The Hepatobiliary Transport of Rosuvastatin In Vivo

Bergman, Ebba

January 2009

In vivo studies of hepatobiliary disposition are challenging. The hepatobiliary system is complex, as its physiological localization, complex cellular structure with numerous transporters and enzymes, and the interindividual variability in protein expression and biliary flow will all affect the in vivo disposition of a drug under investigation. The research included in this thesis has focused on the involvement of hepatic transport proteins in the hepatobiliary disposition of rosuvastatin. The impact that several transport inhibitors had on the pharmacokinetics of rosuvastatin was investigated in healthy volunteers and in pigs. The effects were considerable, following inhibition of sinusoidal transport proteins by cyclosporine and rifampicin. These inhibitors significantly reduced the hepatic extraction of rosuvastatin by 50 and 35%, respectively, and the plasma exposure increased by factors of 9.1 and 6.3, respectively. Drug-drug interactions (DDI) resulting in markedly higher plasma exposures are important from a drug safety perspective as increased extrahepatic exposure of statins is associated with an increased risk of severe side-effects, such as myopathy which in rare cases could develop into rhabdomyolysis. The DDI caused by cyclosporine and rifampicin can probably be attributed to inhibition of hepatic uptake transporters. In contrast, inhibition of canalicular transporters by imatinib did not significantly affect the pharmacokinetics of rosuvastatin, which suggests that the intracellular concentration of the inhibitor in the hepatocyte was insufficient to affect the transport of rosuvastatin, or that imatinib is not a sufficiently potent inhibitor in vivo. Furthermore, gemfibrozil administered as a single dose into the jejunum in healthy volunteers and pigs did not affect the plasma or biliary pharmacokinetics of rosuvastatin. The previously reported DDI in humans upon repeated dosing with gemfibrozil might be explained by the accumulation of metabolites able to affect the disposition of rosuvastatin. The investigations presented in this thesis conclude that transport proteins are of considerable importance for the hepatobiliary disposition of rosuvastatin in vivo. The Loc-I-Gut catheter can be applied for the investigation of biliary accumulation and to determine bile specific metabolites, however it has limitations when conducting quantitative measurements. In the porcine model, hepatic bile can be collected for up to six hours and enables the determination of the hepatic extraction in vivo.

Rosuvastatin

Biliary excretion

Transport inhibition

Pharmacokinetics

Drug-drug interactions

Hepatobiliary transport

Organic anion transporting polypeptide

OATP

Statins

Gemfibrozil

Cyclosporine

Imatinib

Rifampicin

Canalicular transport

Sinusoidal transport

Hepatic uptake

Hepatic extraction

Biopharmacy

Biofarmaci

Hepatic Disposition of Drugs and the Utility of Mechanistic Modelling and Simulation

Sjögren, Erik

January 2010

The elimination of drugs from the body is in many cases performed by the liver. Much could be gained if an accurate prediction of this process could be made early in the development of new drugs. However, for the elimination to occur, the drug molecule needs first to get inside the liver cell. Disposition is the expression used to encapsulate both elimination and distribution. This thesis presents novel approaches and models based on simple in vitro systems for the investigation of processes involved in the hepatic drug disposition. An approach to the estimation of enzyme kinetics based on substrate depletion data from cell fractions was thoroughly evaluated through experiments and simulations. The results that it provided were confirmed to be accurate and robust. In addition, a new experimental setup suitable for a screening environment, i.e., for a reduced number of samples, was generated through optimal experimental design. The optimization suggested that sampling at late time points over a wide range of concentration was the most advantageous. A model, based on data from primary hepatocytes in suspension, for the investigation of cellular disposition of metabolized drugs was developed. Information on the relative importance of metabolism and membrane protein related distribution was obtained by analysis of changes in the kinetics by specific inhibition of the various processes. The model was evaluated by comparing the results to those obtained from an in vivo study analyzed with an especially constructed mechanistic PBPK model. These investigations showed that the suggested model produced good predictions of the relative importance of metabolism and carrier mediated membrane transport for hepatic disposition. In conclusion, new approaches for the investigation of processes involved in hepatic disposition were developed. These methods were shown to be robust and increased the output of information from already commonly implemented in vitro systems.

Hepatic disposition

pharmacokinetics

mechanistic modelling

drug-drug interactions

enzyme kinetics

Vmax

Km

CLint

carrier-mediated transport

active transport

modelling

in vitro-in vivo extrapolation

optimal experimental design

experimental optimization

data analysis optimization

PHARMACY

FARMACI

Biopharmacy

Biofarmaci

Ασυμβασίες αντινεοπλασματικών φαρμάκων : Σχεδιασμός και ανάπτυξη κατάλληλης εφαρμογής για τον εντοπισμό και έλεγχο αυτών

Κακοσίμου, Ελένη

27 May 2014

Το mHealth, η χρήση δηλαδή φορητών τεχνολογιών για την βελτίωση των παρεχόμενων υπηρεσιών υγείας, είναι σήμερα ένα από τα πιο ταχέως αναπτυσσόμενα πεδία της ηλεκτρονικής υγείας (eHealth). Ο αριθμός των επαγγελματιών υγείας που υιοθετούν έξυπνα κινητά τηλέφωνα (smartphones) για την εκτέλεση πληθώρας λειτουργιών αυξάνεται συνεχώς, εξαιτίας των δυνατοτήτων και της φορητότητας που αυτά παρέχουν. Ταυτόχρονα, τα σφάλματα στη φαρμακευτική αγωγή είναι από τα πιο συνηθισμένα ιατρικά λάθη με επιπτώσεις τόσο στην υγεία του ασθενούς όσο και στις δαπάνες στην υγεία. Η χορήγηση φαρμάκων είναι μια πολύπλοκη διαδικασία, καθώς απαιτεί από τον ειδικό της υγείας την ανάλυση πληθώρας παραγόντων και την ανάκτηση, επεξεργασία και διαχείριση μεγάλου όγκου πληροφορίας. Σύμφωνα με τη βιβλιογραφία, η χρήση τεχνολογιών πληροφορικής για την υποβοήθηση των επαγγελματιών υγείας στη λήψη αποφάσεων κατά τη συνταγογράφηση, μπορεί να συμβάλει σημαντικά στη μείωση των σφαλμάτων φαρμακευτικής αγωγής. Στο πλαίσιο της παρούσας διπλωματικής εργασίας, προχωρήσαμε στη διερεύνηση και αξιολόγηση των σημαντικότερων εφαρμογών έξυπνων κινητών συσκευών για το φάρμακο, με στόχο την εξαγωγή χρήσιμων συμπερασμάτων για τα χαρακτηριστικά και τις λειτουργίες που ενσωματώνουν. Ένα από τα βασικά συμπεράσματα της έρευνας ήταν η απουσία αντίστοιχης εφαρμογής για τα φάρμακα που είναι εγκεκριμένα από τον Εθνικό Οργανισμό Φαρμάκων (ΕΟΦ). Ως εκ τούτου, προχωρήσαμε στο σχεδιασμό και την ανάπτυξη εφαρμογής για τον έλεγχο ασυμβασιών μεταξύ φαρμάκων, η οποία παρέχει επιπλέον τη δυνατότητα προβολής πληροφοριών συνταγολογίου για τα φάρμακα του ΕΟΦ. Ο σχεδιασμός της εφαρμογής έγινε λαμβάνοντας υπόψη τις ανάγκες και τις απαιτήσεις μελλοντικών χρηστών, όπως οι επαγγελματίες υγείας και οι ασθενείς, προκειμένου να διασφαλιστεί η λειτουργικότητα και η ευχρηστία της. Η εν λόγω εφαρμογή προορίζεται για έξυπνες κινητές συσκευές που διαθέτουν λειτουργικό σύστημα Android, ενώ η πληροφορία που ενσωματώνει βασίζεται αποκλειστικά στο εθνικό συνταγολόγιο του ΕΟΦ. / Mobile Health or mHealth, namely the use of mobile and wireless technologies in order to improve health services and achieve health goals, is today one of the most rapidly expanding fields of electronic health (eHealth). The number of health professionals that adopt smartphones to perform multiple tasks, during their everyday medical practice, is increasing constantly. This is due to the fact that smartphones provide advanced computing capabilities and high portability. Simultaneously, medication errors are among the most common medical errors which have negative impact both for the health of the patient and the expenditure on health sector. Drug prescribing is quite a complex procedure, considering the fact that requires the health expert to analyze multiple factors and retrieve, process, manage and digest large volume of information. According to the literature, the use of information technologies to assist health professionals in decision-making when prescribing drugs, can contribute significantly to the reduction of medication errors. In the context of our work, we explored and evaluated the major smartphone applications for drugs, aiming to the extraction of useful conclusions about the features and functions that they incorporate. One of the research key findings was the absence of a corresponding application for the drugs that are approved by the National Drug Organization of Greece. Therefore, we design and develop an application for checking drug-drug interactions which additionally provides the ability to view national formulary information about drugs. The analysis and design of the application was implemented in collaboration with future users, such as health professionals and patients, in order to ensure that will meet their needs and requirements and at the same time will remain user friendly. This application is intended for Android smart mobile devices (e.g. smartphones, tablet PCs) and the information that integrates is solely based on the national formulary of the National Drug Organization of Greece.

Ασυμβασίες φαρμάκων

615.704 5

mHealth

Mobile applications

Android

Drug interactions

Drug to drug interactions

Drug-drug interactions

Mobile health

Medication errors

DCE-MRI assessment of hepatic uptake and efflux of the contrast agent, gadoxetate, to monitor transporter-mediated processes and drug-drug interactions : in vitro and in vivo studies

Georgiou, Leonidas

January 2015

Dynamic contrast-enhanced magnetic resonance imaging (DCE-MRI) techniques offer the opportunity to understand the physiological processes involved in the distribution of the contrast agent in vivo. This work utilises a liver specific contrast agent (gadoxetate) and demonstrates the potential use of these techniques to study transporter-mediated process in vivo. In vitro experiments investigated gadoxetate’s interaction with uptake and efflux transporters at the cellular level, ideally a prerequisite to understand the contribution of transporter proteins in in vivo pharmacokinetics. MRI was used to measure the accumulation of gadoxetate in fresh rat hepatocytes. Furthermore, LC-MS/MS methodology was optimised in conjunction with two in vitro systems to determine the role of transporters in gadoxetate uptake and efflux. HEK-OATP1B1 transfected cells were used to optimise the LC-MS/MS technique and Caco-2 cell monolayers were used to examine whether gadoxetate is a substrate of the efflux transporters, Pgp and BCRP. Subsequent studies demonstrated the use of DCE-MRI techniques to study transporter-mediated processes. Two pharmacokinetic models were proposed to quantify the uptake and efflux of gadoxetate in vivo. The suitability of the models in describing the liver concentration profiles of gadoxetate was assessed in pre-clinical and clinical reproducibility studies. Further pre-clinical experiments demonstrated the ability of the proposed DCE-MRI techniques to monitor changes in the uptake and efflux rate estimates of gadoxetate into hepatocytes, through co-administration of the transporter inhibitor, rifampicin, at two doses. The work presented demonstrates the potential use of DCE-MRI techniques as a diagnostic probe to assess transporter-mediated processes and drug-drug interactions (DDIs) in vivo.

615.7

Characterization of the membrane transporter OATP1A2 activity towards different classes of drugs

Lu, Jennifer

12 1900

Les transporteurs membranaires sont des éléments importants dans le devenir, l’efficacité, et la toxicité du médicament. Ils influencent la pharmacocinétique et la pharmacodynamie de ces derniers. Plusieurs interactions médicamenteuses observées cliniquement sont attribuables à la fois aux enzymes responsables du métabolisme des médicaments et aux transporteurs membranaires. Il est connu qu’une variabilité existe entre différents individus dans la réponse à un médicament et les polymorphismes génétiques retrouvés dans les gènes codant pour les transporteurs membranaires peuvent partiellement expliquer cette variabilité. OATP1A2 est un transporteur membranaire exprimé sur des organes importants, comme le cerveau et le rein. Plusieurs médicaments utilisés en clinique sont des substrats d’OATP1A2 et l’expression localisée de ce transporteur suggère un rôle important dans le devenir du médicament. Donc, mon projet de doctorat consistait à caractériser l’activité d’OATP1A2 en relation avec ses substrats et inhibiteurs, et de plus, à évaluer l’impact de différents variants génétiques d’OATP1A2 sur leur transport. Dans le premier article, la rosuvastatine a été utilisée comme substrat-type pour étudier le transport d’OATP1A2. Les expériences ont été menées en introduisant la rosuvastatine en compétition avec différent β-bloqueurs, une classe de médicaments rapportée dans la littérature comme substrats d’OATP1A2. Parmi les β-bloqueurs évalués, le carvédilol était l’inhibiteur le plus puissant. Dans la deuxième partie de l’étude, des médicaments ayant une structure similaire au carvédilol, tels que les antidépresseurs tricycliques, ont été évalués quant à leur potentiel d’inhibition sur OATP1A2. Une relation structure-activité a été définie à l’aide de ces données. Nous avons démontré que des composés tricycliques avec une courte chaîne aliphatique pouvaient inhiber OATP1A2. Dans le deuxième article, OATP1A2 a été étudié en considérant son expression et son rôle au sein de la barrière hémato-encéphalique (BHE). Des études précédentes ont démontré qu’OATP1A2 est exprimé sur la membrane luminale des cellules endothéliales formant la BHE. Nos données démontrent que les triptans, une classe de médicaments couramment utilisées pour traiter la crise migraineuse, sont des substrats d’OATP1A2 et que les composés tricycliques identifiés comme inhibiteurs d’OATP1A2 dans nos études précédentes peuvent inhiber le transport des triptans par OATP1A2. Ces résultats sont importants puisque: 1) il a été suggéré que les triptans peuvent agir au niveau du système nerveux central en se liant aux récepteurs trouvés sur les neurones centraux; 2) comme les triptans sont des molécules hydrophiles, un mécanisme de transport facilité est nécessaire pour qu’ils pénètrent la BHE et OATP1A2 pourrait être l’élément clé; 3) l’inhibition d’OATP1A2 par les composés tricycliques pourrait limiter l’accès des triptans à leur site d’action. Le troisième article caractérise l’activité associée à deux variants génétiques d’OATP1A2 (OATP1A2*2 et *3). Leur capacité à transporter les triptans et leur potentiel d’inhibition par les médicaments tricycliques ont été évalués. Des résultats supplémentaires caractérisant OATP1A2, mais sans liens directs avec les trois articles, seront présentés en annexe. Dans l’ensemble, les résultats présentés dans cette thèse servent à caractériser le transporteur membranaire OATP1A2 en relation avec ses substrats et inhibiteurs, et en fonction de ses variants génétiques. / Drug transporters are important determinants in drug disposition, efficacy, and toxicity. They influence the pharmacokinetics and pharmacodynamics of drugs. Several clinically-observed drug-drug interactions are mediated through drug metabolizing enzymes and drug transporters. It is well known that there is an interindividual variability in the response to medications and polymorphisms found in genes encoding for drug transporters partially account for it. OATP1A2 is a membrane drug transporter expressed on important organs, such as the brain and the kidney. A wide spectrum of drugs used in the clinic are substrates of OATP1A2. Its localisation suggests an essential role in drug disposition. Thus, my PhD project consisted of characterizing the activity of OATP1A2 in regards to its substrates, inhibitors, and different protein variants due to genetic polymorphisms. In the first article, rosuvastatin was used as the probe substrate to study OATP1A2 transport activity. Experiments were conducted by putting rosuvastatin in competition with different β-blockers, a class of drugs known in the literature to be transported by OATP1A2. One of the drugs evaluated, carvedilol, inhibited OATP1A2 with much more potency than the others. In the second part of the study, drugs with a structure similar to carvedilol, such as tricyclic antidepressants, were tested for their potential to inhibit OATP1A2. A structure-activity relationship was defined using the data. It was demonstrated that drugs composed of a tricyclic ring with a short aliphatic amine chain were potent OATP1A2 inhibitors. In the second article presented, OATP1A2 was studied in the context of its localization at the blood-brain barrier (BBB). OATP1A2 expression at the luminal membrane of the endothelial cells making up the BBB was demonstrated in the literature. Our article showed that triptans, a class of commonly used anti-migraine drugs, were OATP1A2 substrates. The tricyclic drugs previously evaluated were shown to potently inhibit triptan transport through OATP1A2. These findings are important for three reasons: 1) it has been postulated that triptans may act at the central nervous system by binding to receptors found on central neurons; 2) as triptans are hydrophilic molecules, a facilitated transport mechanism is required for them to penetrate the BBB and OATP1A2 may be the key player; and 3) the inhibition of OATP1A2 by the tricyclic drugs may limit the entrance of triptans to their site of action. The third article characterized the transport activity of two OATP1A2 protein variants (OATP1A2*2 and *3). Their capacities to transport triptans and their potential of being inhibited by tricyclic drugs were evaluated. Additional data characterizing OATP1A2 but considered out of the scope of the three articles will be presented in appendices. In overall, the central theme of this thesis looks into the characterization of the OATP1A2 membrane drug transporter in regards to its substrates, inhibitors, and proteins variants.

Drug transporters

OATP1A2

drug-drug interactions

triptans

blood-brain barrier

rosuvastatin

tricyclic antidepressants

carvedilol

single-nucleotide polymorphisms

Transporteurs de médicaments

interactions médicamenteuses

barrière hémato-encéphalique

antidépresseurs tricycliques

rosuvastatine

carvédilol

polymorphisme d’un seul nucléotide

The role of drug metabolism in drug discovery and development:case ospemifene

Uusitalo, J. (Jouko)

24 November 2015

Abstract Drug metabolism is one of the most important events a drug faces after administration. Traditionally, drug metabolism has only been considered as a major clearance and elimination step in the pharmacokinetics of a drug. However, drug metabolism is also one of the important factors behind safety and toxicity issues in drug discovery and development. Some of the mechanisms behind metabolism-related toxicity we do understand well while others, especially the role of reactive metabolites, need further research. The thesis reviews the role of drug metabolism in the drug discovery and development process from the point of view of metabolism and metabolites. Special emphasis is put on reviewing the metabolism behind human toxicity and safety, and the roles of circulating and reactive metabolites in particular. Ospemifene is a nonsteroidal selective estrogen receptor modulator recently approved for the treatment of vulvar and vaginal atrophy in postmenopausal women with moderate to severe dyspareunia. The present study characterized the in vitro and in vivo metabolism and potential drug interactions of ospemifene. The principal human metabolites were identified and the adequacy nonclinical animal exposure was evaluated. The major human cytochrome P450 enzymes involved in the formation of principal metabolites were also identified and the clinical consequences assessed. Finally, the interaction potential of ospemifene as a cytochrome P450 enzyme inducer or inhibitor was investigated. As a result, ospemifene was considered to be safe drug from a metabolic interaction point of view. This study was part of the drug development program of ospemifene and practically all of the in vitro study data were included in the marketing authorization application of ospemifene. Ospemifene was also a case molecule in the development of new methodologies to study drug metabolism and drug-drug interactions. / Tiivistelmä Lääkeainemetabolia on lääkeaineen farmakokinetiikassa tärkeä puhdistuma- ja eliminaatioaskel, jonka rooli on ymmärretty varsin hyvin. Lääkeainemetabolialla on myös merkittävä vaikutus lääkeaineen toksisuuteen ja lääkkeen käytön turvallisuuteen. Osa lääkeainemetaboliaan liittyvistä toksisuusmekanismeista selvitetty hyvin, mutta erityisesti reaktiivisiin metaboliitteihin liittyvä osa vaatii vielä tutkimusta. Tämän työn kirjallisuusosassa katselmoidaan lääkeainemetabolian merkitystä lääkekehitysprosessissa painottaen erityisesti lääkeainemetabolian sekä reaktiivisten ja verenkierrossa kiertävien metaboliatuoteiden vaikutusta toksisuuteen ihmisellä ja merkitystä turvalliseen lääkkeiden käyttöön. Ospemifeeni on uusi ei-steroidinen selektiivinen estrogeenireseptorimodulaattori, joka on hyväksytty yhdynnänaikaisesta kivusta kärsivien postmenopausaalisten naisten vulvan ja vaginan limakalvojen kuivumisen hoitoon. Tässä tutkimuksessa selvitettiin ospemifeenin lääkeainemetaboliaa ihmisellä ja koe-eläimillä sekä mahdollisia lääkeinteraktioita. Tutkimuksessa tunnistettiin tärkeimmät metaboliitit ihmisellä ja arvioitiin eläinkokeissa käytettyjen koe-eläinten altistumisen kattavuus niille. Työssä selvitettiin myös tärkeimmät päämetaboliitteja katalysoivat sytokromi P450 -entsyymit ja arvioitiin löydösten kliinistä merkitystä. Lisäksi tutkittiin aiheuttaako ospemifeeni lääkeinteraktioita muille lääkeaineille indusoimalla tai inhiboimalla sytokromi P450 -entsyymejä. Tutkimustulosten perusteella ospemifeenia voidaan pitää lääkeainemetabolian suhteen turvallisena lääkkeenä. Tämä tutkimus oli osa ospemifeenin lääkekehitysohjelmaa ja käytännössä kaikki tutkimustyön in vitro -tietoaineisto oli mukana ospemifeenin myyntilupa-hakemuksissa lääketurvallisuusviranomaisille. Ospemifeenia käytettiin tutkimustyön aikana myös yhtenä esimerkkimolekyylinä kehitettäessä uusia menetelmiä lääkeainemetabolian ja lääkeinteraktioiden tutkimiseen.

Cytochrome P450 enzyme system

bioanalysis

drug metabolism

drug safety

drug-drug interactions

ospemifene

pharmaceutical analysis

pharmacokinetics

reactive metabolites

bionalytiikka

farmakokinetiikka

lääkeaineanalytiikka

lääkeainemetabolia

lääkeinteraktiot

lääketurvallisuus

ospemifeeni

reaktiiviset metaboliitit

sytokromi P450 -entsyymijärjestelmä

ADME

DMPK

In vitro a ex vivo studium lékových interakcí antiretrovirálních látek na střevních ATP-vázajících lékových transportérech / In vitro and ex vivo study of drug-drug interactions of antiretrovirals on intestinal ATP-binding drug transporters

Jahodová, Michaela

January 2017

Charles University in Prague Faculty of Pharmacy in Hradec Králové Department of Pharmacology and Toxicology Student: Bc. Michaela Jahodová Supervisor: PharmDr. Lukáš Červený, Ph.D. Title of diploma thesis: In vitro and ex vivo study of drug-drug interactions of antiretrovirals on intestinal ATP-binding drug transporters The absorption of orally administered drugs takes place especially in the intestine, where it can affect by the activity of drug's ABC transporters located on the apical membrane of the intestinal epithelium. Study of drug interactions in intestinal ABC transporters is essential to ensure effective and safe pharmacotherapy. Testing of bi- directional transport on Caco-2 cells is generally the preferred method for in vitro evaluation of substrates and inhibitors of ABC transporters. Drawbacks of the Caco-2 model increase the need and necessity to introduce new models. A great potential is the involvement of ex vivo methodologies in the human or rat intestine. The aim of the work was to introduce an in vitro methodology using the Caco-2 cell monolayer and the ex vivo methodology of precision-cut rat intestinal slices. By the bi-directional transport method, we analyzed drug interactions of the model substrate P-gp and BCRP Rhodamine 123 (RHD123) and clinically-used tenofovir...

Pharmacodynamics miner : an automated extraction of pharmacodynamic drug interactions

Lokhande, Hrishikesh

11 December 2013

Indiana University-Purdue University Indianapolis (IUPUI) / Pharmacodynamics (PD) studies the relationship between drug concentration and drug effect on target sites. This field has recently gained attention as studies involving PD Drug-Drug interactions (DDI) assure discovery of multi-targeted drug agents and novel efficacious drug combinations. A PD drug combination could be synergistic, additive or antagonistic depending upon the summed effect of the drug combination at a target site. The PD literature has grown immensely and most of its knowledge is dispersed across different scientific journals, thus the manual identification of PD DDI is a challenge. In order to support an automated means to extract PD DDI, we propose Pharmacodynamics Miner (PD-Miner). PD-Miner is a text-mining tool, which is capable of identifying PD DDI from in vitro PD experiments. It is powered by two major features, i.e., collection of full text articles and in vitro PD ontology. The in vitro PD ontology currently has four classes and more than hundred subclasses; based on these classes and subclasses the full text corpus is annotated. The annotated full text corpus forms a database of articles, which can be queried based upon drug keywords and ontology subclasses. Since the ontology covers term and concept meanings, the system is capable of formulating semantic queries. PD-Miner extracts in vitro PD DDI based upon references to cell lines and cell phenotypes. The results are in the form of fragments of sentences in which important concepts are visually highlighted. To determine the accuracy of the system, we used a gold standard of 5 expert curated articles. PD-Miner identified DDI with a recall of 75% and a precision of 46.55%. Along with the development of PD Miner, we also report development of a semantically annotated in vitro PD corpus. This corpus includes term and sentence level annotations and serves as a gold standard for future text mining.

Drug interactions -- Research

Drugs -- Physiological effect

Bioinformatics -- Research -- Analysis

Semantics -- Data processing

Semantics -- Network analysis

Text processing (Computer science)

Computational linguistics

Computational complexity

Pharmacokinetics

Querying (Computer science) -- Research

Studium lékových interakcí inhibitoru HIV proteázy darunaviru na efluxních ABC transportérech in vitro / In vitro study of drug-drug interactions of HIV protease inhibitor darunavir on efflux ABC transporters

Bezděková, Dominika

January 2021

Charles University Faculty of Pharmacy in Hradec Králové Department of Pharmacology & Toxicology Student: Dominika Bezděková Supervisor: doc. PharmDr. Lukáš Červený, Ph.D. Title of diploma thesis: IN VITRO STUDY OF DRUG-DRUG INTERACTIONS OF HIV PROTEASE INHIBITOR DARUNAVIR ON EFFLUX ABC TRANSPORTERS Abstract: Darunavir is a drug used in the therapy of HIV belonging to the group of protease inhibitors. These protease inhibitors are used as a part of the combination antiretroviral therapy. For the increase of bioavailability, darunavir is always used in combination with ritonavir or cobicistat. As the CYP3A4 and ABCB1 (P-glycoprotein) transporter substrate, darunavir is a drug with a high potential to drug interactions. Considering the amount of adverse effects that can be caused by darunavir, it is necessary to know these drug interactions for the safety of therapy. Inhibition of the intestinal ABCB1 by the co-administrated drugs could also lead to the increased bioavailability of darunavir and to reduction of frequency of administration leading to a cheaper therapy. This thesis studies the drug-drug interactions of darunavir with in vitro methods using two cell lines - MDCKII and Caco-2 cells. The results from the transport of darunavir across the MDCKII cell monolayer indicates that darunavir is a ABCB1...

In vitro a ex vivo studium lékových interakcí antivirotik na střevních membránových transportérech / In vitro and ex vivo study of drug-drug interactions of antivirals on intestinal membrane transporters

Halodová, Veronika

January 2021

Charles University Faculty of Pharmacy in Hradec Králové Department of Pharmacology & Toxicology Student: Veronika Halodová Supervisor: doc. PharmDr. Lukáš Červený, Ph.D. Title of diploma thesis: In vitro and ex vivo study of drug-drug interactions of antivirals on intestinal membrane transporters Tenofovir (TFV) is the first-line agent in the treatment of hepatitis B virus (HBV) infection for patients aged over 12 years and one of the first-line choices for the combination antiretroviral therapy (cART) of infections caused by human immunodeficiency virus (HIV). Two commercially available prodrugs have been developed for oral administration of TFV, tenofovir disoproxil fumarate (TDF) and tenofovir alafenamide fumarate (TAF). These prodrugs increase TFV membrane permeability and oral bioavailability. One of the factors that can affect the bioavailability of orally administrated drugs is active transport mediated by efflux transporters, mainly by P-glycoprotein (ABCB1, P-gp) and Breast cancer resistance protein (ABCG2, BCRP). It has been already proved that TDF and TAF are substrates of both of these transporters. The goal of this diploma thesis was to use in vitro and ex vivo models of intestinal barrier to assess the impact of the efflux transporters on TDF and TAF transport in the intestine and on their...