Grapefruit-drug interaction: isolation, synthesis, and biological activities of furocoumarins and their variation due to pre- and post-harvest factors.

Girennavar, Basavaraj

15 May 2009

The health maintaining properties of citrus consumption are attributed to the wide assortment of bioactive compounds. Consumption of grapefruit along with certain medications, however, is posing a risk of drug toxicity and side reactions. The first study involved isolation of bioactive furocoumarins with a combination of chromatographic techniques and synthesis. Five furocoumarins namely, dihydroxybergamottin, paradisin A, bergamottin, bergaptol and geranylcoumarin were isolated from grapefruit and series of furocoumarin monomers and paradisin A were synthesized. The second study involved influence of pre- and post-harvest factors on the levels of furocoumarins in grapefruit juice. Considerable differences were observed in the levels of these compounds in different grapefruit cultivars. Ray Red showed the lowest levels of all three furocoumarins and Duncan contains the highest amount of DHB and bergamottin, where as the highest levels of paradisin A was observed in Star Ruby. The highest levels of DHB and bergamottin were found in Flame cultivar grown in California. The changes in the levels of these furocoumarins during the season in Rio Red and Marsh White grapefruit cultivars were evaluated. The third study investigated biological activities of grapefruit juices and furocoumarins. Grapefruit and Pummelo juices were found to be potent inhibitors of cytochrome CYP3A4 and CYP2C9 isoenzymes at 5% concentration while CYP2D6 was less affected. Among the five furocoumarins tested, the inhibitory potency was in the order of paradisin A>dihydroxybergamottin>bergamottin>bergaptol>geranylcoumarin at 0.1 µM to 0.1 mM concentrations. A fourth study investigated the effect of furocoumarins on bacterial auto-inducer signaling, and found that furocoumarins are potent inhibitors of AI-1 and AI-2 activities at 0.01% concentration. In a fifth study, involving synthesized furocoumarin monomers and dimer on anti-proliferative activities on normal and cancer cell lines, furocoumarins found to be non-toxic to normal cells. However, bergamottin showed a significant anti-proliferative activity in HT-29 and MCF-7 cell lines. This dissertation indicates that furocoumarins are bioactive compounds from grapefruit juice with potent inhibitory property of major drug metabolizing cytochrome P450 isoenzymes. Furocoumarins show a considerable variation between varieties, location and season. These results corroborate the involvement of furocoumarins in grapefruit drug interaction.

Grapefruit

Bioactive compounds

Drug-interaction

cytochrome P450 enzyme

Furocoumarins

Pre- and post-harvest factors

Investigating orphan cytochrome P450s in Mycobacterium tuberculosis : insights into enzyme structure, function and inhibitor design

Chenge, Jude

January 2016

The World Health Organization regards tuberculosis as a world pandemic disease. There is increased demand for new drugs to tackle this threat. This threat has been further elevated with the emergence of drug resistant strains of the causative pathogen, Mycobacterium tuberculosis (Mtb), thereby increasing the urgency for development of novel anti-tubercular drugs. Success in whole genome sequence determination of Mtb revealed a large cohort of cytochrome P450 (CYP) enzymes. Research on these Mtb P450s has shown that several of them are critical to the survival of the pathogen. CYP121A1 and CYP128A1 have been demonstrated to be essential using knockout experiments. CYP125A1 and CYP142A1 have been shown to play crucial roles in bacterial catabolism of host steroids, with CYP125A1 also shown to be located within a gene cluster highly important for bacterial virulence and infectivity. CYP144A1 was shown to be one of the genes whose expression is elevated when Mtb was exposed to macrophage-like conditions, and gene knockout studies using the H37Rv virulent strain of Mtb indicated the ΔCYP144A1 mutant to be more sensitive to the clotrimazole antifungal. CYP126A1 was shown to be located within a cluster of genes highly important for the de novo synthesis of purines in Mtb. These and other data suggested these enzymes to be important to the growth process of Mtb and thus potential drug targets for developing novel therapeutics. Findings in this PhD have revealed that many characteristics of CYP144A1 and CYP126A1 are comparable to previous Mtb P450s reported to date. CYP144A1 is highly conserved within the Mycobacterium genus and specifically within pathogenic species. Transcriptomic analysis has revealed an alternative truncated transcript leading to the production of two physiologically relevant versions of CYP144A1. Our comparative biophysical characterization of both versions (CYP144A1-FLV and -TRV) show both enzymes to be similar in their binding tightly to azole antifungals. EPR and DSC studies show that the 30 amino acid truncation (to form CYP144A1-TRV) does not affect the heme electronic environment and the overall thermal stability of the enzymes. X-ray crystallography was utilized to determine the first crystal structure of a Mtb CYP144 family enzyme. The structure reveals that CYP144A1 possesses a large hydrophobic active site primed for accommodating large hydrophobic substrates. Further chemoproteomic profiling identified novel compounds, which bind in both inhibitor-like and substrate-like modes to CYP144A1, resulting in the development of novel CYP144A1 compounds for use as chemical probes for this P450. Fragment and compound screening identified several ligands with varying binding affinities for CYP126A1, suggesting that this P450 is capable of binding and catalyzing reactions with a wide range of substrates. Turnover experiments proved catalytic activity of CYP126A1 on one of these compounds (Compound 4). Crystallization of CYP126A1 with various compound “hits” (compounds 1 and 7, the azole drug ketoconazole) revealed involvement of several important residues within the active site of CYP126A1 in interactions with these molecules, thus providing important information for designing inhibitors for this enzyme. Both CYP144A1 and CYP126A1 display important characteristics that contribute to our general understanding of cytochromes P450 as a whole, and of Mtb P450s in particular. This PhD project has established the first instance of leaderless transcripts in Mtb P450s and has presented the first crystal structures of both CYP144A1 and CYP126A1, as well as identifying novel, useful chemicals that can be used as mechanistic probes for these enzymes as well as providing the basis for Mtb P450 isoform-specific inhibitors.

615.1

Cytochrome P450 enzymes—<em>in vitro</em>, <em>in vivo</em>, and <em>in silico</em> studies

Turpeinen, M. (Miia)

10 October 2006

Abstract Metabolism is a major determinant of the pharmacokinetic properties of most drugs and is often behind bioavailability problems, drug-drug interactions, and metabolic idiosyncrasies. Cytochrome P450 (CYP) enzymes are a superfamily of microsomal hemoproteins catalysing the metabolic reactions of several exogenous compounds. The majority of crucial steps within drug metabolism are in connection with CYP enzymes. In the present study, in vivo, in vitro, and in silico approaches were applied and characterised to evaluate the effects of chemical entities on CYP-mediated metabolism. CYP2B6 was used as a target enzyme for these studies. For evaluation of the CYP inhibition potential of new chemical entities, a novel in vitro test system utilising the n-in-one approach was developed. This method proved to be robust and applicable to screening purposes. Validation of the n-in-one assay was done by comparing its performance to commonly used in vitro techniques using six structurally diverse drugs. All assay types yield remarkably similar results with the majority of the CYP forms tested. Several chemicals were screened in vitro and in silico in order to find potent and selective chemical inhibitors for CYP2B6. Ticlopidine, thioTEPA and 4-(4-chlorobenzylpyridine) were found to be highly effective inhibitors of CYP2B6. The selectivity of thioTEPA proved to be very high, whereas ticlopidine and 4-(4-chlorobenzylpyridine) also inhibited other CYPs. At a concentration level of 1 μM for ticlopidine and 0.1 μM for 4-(4-chlorobenzylpyridine), the inhibitory effect towards other CYPs was negligible. Due to wide clinical use and relevance, clopidogrel and ticlopidine were selected for further in vivo interaction studies. Both clopidogrel and ticlopidine significantly inhibited the CYP2B6-catalysed bupropion hydroxylation and patients receiving either clopidogrel or ticlopidine are likely to need dose adjustments when treated with drugs primarily metabolised by CYP2B6. The effect of impaired kidney function on CYP2B6 activity and on bupropion pharmacokinetics was also explored. In patients with kidney disease, the bupropion AUC and Cmax were significantly higher and the apparent oral clearance of bupropion was notably lower compared to healthy controls. The present results indicate that the in silico and in vitro methods used are helpful in predicting in vivo drug-drug interactions. The effective utilisation of these models in the early phases of drug discovery could therefore help to target the in vivo studies and to eliminate metabolically unfavourable drug candidates.

bupropion

clopidogrel

cytochrome P450 enzyme system

drug interactions

drug metabolism

enzyme inhibition

ticlopidine

Development of LC/MS techniques for plant and drug metabolism studies

Petsalo, A. (Aleksanteri)

25 May 2011

Abstract Liquid chromatography (LC) combined with mass spectrometry (MS) is a powerful tool for qualitative and quantitative analytics of organic molecules from various matrices, and the use of this hyphenated technique is very common in bioanalytical laboratories. In this study, LC/MS methods and the required sample preparation applications were developed for plant flavonoid and drug metabolism studies. The main focus was in developing methods to be used during cytochrome P450 (CYP) -specific drug interaction studies. Traditional high performance liquid chromatography (HPLC) and new, more efficient and faster ultra-performance liquid chromatography (UPLC) were utilized together with time-of-flight (TOF) and triple quadrupole (QqQ) mass spectrometry. In the flavonoid study, collision-induced radical cleavage of flavonoid glycosides was tested and observed to be a suitable tool for the structure elucidation of the 15 flavonol glycosides extracted from the medicinal plant Rhodiola rosea. Ten of these glycosides were previously unreported in the plant. Several unreported in vivo bupropion metabolites were identified from human urine when developing the method for the new and more extensive in vitro and in vivo N-in-one interaction cocktail assays. The qualified analysis methods developed here enable faster analysis for the N-in-one cocktail assays, in turn enabling a more efficient screening of drugs that affect CYP-enzyme activities. In the case of the human in vitro cocktail assay, fourteen compounds were analyzed using a single LC/MS/MS run. The method has proven to be very reliable and has been used in several interaction studies utilizing different sample matrices. The in vivo cocktail assay that was developed enables totally non-invasive sample collection from the patients, the urine sample being sufficient for the UPLC/MS/MS analysis of all target compounds. The last part of the study consisted of developing a specific and very sensitive UPLC/MS/MS method for the analysis of one of the in vivo cocktail analytes, the antidiabetic drug repaglinide, from human placenta perfusates. / Tiivistelmä Nestekromatografia (LC) yhdistettynä massaspektrometriaan (MS) on tehokas työväline kvalitatiivisessa ja kvantitatiivisessa analytiikassa, ja tätä tekniikkaa käytetään erityisesti bioalan laboratorioissa. Tässä väitöskirjatyössä kehitettiin ja sovellettiin LC/MS- ja näytteenkäsittelymenetelmiä kasvien flavonoidimetabolian ja lääkeaineiden metaboliatuotteiden tutkimukseen keskittyen erityisesti sytokromi P450 (CYP) -entsyymispesifisten lääkeaineiden interaktiotutkimuksiin tarvittaviin menetelmiin. Työssä hyödynnettiin perinteistä korkean erotuskyvyn nestekromatografiaa (HPLC) ja uutta, suorituskyvyltään vielä tehokkaampaa ja nopeampaa nestekromatografiaa (UPLC) yhdessä lentoaika- (TOF) ja kolmoiskvadrupolimassaspektrometrian (QqQ) kanssa. Tutkimustyön flavonoidimetaboliaan keskittyneessä osuudessa havaittiin törmäyksen aiheuttaman (CID) radikaalipilkkoutumisen soveltuvan lääkinnällisenä kasvina käytetystä ruusujuuresta (Rhodiola rosea) uutettujen viidentoista flavonoliglykosidin rakennemääritykseen. Kymmentä näistä löydetyistä glykosideista ei oltu aiemmin raportoitu ruusujuuresta. Tutkimustyön keskeisimpänä tavoitteena kehitettiin kvalifioidut LC/MS -analyysimenetelmät käytettäväksi aikaisempaa kattavampien in vitro ja in vivo -olosuhteiden N-in-one -tyyppisten CYP-entsyymi-interaktiotutkimusten analyyttisenä työkaluna. Näitä analyysimenetelmiä kehitettäessä löydettiin ja tunnistettiin ihmisen virtsasta aiemmin raportoimattomia metaboliitteja CYP2B6 -entsyymin malliaineena käytetyn bupropionin annostelun jälkeen. Kyseisten kehitettyjen analyysimenetelmien avulla CYP-entsyymien toimintaan vaikuttavien lääkeaineiden tutkiminen on aiempaa nopeampaa ja antaa yhdellä kertaa samasta tutkimuksesta entistä laaja-alaisempaa tietoa. In vitro -tutkimusta varten kehitetty LC/MS/MS -analyysimenetelmä on osoittautunut erittäin käyttökelpoiseksi lukuisissa interaktiotutkimuksissa, ja in vivo -tutkimusta varten kehitetty UPLC/MS/MS -analyysimenetelmä mahdollistaa täysin ei-invasiivisen näytteenoton potilaista. Tutkimustyön viimeisessä vaiheessa kehitettiin erittäin herkkä ja spesifinen UPLC/MS/MS -analyysimenetelmä CYP2C8-entsyymin toiminnan malliaineena käytetyn repaglinidin analysoimiseksi koejärjestelystä, jossa tutkitaan yhdisteiden kulkeutumista raskausaikana äidin ja sikiön verenkierron välillä istukan kautta.

cytochrome P450 enzyme system

drug metabolism

flavonoids

liquid chromatography

mass spectrometry

urine analysis

aineenvaihdunta

analyysimenetelmät

flavonoidit

lääkeaineet

massaspektrometria

nestekromatografia

sytokromit

Transcriptional regulation of the hepatic cytochrome <em>P450 2a5</em> gene

Arpiainen, S. (Satu)

25 September 2007

Abstract Cytochrome P450 (CYP) enzymes are the major metabolizers of xenobiotics, e.g. drugs, and environmental toxins. Thus, changes in CYP expression have an important impact on drug metabolism and susceptibility to chemical toxicity. In the present study, the transcriptional mechanisms of both constitutive and inducible regulation of the Cyp2a5 gene in mouse liver were investigated. Mouse primary hepatocyte cultures were used as the main model system together with cell and molecular biology methods. The key activation regions of the Cyp2a5 5' promoter were determined using reporter gene assays. Two major transcription activation sites of the Cyp2a5 5' promoter, called the proximal and the distal, were found. Transcription factors hepatocyte nuclear factor-4 (HNF-4) and nuclear factor I were shown to bind to the proximal promoter. Aryl hydrocarbon receptor nuclear translocator (ARNT) and upstream stimulatory factor bound to a common palindromic E-box element in the distal promoter region. All three response elements were shown to be essential for constitutive expression of CYP2A5 in murine hepatocytes. ARNT appeared to control Cyp2a5 transcription without a heterodimerization partner suggesting active involvement of the ARNT homodimer in mammalian gene regulation. Aryl hydrocarbon receptor (AHR) ligands were shown to induce Cyp2a5 transcriptionally by an AHR-dependent mechanism, and established Cyp2a5 as a novel AHR-regulated gene. The AHR response element and the E-box, identified in these studies, were located near to each other and close to a separately defined nuclear factor (erythroid-derived 2)-like 2 binding site in the distal region of the Cyp2a5 promoter, suggesting cooperation between these elements. Peroxisome proliferator-activated receptor gamma coactivator-1α was shown to up-regulate Cyp2a5 transcription through coactivation of HNF-4α. This indicates that xenobiotic metabolism can be regulated by modification of co-activation. The present results show that CYP2A5 is regulated by several different cross-regulatory pathways. The regulatory mechanisms involved in the transcription of the Cyp2a5 gene may also control other CYP genes, especially the human ortholog CYP2A6, and may explain some of the individual variations in the metabolism of xenobiotics.

CYP2A5

aryl hydrocarbon receptor

cytochrome P450 enzyme system

hepatocyte nuclear factor 4

nuclear factor I

upstream stimulatory factors

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