INTERFERON-GAMMA MODULATES INTESTINAL P-GLYCOPROTEIN: MOLECULAR MECHANISM(S) AND CLINICAL IMPLICATIONS

DIXIT, SANTOSH G.

29 September 2005

No description available.

Health Sciences, Pharmacy

Evaluation of Novel Efflux Transport Inhibitor for the improvement of drug delivery through epithelial cell monolayer

Sonawane, Amit

January 2015

Blood-brain barrier (BBB) is a unique membranous barrier, which segregates brain from the circulating blood. It works as a physical and metabolic barrier between the central nervous system (CNS) and periphery. In mammals, endothelial cells were shown to be of BBB and are characterized by the tight junctions along with efflux system which are responsible for the restriction of movement of molecules within the cells. Efflux system consists of multidrug resistance proteins such as P-glycoprotein (P-gp). P-gp removes substances out back from the brain to the blood before they reach to the brain. So the barrier is impermeable to many compounds such as amino acids, ions, small peptides and proteins, making it the most challenging factor for the development of new drugs for targeting CNS. Curcumin is a bioactive compound that has a number of health promoting benefits such as anti-inflammatory, anticancer, anti-oxidant agent; as well as a role in neurodegenerative diseases, but low oral bioavailability is the major limiting factor. Low water solubility and rapid metabolism are the two important factors responsible for poor bioavailability of curcumin. Galaxolide is a musk compound and previously known for the bioaccumulation of toxic components in the aquatic animals by interference with the activity of multidrug/multixenobiotic resistance efflux transporters (MDR/MXR). The bioavailability of curcumin can be enhanced when administered with galaxolide. This study was carried out to investigate the effect of galaxolide on the permeation of curcumin through the epithelial cell monolayers. MDCKII-MDR1 cell monolayer is used an in vitro blood-brain barrier model while Caco-2 monolayer is used as an in vitro intestinal model, which also expresses the P-glycoprotein. The curcumin and galaxolide were separately solubilised in the DMSO and used in combination to perform permeation study, to determine the effect of galaxolide on curcumin permeation through epithelial cell monolayers. The galaxolide shows an efflux protein inhibition activity and this activity was used to enhance permeation of curcumin through the Caco-2 monolayer. In summary, galaxolide is a novel permeation enhancer molecule, which can be used for the improvement of drug delivery of other bioactive compounds in future. / Department of Social Welfare, Govt. of Maharashtra (India)

Galaxolide

P-Glycoprotein inhibition

Permeability study

Blood-Brain Barrier

Multidrug resistance (MDR)

Curcumin

Microglial activation decreases retention of the protease inhibitor saquinavir: implications for HIV treatment

Dallas, Shannon, Block, Michelle, Thompson, Deborah, Bonini, Marcelo, Ronaldson, Patrick, Bendayan, Reina, Miller, David

January 2013

BACKGROUND:Active HIV infection within the central nervous system (CNS) is confined primarily to microglia. The glial cell compartment acts as a viral reservoir behind the blood-brain barrier. It provides an additional roadblock to effective pharmacological treatment via expression of multiple drug efflux transporters, including P-glycoprotein. HIV/AIDS patients frequently suffer bacterial and viral co-infections, leading to deregulation of glial cell function and release of pro-inflammatory mediators including cytokines, chemokines, and nitric oxide.METHODS:To better define the role of inflammation in decreased HIV drug accumulation into CNS targets, accumulation of the antiretroviral saquinavir was examined in purified cultures of rodent microglia exposed to the prototypical inflammatory mediator lipopolysaccharide (LPS).RESULTS:3H]-Saquinavir accumulation by microglia was rapid, and was increased up to two-fold in the presence of the specific P-glycoprotein inhibitor, PSC833. After six or 24 hours of exposure to 10 ng/ml LPS, saquinavir accumulation was decreased by up to 45%. LPS did not directly inhibit saquinavir transport, and did not affect P-glycoprotein protein expression. LPS exposure did not alter RNA and/or protein expression of other transporters including multidrug resistance-associated protein 1 and several solute carrier uptake transporters.CONCLUSIONS:The decrease in saquinavir accumulation in microglia following treatment with LPS is likely multi-factorial, since drug accumulation was attenuated by inhibitors of NF-kappabeta and the MEK1/2 pathway in the microglia cell line HAPI, and in primary microglia cultures from toll-like receptor 4 deficient mice. These data provide new pharmacological insights into why microglia act as a difficult-to-treat viral sanctuary site.

Drug transporters

HIV

Inflammation

MEK1/2

Microglia

Multidrug resistance proteins

NF-kappa β

P-glycoprotein

Saquinavir

Solute carrier uptake transporters

Toll-like receptor

Determination of permeability and active transport of selected butyrylcholinesterase inhibitors in vitro / Determination of permeability and active transport of selected butyrylcholinesterase inhibitors in vitro

Machan, Radek

January 2016

Charles University in Prague Faculty of Pharmacy in Hradec Králové Department of Pharmacology & Toxicology Student: Radek Machan Supervisor: PharmDr. Lukáš Červený, Ph.D. Title of diploma thesis: Determination of permeability and active transport of selected butyrylcholinesterase inhibitors in vitro European Medicine Agency (EMA) and Food and Drug Administration agency (FDA) emphasise drug membrane permeability and drug-drug interactions on ABC transporters expressed in physiological barriers should be investigated for compounds in preclinical studies or for those already clinically used but evidence free. In this work we aimed to assess the capability of several experimental butyrylcholinesterase inhibitors that had been designed to treat dementia to permeate blood-brain barrier and to elucidate role of ATP-binding (ABC) cassette transporters in this transport. For this purpose, we employed in vitro bidirectional transport study across monolayers formed by polarized and highly differentiated Caco-2 cells. The permeability values gained from measurements were similar to values of several commonly used drugs for treatment of CNS disorders (e.g. antidepressants, antiepileptics). In addition, the compounds showed values of efflux ratio (basolateral- to-apical/apical-to-basolateral) approximately one...

Expressão da P-gp, MPR1 e LRP em células-tronco mesenquimais humanas derivadas do líquido amniótico e medula óssea / P-gp, MRP1 and LRP expression in human amniotic fluid and bone marrow derived mesenchymal stem cells

Romão, Carolina Martinez

28 June 2012

INTRODUÇÃO: O fenótipo de resistência a drogas é caracterizado pela superexpressão das proteínas da família ABC (ATP-Binding Cassette). A Pglicoproteína (P-gp), codificada pelo gene ABCB1, é uma das bombas de efluxo mais estudadas, como agente interferente no tratamento de diversos tipos de câncer, seguida pela proteína MRP1 (Multidrug Resistance-related Protein 1), transcrita pelo gene ABCC1. Estudos recentes relacionaram a atuação da proteína LRP (Lung Resistance Protein) a estas bombas, devido sua alta expressão em tumores com fenótipo resistente. Em contrapartida, estes transportadores também exercem funções fisiológicas contra metabólitos, compostos citotóxicos e teratogênicos, em diversos tecidos normais como rins, fígado, intestino e célulastronco. As proteínas ABC são consideradas marcadores específicos das célulastronco hematopoiéticas, porém, ainda são pouco descritas nas células-tronco mesenquimais (CTM). A medula óssea (MO) é a fonte mais bem descrita de CTM adultas, cujas propriedades são conhecidas e utilizadas na aplicação clínica. Entretanto, recentemente células-tronco de origem fetal têm criado expectativas e o líquido amniótico (LA) apontado como fonte promissora deste tipo celular, que por sua vez, é pouco estudada acerca da atuação das bombas ABC. Sendo assim, o presente estudo visou caracterizar a expressão da P-gp, MRP1 e LRP em célulastronco mesenquimais humanas do líquido amniótico e medula óssea. MÉTODOS: Foram isoladas CTM de amostras do LA e MO, caracterizadas através de citometria de fluxo, ensaios de diferenciação em tecidos mesenquimais in vitro e expressão dos genes de indiferenciação Oct-4 e Nanog por RT-PCR. Verificou-se também a presença da P-gp através da técnica de imunocitoquímica e a sua resistência frente a diferentes concentrações de doxorrubicina (DOX) através do ensaio de MTT, foram utilizadas como controles as células MES-SA e MES-DX (sarcoma uterino respectivamente sensível e sua variante resistente à DOX). Para avaliar o funcionamento da P-gp, foi feito ensaio de exclusão do corante Rhodamina 123 (Rh 123) por meio de citometria de fluxo, com ou sem bloqueio da P-gp utilizando verapamil. E por fim, foi verificada a expressão dos genes ABCB1/ABCC1/LRP por meio de PCR em tempo real, nas amostras pré e pós-diferenciações adipogênica, osteogênica e condrogênica. RESULTADOS: As CTM, tanto da MO quanto do LA, exibiram respostas semelhantes às células resistentes MES-DX e expressam a Pgp de forma homogênea nas suas populações. O ensaio de exclusão da Rh 123 demonstrou dinâmicas de efluxo do corante semelhantes entre as células-tronco do LA e as MES-DX, com e sem a presença de verapamil. No entanto, as células da MO apresentaram efluxo crescente e não responderam ao bloqueador verapamil como as outras linhagens. A distribuição da expressão gênica, o ABCB1 se mostrou menor que a do LRP nas amostras de LA indiferenciadas. No entanto a expressão do ABCB1 nas amostras de LA foi maior em comparação às amostras de MO indiferenciadas. Não houve seignificância estatística na comparação da expressão gênica antes e depois das diferenciações adipogênica e osteogênica. CONCLUSÃO: As CTM são resistentes ao quimioterápico doxorrubicina, mas, possuem baixa expressão do ABCB1. Portanto, as CTM podem possuir outro mecanismo, como a MRP1 e LRP, atuando no mecanismo de resistência à DOX, além da P-gp / BACKGROUND: The drug resistance phenotype is characterized by ABC (ATPBinding Cassette) family proteins overexpression. The P-glycoprotein (P-gp) codified by ABCB1 gene is one of the most studied efflux pumps such as interfering agent in cancer treatment followed by MRP1 (Multidrug Resistance-related protein 1) transcribed by ABCC1 gene. Recent studies have linked the LRP (Lung Resistance Protein) to these pumps activities because of its high expression in resistant cancers. Though these transporters also have physiological functions against metabolites, cytotoxic and teratogenic compounds in normal tissues as kidneys, liver, intestine and stem cells. ABC proteins are considered hematopoietic stem cells specific markers but are poorly described in mesenchymal stem cells (MSC). Bone marrow (BM) is the best characterized adult MSC source its properties are well known and used in clinical application. However recently fetal stem cells has raised expectations and amniotic fluid (AF) is a promising source of this cell type which in turn is scarce regarding about presence and activity of the ABC pumps. The aim of this study was characterize the P-gp, MRP1 and LRP expression in human mesenchymal stem cells from amniotic fluid and bone marrow. METHODS: Mesenchymal stem cells were isolated from AF and BM and characterized by flow cytometry, in vitro mesenchymal differentiation assays, Oct-4 and Nanog genes expression by RT-PCR. The P-gp presence were found over immunocytochemical technique and its activity against different concentrations of doxorubicin (DOX) by MTT assay which were used as control cells MES-DX and MES-SA (uterine sarcoma respectively resistant and susceptible to DOX). The P-gp was evaluated in Rhodamine 123 (Rh 123) dye exclusion through flow cytometry with or without blocking P-gp from verapamil. Finally was observed ABCB1/ABCC1/LRP genes expression by real time PCR after and before adipogenic, osteogenic and chondrogenic differentiation. RESULTS: BM and AF MSC showed the same response of the DOX resistant cells MES-DX and express P-gp homogeneously though their populations. The Rh 123 dye exclusion assay demonstrated that the AF stem cells efflux dynamics are similar to the MES-DX with and without the presence of verapamil. However BM MSC showed crescent efflux and no response to verapamil as the other cells. The ABCB1 gene was less expressed than LRP in undifferentiated AF MSC. No difference was found in gene expression before osteogenic and adipogenic differentiation. CONCLUSION: MSC have low expression of ABCB1 although are resistant to doxorubicin so other mechanisms such as MRP1 or LRP may be acting to these cells defense in addition to P-gp

Amniotic fluid

Bone marrow

Células-tronco mesenquimais

Drug resistance

Líquido amniótico

Medula óssea

Mesenchymal stem cells

P-glicoproteína

P-glycoprotein

Resistência a medicamentos

Avaliação da permeabilidade intestinal da furosemida e da furosemida complexada com hidroxipropil-β-ciclodextrina por meio do modelo de perfusão in situ de passagem tripla em ratos / Assessment of intestinal permeability of furosemide and furosemide complexed with hydroxypropyl-β-cyclodextrin by means of triple in situ perfusion model in rats.

Rossato, Juliana Pereira Maura

18 February 2016

A furosemida é um fármaco de ação diurética e amplamente utilizado em tratamentos de doenças renais, cardíacas e pulmonares. Sua absorção é problemática e de alta variabilidade inter e intraindividual. Este fármaco tem sido classificado como pertencente às classes II (baixa solubilidade e alta permeabilidade) ou IV (baixa permeabilidade e baixa solubilidade) do Sistema de Classificação de Biofarmacêutica (SCB). Em estudos anteriores da equipe de pesquisa, SPRICIGO e colaboradores (2008) e SILVA (2014) desenvolveram complexos de furosemida com hidroxipropil-&#946;-ciclodextrina que permitiram a otimização da solubilidade deste fármaco. Entretanto, dados sobre a sua permeabilidade intestinal, quando complexado, não foram determinados. Somando-se a isto, a literatura apresenta informações distintas em relação a este parâmetro, o que corrobora a importância de se avaliar a permeabilidade deste fármaco. Diversas técnicas têm sido empregadas para a avaliação da permeabilidade intestinal dos fármacos. No presente trabalho empregou-se o modelo de perfusão in situ de passagem tripla, cuja técnica possibilita avaliar a permeabilidade em três segmentos diferentes em um mesmo animal e ainda, apresenta características interessantes, pois trata-se de um método que proporciona, durante todo o experimento, condições mais próximas daquelas encontradas durante o processo in vivo de absorção de fármacos no intestino tais como: suprimento sanguíneo, inervação intacta, preservação das proteínas transportadoras de membranas e presença da camada de muco. O presente trabalho foi dividido nas seguintes etapas: (i) obtenção da furosemida complexada com hidroxipropil-&#946;-ciclodextrina, (ii) caracterização dos fármacos utilizando técnicas de análises térmicas, (iii) estudo de perfusão in situ de passagem tripla nos três segmentos intestinais (duodeno, jejuno e íleo) de ratos machos Wistar na ausência e na presença de inibidores da glicoproteína P e de enzimas metabolizadoras CYP3A4 com posterior análise estatística do impacto da ciclodextrina e inibidores na permeabilidade da furosemida e; (iv) análise histológica das microvilosidades intestinais após o ensaio de perfusão in situ nos três segmentos intestinais. Os valores encontrados em cada segmento para furosemida complexada foram: 8,58 ± 0,002 x 10-5 cm.s-1; 9,15 ± 0,003 x10-5 cm.s-1 e; 8,06 ± 0,002 x 10-5 cm.s-1, respectivamente para duodeno, jejuno e íleo enquanto que para furosemida pura encontraram-se os seguintes: 3,42 ± 0,08 x 10-5 cm.s-1 para duodeno; 3,87 ± 0,11 x 10-5 cm.s-1 para jejuno e 3,08 ± 0,001 x 10-5 cm.s-1 para íleo. Assim sendo, os valores obtidos para a permeabilidade da furosemida complexada foram significativamente superiores (p < 0,05) aos da furosemida pura, sugerindo que, a ciclodextrina pode ter influência no mecanismo de transporte da furosemida, que é via passiva paracelular. Quanto aos mecanismos envolvidos na permeabilidade da furosemida através dos enterócitos, pode-se sugerir que observou-se pouca influência dos inibidores da glicoproteína P (P-gp) e da enzima CYP3A4, sugerindo que não há uma participação importante destes mecanismos em sua absorção intestinal. / Furosemide, which is a diuretic drug, is widely used in heart, kidney and pulmonary disease treatments. The absorption is problematic with high variability inter and intra individuals. This drug has been classified as belonging to class II (low solubility and high permeability) or IV (low permeability and low solubility) of the Biopharmaceutical Classification System (BCS). In previous studies of the research team, Spricigo and colleagues (2008) and Silva (2014) developed complex of furosemide with hydroxypropyl-&#946;-cyclodextrin which allowed the optimization of the solubility of this drug. However, datas concerning it\'s intestinal permeability, when complexed, have not been determined. Addicted to this, the literature shows many information regarding to this parameter, which confirms the importance of the evaluation of the permeability of this drug. Some techniques have been employed in order to evaluate the intestinal permeability of drugs. In the present work, a triple single-pass intestinal perfusion technique was used for three different segments. This technique enables the evaluation of the permeability of different segments in the same animal and also has interesting features such as: it provides during all the experiment conditions closer to those found in in vivo process of a drug absorption in the gut; blood supply; intact innervations; preservation of membrane transporter proteins and presence of mucus layer. This study was divided into the following steps: (i) obtaining furosemide complexed with hydroxypropyl-&#946;-cyclodextrin, (ii) characterization of drugs using techniques of thermal analysis, (iii) perfusion study in situ triple passage in three segments (duodenum, jejunum and ileum) from male Wistar rats in the absence and presence of inhibitors of P-glycoprotein and metabolizing enzymes CYP3A4 and subsequential statistical analysis of the impact of the cyclodextrin and the inhibitors in the permeability of furosemide and (iv) histological analysis of intestinal microvilli after in situ perfusion assay in three segments. The values found in each segment for complexed furosemide were: 8,58 ± 0,002 x 10-5 cm.s-1; 9,15 ± 0,003 x 10-5 cm.s-1; 8,06 ± 0,002 x 10-5 cm.s-1, respectively for duodenum, jejunum and ileum while for pure furosemide, the values were: 3,42 ± 0,08 x 10-5 cm.s-1 to duodenum; 3,87 ± 0,11 x 10-5 cm.s-1 to jejunum and 3,08 ± 0,001 x 10-5 cm.s-1 to ileum. Thus, the values obtained for the permeability of the complexed furosemide were significantly higher (p < 0,05) than those found for pure furosemide, suggesting that the cyclodextrin might have an influence on the transport mechanism of furosemide, which is passive paracellular route. About the mechanisms involved in the permeability of furosemide through the enterocytes, it can be suggested that there was little effect of P-glycoprotein (P-gp) inhibitors and CYP3A4 enzyme, suggesting that there is an important role of these mechanisms in the furosemide intestinal absorption.

In situ perfusion

BCS

CYP3A4

CYP3A4

Drugs diuretics

Fármacos diuréticos

Furosemida

Furosemide

Glicoproteína P

Hidroxipropil- &#946;-ciclodextrina

Hydroxypropyl-&#946;-cyclodextrin

P-glycoprotein

Perfusão in situ

SCB

Interindividual Variability of Drug Transport Proteins : Focus on Intestinal Pgp (ABCB1) and BCRP (ABCG2)

Englund, Gunilla

January 2005

<p>The appearance of adverse drug reactions is a common reason for hospitalization in Western countries. Research on underlying biological mechanisms for interindividual variability in drug response aims to better identify patients with exceptional genetic traits, disease conditions or risk of drug-drug interactions and thereby help to prevent adverse drug reactions. </p><p>Active transport mechanisms are involved in the absorption and disposition of several therapeutic agents. The main objective of this thesis was to investigate factors potentially affecting transport proteins and thus contributing to variability in drug absorption and disposition. Studies of physiological, genetic, environmental, and pathological factors were included. The main focus was the two ATP-binding cassette (ABC) transporters: P-glycoprotein 170 (Pgp) and Breast Cancer Resistance Protein (BCRP). </p><p>Quantification of transport protein mRNAs along the human intestine indicated that eight of the nine investigated drug transporters were expressed in a region-dependent manner. Effects of drug-drug interactions may therefore vary depending on the site of absorption. The genetic aspect was illustrated by identification of sequence variation in the gene encoding BCRP, the most highly expressed ABC transporter along the human intestine. Drug-drug interactions are important environmental causes of interindividual variability. An evaluation of the effects of Pgp-mediated drug-drug interactions showed that patients receiving Pgp inhibitors had elevated serum concentrations of the Pgp substrate digoxin and that digoxin concentrations were positively correlated with the number of co-administered Pgp inhibitors. The final topic in this thesis was that of drug-disease interactions. BCRP and Pgp were down-regulated during active inflammation in patients with ulcerative colitis. This may contribute to altered concentrations of drug in the intestinal mucosa during periods of inflammation and possibly to changes in drug absorption.</p><p>To summarize, results of this thesis emphasize the complex background to the interindividual variability of drug transport proteins, where physiological, genetic, environmental and pathological factors all can contribute.</p>

Pharmaceutics

membrane transport proteins

ATP-Binding Cassette Transporters

P-glycoprotein

Breast Cancer Resistance Protein

Interindividual variability

Galenisk farmaci

Pharmaceutics

Galenisk farmaci

Drug Transport and Metabolism in Rat and Human Intestine

Berggren, Sofia

January 2006

<p>One of the aims of this thesis was to investigate the involvement of efflux proteins, such as the P-glycoprotein (Pgp), in the drug transport in different regions of the rat and the human intestine. The intestinal extrusion of intracellularly formed CYP3A4 metabolites, including whether this extrusion might be mediated by Pgp, was also studied. The model drugs used were local anaesthetics (LA), which have been evaluated for inflammatory bowel disease, such as ropivacaine, lidocaine and bupivacaine. The intestinal permeability to LAs was found to be high throughout all intestinal regions of the rat and human intestine. Results from the Ussing chamber model indicated only minor efflux involvement as the drug permeability was higher in the serosa to mucosa transport direction than in the opposite direction. However, the involvement of efflux in the absorption of LAs could not be verified using in situ single-pass perfusion of rat jejunum. The extrusion of the ropivacaine metabolite, 2´,6´-pipecoloxylidide (PPX), was polarized to the mucosal reservoir of the Ussing chamber for both rat and human intestinal samples, and was probably not caused by any Pgp involvement. The expression levels of CYP3A4 and efflux transporters were consistent with the enzymes’ activity in human intestine. PPX formation was mediated by CYP3A4 in human intestine, and cyp2c and cyp2d in rat intestine. Species differences were observed, as PPX was formed in rat colon, but not human colon. In conclusion, the permeability of ropivacaine, lidocaine and bupivacaine was not subjected to efflux transport of significance for their intestinal uptake. The transport of ropivacaine metabolites to the mucosal compartment was probably not mediated by Pgp. The Ussing chamber model showed consistent results with those from intestinal microsomes as far as intestinal metabolism is concerned, making it a suitable model for investigations of the interplay of efflux and metabolism. </p>

Biopharmacy

Ussing chamber

microsome

single-pass perfusion

human

rat

intestine

permeability

efflux

P-glycoprotein

metabolism

cytochrome P450

ropivacaine

lidocaine

bupivacaine

Biofarmaci

PPX

Interindividual Variability of Drug Transport Proteins : Focus on Intestinal Pgp (ABCB1) and BCRP (ABCG2)

Englund, Gunilla

January 2005

The appearance of adverse drug reactions is a common reason for hospitalization in Western countries. Research on underlying biological mechanisms for interindividual variability in drug response aims to better identify patients with exceptional genetic traits, disease conditions or risk of drug-drug interactions and thereby help to prevent adverse drug reactions. Active transport mechanisms are involved in the absorption and disposition of several therapeutic agents. The main objective of this thesis was to investigate factors potentially affecting transport proteins and thus contributing to variability in drug absorption and disposition. Studies of physiological, genetic, environmental, and pathological factors were included. The main focus was the two ATP-binding cassette (ABC) transporters: P-glycoprotein 170 (Pgp) and Breast Cancer Resistance Protein (BCRP). Quantification of transport protein mRNAs along the human intestine indicated that eight of the nine investigated drug transporters were expressed in a region-dependent manner. Effects of drug-drug interactions may therefore vary depending on the site of absorption. The genetic aspect was illustrated by identification of sequence variation in the gene encoding BCRP, the most highly expressed ABC transporter along the human intestine. Drug-drug interactions are important environmental causes of interindividual variability. An evaluation of the effects of Pgp-mediated drug-drug interactions showed that patients receiving Pgp inhibitors had elevated serum concentrations of the Pgp substrate digoxin and that digoxin concentrations were positively correlated with the number of co-administered Pgp inhibitors. The final topic in this thesis was that of drug-disease interactions. BCRP and Pgp were down-regulated during active inflammation in patients with ulcerative colitis. This may contribute to altered concentrations of drug in the intestinal mucosa during periods of inflammation and possibly to changes in drug absorption. To summarize, results of this thesis emphasize the complex background to the interindividual variability of drug transport proteins, where physiological, genetic, environmental and pathological factors all can contribute.

Pharmaceutics

membrane transport proteins

ATP-Binding Cassette Transporters

P-glycoprotein

Breast Cancer Resistance Protein

Interindividual variability

Galenisk farmaci

Pharmaceutics

Galenisk farmaci

Drug Transport and Metabolism in Rat and Human Intestine

Berggren, Sofia

January 2006

One of the aims of this thesis was to investigate the involvement of efflux proteins, such as the P-glycoprotein (Pgp), in the drug transport in different regions of the rat and the human intestine. The intestinal extrusion of intracellularly formed CYP3A4 metabolites, including whether this extrusion might be mediated by Pgp, was also studied. The model drugs used were local anaesthetics (LA), which have been evaluated for inflammatory bowel disease, such as ropivacaine, lidocaine and bupivacaine. The intestinal permeability to LAs was found to be high throughout all intestinal regions of the rat and human intestine. Results from the Ussing chamber model indicated only minor efflux involvement as the drug permeability was higher in the serosa to mucosa transport direction than in the opposite direction. However, the involvement of efflux in the absorption of LAs could not be verified using in situ single-pass perfusion of rat jejunum. The extrusion of the ropivacaine metabolite, 2´,6´-pipecoloxylidide (PPX), was polarized to the mucosal reservoir of the Ussing chamber for both rat and human intestinal samples, and was probably not caused by any Pgp involvement. The expression levels of CYP3A4 and efflux transporters were consistent with the enzymes’ activity in human intestine. PPX formation was mediated by CYP3A4 in human intestine, and cyp2c and cyp2d in rat intestine. Species differences were observed, as PPX was formed in rat colon, but not human colon. In conclusion, the permeability of ropivacaine, lidocaine and bupivacaine was not subjected to efflux transport of significance for their intestinal uptake. The transport of ropivacaine metabolites to the mucosal compartment was probably not mediated by Pgp. The Ussing chamber model showed consistent results with those from intestinal microsomes as far as intestinal metabolism is concerned, making it a suitable model for investigations of the interplay of efflux and metabolism.

Biopharmacy

Ussing chamber

microsome

single-pass perfusion

human

rat

intestine

permeability

efflux

P-glycoprotein

metabolism

cytochrome P450

ropivacaine

lidocaine

bupivacaine

Biofarmaci

PPX