para tornà-la solúvel, descobriu-se, no decorrer do trabalho, que tratava-se de uma proteína de membrana, ocasionando mudanças de alguns objetivos previamente propostos e consequentemente busca por novas estratégias. Conseguiu-se expressá-la na de forma solúvel e purificá-la por cromatografias. Ensaios realizados no SEC-MALLS mostraram uma estabilidade do complexo proteína-detergente. Com a TbSerRS é possível concluir que a organização de especificidade de ligação da enzima com seus ligantes se dá crescentemente: SelC>tRNASer7>tRNASer3a>tRNASer3b. E com as selenoproteínas do T. brucei faz-se necessários novas contruções para SelK e SelTryp e dar continuidade aos experimentos com a SelT tentando cristalizá-la, já que prototolo para a obtenção do complexo proteína-detergente está montado e estabilizado. / Selenocysteine (Sec) amino acid is the major biological form of selenium and requires a complex molecular machinery for its synthesis and co-translational incorporation into selenoproteins. The Seryl-tRNA synthetase (SerRS) starts this biosynthesis and matches the tRNASec (SELC) with a serine and the tRNAsSer, therefore the focus of this study is on SerRS of Trypanosoma brucei (T. brucei) and tRNAsSer and SELC interactions, with fluorescence anisotropy techinic to determinat dissociation constants. Three selenoproteins, namely SelT, SelK and SelTryp, besides the route of selenocysteine synthesis there be in Kinetoplastidae. DNA fragments that coding for these selenoproteins were subcloned in 28a and 29a to use into Escherichia coli (E. coli) cells. For Selk and SelTryp proteins, the expression protocol did not show an unsatisfactory result to continue the experiments. Many difficulties were encountered in studies with Selt protein, mainly in attempts to make it soluble. Our analyses revealed SelT was a membrane protein, therefore it could cause changes in some objectives and search for new strategies. It could be expressed and purified in cromatographis. SEC-MALLS assays showed a stability of the protein detergent complex. With TbSerRS is possible to conclude that the organization of binding specificity of the enzyme with its ligands occurs increasingly: SelC>tRNASer7>tRNASer3a>tRNASer3b. And selenoproteins in T. brucei, it is necessary for new constructions to SelK and SelTryp to continue the experiments trying to crystallizes SelT, since prototolo for obtaining the protein-detergent complex is assembled and stabilized.

Constante de dissociação

Dissociation constant

Kinetoplastidae

Kinetoplastidae

Selenoproteínas

Selenoproteins

Sialylmimetics as Potential Inhibitors fo Vibrio Cholerae Sialidase

Mann, Maretta Clare, n/a

January 2004

Cholera is an epidemic infectious diarrhoeal disease that for centuries has proven its frightening ability to cause rapid and widespread loss of human life. All symptoms associated with cholera are a result of rapid dehydration due to infection by pathogenic strains of the bacterium Vibrio cholerae. The damaging effects associated with cholera are mainly attributed to the toxin, which is secreted by the bacterium and infects cells lining the gastrointestinal tract. A sialidase, also secreted by the bacterium, is believed to facilitate toxin uptake by the gastrointestinal epithelium. V. cholerae sialidase is therefore a potential target for therapeutic intervention. A survey of the literature reveals that sialidases from different species share common features with respect to their structure, substrate specificity and catalytic mechanism. The unsaturated sialic acid, Neu5Ac2en, inhibits most exosialidases with a dissociation constant of inhibitor of -10-4 to-10-6 M and has frequently been used as a template in the design of more potent sialidase inhibitors. In the case of V. cholerae sialidase, there have been no inhibitors reported to date that are significantly more potent than Neu5Ac2en itself The present research aimed to develop a range of mimics of Neu5Ac2en, which contain various substituents to replace the C-6 glycerol side chain, as potential inhibitors of V cholerae sialidase. The x-ray crystal structure of V cholerae sialidase was used to explore potential interactions between active site residues and C-6 modified Neu5Ac2en mimetics of known inhibitory potency. Opportunities for interactions within the glycerol side chain pocket in the active site of V cholerae sialidase are discussed. A novel synthetic strategy was developed for the synthesis of a series of glucuronidebased Neu5Ac2en mimetics starting from readily available GIcNAc. This approach was employed for the preparation of Neu5Ac2en mimetics that contained an ether or thioether substituent as replacement of the glycerol side chain of Neu5Ac2en. Progress was also made towards the synthesis of a series of C-6 acylamino Neu5Ac2en mimetics. Analysis by 1H NMR spectroscopy showed that the acylamino derivatives adopted a half-chair conformation that was similar to the conformation of Neu5Ac2en but different to the conformation adopted by the ether and thioether derivatives prepared. The inhibitory activity of the C-6 ether and thioether Neu5Ac2en mimetics prepared was evaluated in vitro using an enzyme assay. It was found that most of the derivatives inhibited V. cholerae sialidase with a K1 of approximately 1O-4 M. The derivatives containing a hydrophobic side chain were found to be slightly more potent compared to derivatives with more hydrophilic side chains. A more detailed study of binding interactions between the C-6 thioether Neu5Ac2en mimetics and V cholerae sialdiase was carried out using STD 1H NMR spectroscopy and computational molecular modelling.

Sialylmimetics

cholera

v. cholerae sialidase

dissociation constant of inhibitor

Selenoproteínas: Seril-tRNA Sintetase e as selenoproteínas do Trypanosoma brucei / Selenoproteins: Seryl-tRNA synthetase and the selenoproteins of Trypanosoma brucei

Jaqueline Pesciutti Evangelista

02 September 2014

O aminoácido selenocisteína (Sec) representa a principal forma biológica de selênio sendo requerida uma complexa maquinaria molecular para sua síntese e incorporação co-traducional em selenoproteínas. A Seril-tRNA sintetase (SerRS) inicia essa via, aminoacilando o Ser-tRNASec (SelC) com uma serina e também aminoacila os tRNAsSer. Sendo assim, um dos focos deste trabalho foi estudar a interação da SerRS de Trypanosoma brucei (T. brucei) com os tRNAsSer e o SelC utilizando a técnica de anisotropia de fluorescência para determinar suas constantes de dissociação. Em Kinetoplastidae, além da via de síntese de selenocisteína, há três selenoproteínas: SelT, SelK e SelTryp. No entanto, pouco se sabe a respeito das mesmas, sendo o estudo destas selenoproteínas o outro foco deste trabalho. Os fragmentos de DNA que codificam estas selenoproteínas foram subclonados em vetor de expressão pET 28a e 29a para posterior uso em células de Escherichia coli (E. coli). Para as proteínas SelK e SelTryp os ensaios de expressão apresentaram resultados insuficientes para dar continuidade aos experimentos planejados, pois o rendimento foi baixo e a purificação não foi possível. Já com a proteína SelT, devido à grande dificuldade encontrada para tornà-la solúvel, descobriu-se, no decorrer do trabalho, que tratava-se de uma proteína de membrana, ocasionando mudanças de alguns objetivos previamente propostos e consequentemente busca por novas estratégias. Conseguiu-se expressá-la na de forma solúvel e purificá-la por cromatografias. Ensaios realizados no SEC-MALLS mostraram uma estabilidade do complexo proteína-detergente. Com a TbSerRS é possível concluir que a organização de especificidade de ligação da enzima com seus ligantes se dá crescentemente: SelC>tRNASer7>tRNASer3a>tRNASer3b. E com as selenoproteínas do T. brucei faz-se necessários novas contruções para SelK e SelTryp e dar continuidade aos experimentos com a SelT tentando cristalizá-la, já que prototolo para a obtenção do complexo proteína-detergente está montado e estabilizado. / Selenocysteine (Sec) amino acid is the major biological form of selenium and requires a complex molecular machinery for its synthesis and co-translational incorporation into selenoproteins. The Seryl-tRNA synthetase (SerRS) starts this biosynthesis and matches the tRNASec (SELC) with a serine and the tRNAsSer, therefore the focus of this study is on SerRS of Trypanosoma brucei (T. brucei) and tRNAsSer and SELC interactions, with fluorescence anisotropy techinic to determinat dissociation constants. Three selenoproteins, namely SelT, SelK and SelTryp, besides the route of selenocysteine synthesis there be in Kinetoplastidae. DNA fragments that coding for these selenoproteins were subcloned in 28a and 29a to use into Escherichia coli (E. coli) cells. For Selk and SelTryp proteins, the expression protocol did not show an unsatisfactory result to continue the experiments. Many difficulties were encountered in studies with Selt protein, mainly in attempts to make it soluble. Our analyses revealed SelT was a membrane protein, therefore it could cause changes in some objectives and search for new strategies. It could be expressed and purified in cromatographis. SEC-MALLS assays showed a stability of the protein detergent complex. With TbSerRS is possible to conclude that the organization of binding specificity of the enzyme with its ligands occurs increasingly: SelC>tRNASer7>tRNASer3a>tRNASer3b. And selenoproteins in T. brucei, it is necessary for new constructions to SelK and SelTryp to continue the experiments trying to crystallizes SelT, since prototolo for obtaining the protein-detergent complex is assembled and stabilized.

Constante de dissociação

Kinetoplastidae

Selenoproteínas

Dissociation constant

Kinetoplastidae

Selenoproteins

Využití chronopotenciometrické titrace v huminovém výzkumu / Utilization of chronopotentiometric titration in humic research

Viktorinová, Jana

January 2013

Humic acids are natural substances belonging to the group of humic substances. They arise mainly decomposition of plant residues. They are contained in soils, peat, sediments, young coal, water and even in the air. Humic acids are only partially soluble in water with increasing pH increases their solubility. Diploma thesis focuses on the use of chronopotentiometric titration of humic research. This method is mainly used for the determination of trace concentrations of analytes. This work is focused on the determination of acidity by potentiometric titration and the determination of dissociation constants using chronopotentiometry with measurement of pH of prepared samples.

Disociační chování přírodních biokoloidů / Dissociation behaviour of natural biocolloids

Karbanová, Kateřina

January 2017

This diploma thesis is focused on the study of dissociation behaviour of natural biocolloids, namely humic acids and fulvic acids. Humic and fulvic acids are natural, heterogeneous, high molecular weight substances which behave as weakly acidic polyelectrolytes and they have complex not exactly described structure. They are formed by biochemical transformations of organic residues (mainly plants). They are part of the soil, water, peat, sediments and coal. Solubility of humic acids is affected by pH value. The higher the pH value is the higher the solubility is. Fulvic acids are soluble in whole range of pH values. The aim of this diploma thesis is to determine the dissociation constant for the five kinds of humic acids and four kinds of fulvic acids, which have been isolated from various natural sources. These samples were purchased from IHSS. Dissociation constants were determined by the conductometric method and a combination of measurment pH and the content of acidic functional groups in Na2SO4. UV-VIS spectrophotometry method was used to characterize the quality of humic acids and fulvic acids.

Identification and biochemical characterization of a novel receptor:ligand interaction between FcRn and albumin

Chaudhury, Chaity

09 March 2005

No description available.

Chemistry, Biochemistry

FcRn

HSA

SPR

ITC

ELISA

half-life

dissociation constant

Neurodegeneration induced by ß-synuclein in the context of the neurotransmitter dopamine

Raina, Anupam

08 April 2019

No description available.

570

α-synuclein

ß-synuclein

γ-synuclein

transdifferentiation

Ascl1

Nurr1

Lmx1a

dopamine

neurodegeneration

tyrosine hydroxylase

AADC

VMAT2

DAT

network electrical activity

NMR

dissociation constant (Kd)

Biologie (PPN619462639)

Neurodegeneration induced by ß-synuclein in the context of the neurotransmitter dopamine

Raina, Anupam

08 April 2019

No description available.

570

α-synuclein

ß-synuclein

γ-synuclein

transdifferentiation

Ascl1

Nurr1

Lmx1a

dopamine

neurodegeneration

tyrosine hydroxylase

AADC

VMAT2

DAT

network electrical activity

NMR

dissociation constant (Kd)

Biologie (PPN619462639)

Neurodegeneration induced by ß-synuclein in the context of the neurotransmitter dopamine

Raina, Anupam

08 April 2019

No description available.

570

α-synuclein

ß-synuclein

γ-synuclein

transdifferentiation

Ascl1

Nurr1

Lmx1a

dopamine

neurodegeneration

tyrosine hydroxylase

AADC

VMAT2

DAT

network electrical activity

NMR

dissociation constant (Kd)

Biologie (PPN619462639)