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Recherche et études de marqueurs précoces permettant de déterminer l'état de fraicheur de filets de poissons / Research and early marker studies to determine the state of fish fillet freshnessCléach, Jérôme 17 December 2018 (has links)
La fraîcheur est un paramètre clé de la qualité du poisson. Les méthodes actuelles appliquées en routine pour déterminer la fraîcheur du poisson ne sont pas applicables à toutes les espèces et reflètent davantage un début d'altération du produit. Ainsi, la recherche d'indicateurs précoces de fraîcheur du poisson représente encore un défi majeur et d'actualité dans l'industrie de la pêche. Le but de ces travaux de thèse était de démontrer que les fonctions et l'intégrité mitochondriales étaient susceptibles de constituer des indicateurs précoces de la fraîcheur de filets de poisson. En effet, la mitochondrie est la "centrale" énergétique de la cellule eucaryote et joue un rôle clef dans les mécanismes de mort cellulaire tels que l'apoptose et la nécrose. Les fonctions et l'intégrité mitochondriales de cellules musculaires de filets de poisson ont été étudiées à différents temps de conservation post mortem à 4°C. Le modèle d'étude était la daurade royale (Sparus aurata) (lignée cellulaire de fibroblastes (SAF-1) et muscles de poisson). Dans un premier temps, la structure des mitochondries de poisson a été étudiée par microscopie électronique à transmission. De nombreuses dégradations de la structure des mitochondries ont été observées dans les filets à partir de 72 heures (J3) de conservation à 4°C. Ces altérations se sont accentuées à J4 et J6. La fonctionnalité des mitochondries a ensuite été évaluée selon deux approches : la respiration mitochondriale (oxygraphie) et le potentiel membranaire mitochondrial (ΔΨₘ) estimé avec la sonde fluorescente Rhodamine 123. A partir de 96 heures de conservation à 4°C (J4), ces deux paramètres ont été significativement impactés témoignant d'une altération des fonctions et de l'intégrité mitochondriales.Ces résultats sont ainsi en corrélation avec l'altération structurale observée par microscopie. En parallèle, une méthode d'évaluation du potentiel membranaire a été développée avec un fluorimètre à microvolume à partir d'un modèle bactérien puis de mitochondries isolées. Ces travaux de thèse ont démontré que l'étude des fonctionnalités mitochondriales constitue un marqueur fiable et précoce de la fraîcheur des filets de poisson. Des connaissances supplémentaires sur les mécanismes cellulaires post mortem ont également été apportées. Ces résultats constituent ainsi le point de départ pour le développement d'un kit d'évaluation de la fraîcheur et ouvrent la voie pour la recherche de marqueurs de fraîcheur et de congélation/décongélation basés sur les fonctionnalités et intégrité mitochondriales. / Freshness is a key parameter of fish quality. Current routine techniques to determine fish freshness are not applicable to all species and reflect a late stage of alteration. Thus, research on early indicators of fish freshness still represents a major and topical challenge in fishing industry. This PhD research project aimed to demonstrate that mitochondrial functions and integrity constitute early indicators of fish fillet freshness. Mitochondria are the powerhouse of the cell and play a central role in cell death mecanisms such as apoptosis and necrosis. Mitochondrial function and integrity in fish filet muscle cells were studied at different times of storage post mortem at 4°C. The species studied as a model was the gilthead seabream (Sparus aurata) (gilthead seabream fibroblast cell line (SAF-1) and fish fillets). Firstly, the structure of fish mitochondria was studied by transmission electron microscopy. Numerous mitochondrial structural alterations have been observed in fish fillet from 72 hours (D3) of storage at 4°C. These alterations were more pronounced at D4 and D6. Then, mitochondrial functionality was assessed with two approaches: mitochondrial respiration (oxygraphy) and mitochondrial membrane potential (ΔΨₘ) estimated with the fluorescent probe Rh123. From 96 hours of storage at 4°C (D4), these two parameters were significantly disrupted demonstrating the alteration of mitochondrial function and integrity. The results are in correlation with the mitochondrial structural alterations described by microscopy. In parallel, a method of mitochondrial membrane potential evaluation has been developed with a micro-volume fluorimeter, first using bacteria and then isolated mitochondria. This work demonstrated that the mitochondrial functionality study constitutes a reliable and early fish filet freshness indicator. Additional knowledge on cell mechanisms in post mortem condition has been brought. These results constitute the starting point for the development of a fish freshness assay kit and pave the way to research on others freshness and freeze-thawing indicators based on mitochondrial integrity and functionality.
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On the Role of Mitochondria in the Regulation of Calcium in Motor Nerve Terminals During Repetitive StimulationGarcia-Chacon, Luis Ernesto 20 April 2008 (has links)
During repetitive stimulation of motor nerve terminals, mitochondrial Ca2+ uptake limits increases in free cytosolic [Ca2+] and helps ensure faithful neuromuscular transmission. Changes in cytosolic [Ca2+] and in mitochondrial [Ca2+] as well as changes in mitochondrial membrane potential (Psi m) were studied in mouse motor nerve terminals using Ca2+ sensitive indicator and potentiometric dyes, respectively. Trains of action potentials (APs) at 50 to 100 Hz produced a rapid increase in mitochondrial [Ca2+] followed by a plateau which usually continued beyond the end of stimulation. After stimulation, mitochondrial [Ca2+] decayed back to baseline over the course of tens of seconds to minutes. Increasing the Ca2+ load delivered to the terminal by increasing the number of stimuli (500-2000), increasing bath [Ca2+], or prolonging the AP with 3,4-diaminopyridine (3-4, DAP, 100 micromolar), prolonged the post-stimulation decay of mitochondrial [Ca2+] without increasing the amplitude of the plateau. Inhibiting openings of the mitochondrial permeability transition pore with cyclosporin A (5 micromolar) had no significant effect on the decay of mitochondrial [Ca2+]. Inhibition of the mitochondrial Na+-Ca2+ exchanger with CGP-37157 (50 micromolar) dramatically prolonged the post-stimulation decay of mitochondrial [Ca2+], reduced post-stimulation residual cytosolic [Ca2+], and reduced the amplitude of end-plate potentials evoked after the end of stimulation. Stimulation-induced mitochondrial Ca2+ uptake resulted in Psi m depolarizations that were small or undetectable at near-physiological temperatures (~30 degrees C). Their amplitude became larger at lower temperatures (~20 degrees C), or when AP duration was increased with 3,4-DAP (20 micromolar). Psi m depolarizations were inhibited by lowering bath [Ca2+] or by blocking P/Q-type Ca2+ channels with omega-agatoxin (0.3 micromolar). Partial inhibition of complex I of the electron transport chain (ETC) with rotenone (50 nM) increased the amplitude of stimulation-induced Psi m depolarizations. These findings suggest that: (1) Ca2+ extrusion from motor terminal mitochondria occurs primarily via the Na+-Ca2+ exchanger and helps sustain post-tetanic transmitter release, and (2) that the depolarization of Psi m that accompanies Ca2+ uptake is limited by accelerated proton extrusion via the ETC.
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The effect of different modulators on the transport of rhodamine 123 across rat jejunum using the sweetana-grass diffusion method / C.J. LamprechtLamprecht, Christian Johannes January 2004 (has links)
P-glycoprotein (Pgp), which leads to multidrug resistance in tumour cells,
is an ATP-dependent secretory drug efflux pump. In the intestine, as well as at specific
other epithelial and endothelial sites, P-glycoprotein expression is localised to the apical
membrane, consistent with secretory detoxifying and absorption limitation functions.
The primary function of Pgp is to clear the membrane lipid bilayer of lipophilic drugs.
Results from in vitro studies with human Caco-2 cells provide direct evidence for Pgp
limiting drug absorption. Limitation has non-linear dependence of absorption on
substrate (eg. vinblastine) concentration, increased absorption upon saturation of
secretion and increased absorption upon inhibition of Pgp function, with modulators such
as verapamil. The aim of this study was to investigate the effect of a known Pgp
inhibitor (verapamil) and grapefruit juice components (naringenin, quercetin and
bergamottin) on the transport of Rhodamine 123 across rat jejunum and to compare
these results with those obtained in similar studies done in Caco-2 cells and in rat
intestine (monodirectional). Verapamil, naringenin (442 µM, 662 µM and 884
µM), quercetin (73 µM, 183 µM and 292 µM) and bergamottin (12 µM, 30 µM and 48 µM)
were evaluated as modulators of rhodamine 123 transport across rat jejunum using
Sweetana-Grass diffusion cells. This study was done bidirectionally, with three cells
measuring transport in the apical to basolateral direction (AP / BL) and three cells
measuring transport in the basolateral to apical direction (BL / AP). The rate of transport
was expressed as the apparent permeability coefficient (Papp) and the extent of active
transport was expressed by calculating the ratio of BL/AP to AP/BL.
The BL-AP/AP-BL ratio calculated for Rhodamine 123 with no modulators added was 2.31. The
known modulator verapamil decreased the BL-AP/AP-BL ratio to 1.52. This was
statistically significant and inhibition of active transport was clearly demonstrated. All
modulators inhibited active transport. Only naringenin 884 µM, quercetin 183 µM and
bergamottin 30 µM did not show a statistically significant decrease in the BL-AP/AP-BL
ratio. All three components of grapefruit juice showed inhibition of active
transport and should have an effect on the bioavailability of the substrates of Pgp and
other active transporters. The results obtained in this study are similar to the results
found in Caco-2 cells, which suggests that Sweetana-Grass diffusion method can be
used for diffusion studies. / Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2005.
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The effect of selected methoxy flavonoids on the in vitro efflux transport of rhodamine 123 using rat jejunum / Stanley Anthony DoddDodd, Stanley Anthony January 2005 (has links)
Many orally administered drugs must overcome several barriers before
reaching their target site. The first major obstacle to cross is the intestinal epithelium.
Although lipophilic compounds may readily diffuse across the apical plasma membrane,
their subsequent passage across the basolateral membrane and into blood is by no
means guaranteed. Efflux proteins located at the apical membrane, which include P-glycoprotein
(P-gp, MDR1) and Multidrug Resistance-associated Protein (MRP2), may
drive compounds from inside the cell back into the intestinal lumen, preventing their
absorption into the blood. Intestinal P-gp is localised to the villus tip enterocytes, i.e. the
main site of absorption for orally administered compounds and in close proximity to the
lumen. P-gp is therefore ideally positioned to limit the absorption of compounds by
driving efflux back into the lumen. Drugs may also be modified by intracellular phase I
and phase II metabolizing enzymes. This process may not only render the drug
ineffective, but it may also produce metabolites that are themselves substrates for P-gp
and/or MRP2. Drugs that reach the blood are then passed to the liver, where they are
subjected to further metabolism and biliary excretion, often by a similar system of ATP binding
cassette (ABC) transporters and enzymes to that present in the intestine. Thus
a synergistic relationship exists between intestinal drug metabolizing enzymes and
apical efflux transporters, a partnership that proves to be a critical determinant of oral
bioavailability. Aim: The aim of this study was to investigate the effect of selected
methoxy flavonoids (3-methoxyflavone, 5-methoxyflavone, 6-methoxyflavone and 7-
methoxyflavone) on the mean ratio of Rhodamine123 (Rho 123) transport across rat
intestine (jejunum) and to investigate structure activity relationships (SAR) of the
selected flavonoids with reference to inhibition of P-gp. Methods: 3-Methoxyflavone, 5-
methoxyflavone, 6-methoxyflavone and 7-methoxyflavone were evaluated at a
concentration of 10μM and 20μM as modulators of Rho 123 transport across rat
jejunum. The Sweetana-Grass diffusion cells were used to determine the transport of
Rho 123. Each modulator was studied bidirectionally with two cells measuring transport
in the apical to basolateral direction (AP/BL) and two cells measuring transport in the
basolateral to apical direction (BUAP). The rate of transport was expressed as the
apparent permeability coefficient (Papp)and the extent of active transport was expressed
by calculating the ratio of BUAP to AP/BL. Each modulators Papp ratio was then
compared with that of the control. Results: 3-Methoxyflavone decreased the Papp
ratio from 3.34 (control) to 1.66 (10μM) and 1.33 (20μM) and showed statistical
significant differences. 7-Methoxyflavone decreased the Papp ratio to 1.94 (10μM) and
1.55 (20μM) but only showed a statistical significant difference at 10μM. 5-
Methoxyflavone decreased the Papp ratio to 2.41 (10μM) and 1.71 (20μM) and 6-
methoxyflavone decreased the Papp to 3.03 (10μM) and 2.49 (20μM). Both 5- and 6-
methoxyflavone showed no statistical significant differences from the control. The
structure activity relationships with reference to P-gp inhibition clearly indicated that the
C3 and C7 positioning of the methoxy-group on the A ring played a major role in the
inhibition of Rho 123 transport. Conclusion: All the selected modulators showed
inhibition of Rho 123 transport across the jejunum. This should affect the bioavailability
of the substrates of P-gp and other active transporters. In summary, this study describe
the inhibitory interaction of selected flavonoids with P-gp. Structure activity relationships
were identified describing the inhibitory potency of the flavonoids based on methoxy
groups positioning. The inhibitory potency results were 3-methoxyflavone > 7-
methoxyflavone > 5-methoxyflavone> 6-methoxyflavone / Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2005.
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The effect of selected hydroxy flavonoids on the in vitro efflux transport of rhodamine 123 using rat jejunum / S. van HuyssteenVan Huyssteen, Stephanie January 2005 (has links)
Background: Multidrug resistance (MDR) is resistance of cancer cells to multiple
classes of chemotherapeutic drugs that can be structurally unrelated. MDR involves
altered membrane transport that results in a lower cell concentration of cytotoxic drugs
which plays an important role during cancer treatment. P-glycoprotein (Pgp) is localised
at the apical surface of epithelial cell in the intestine and it functions as a biological
barrier by extruding toxic substances and xenobiotics out of cells (Lin, 2003:54). The
ATP-binding-cassette superfamily is a rapidly growing group of membrane transport
proteins and are involved in diverse physiological processes which include antigen
presentation, drug efflux from cancer cells, bacterial nutrient uptake and cystic fibrosis
(Germann, 1996:928; Kerr, 2002:47). A number of drugs have been identified which are
able to reverse the effects of Pgp, multidrug resistance protein (MRPI) and their
associated proteins on multidrug resistance. The first MDR modulators discovered and
studied during clinical trials were associated with definite pharmacological actions, but
the doses required to overcome MDR were associated with the occurrence of
unacceptable side effects. As a consequence, more attention has been given to the
development of modulators with proper potency, selectivity and pharmacokinetic
characteristics that it can be used at a lower dose. Several novel MDR reversing agents
(also known as chemosensitisers) are currently undergoing clinical evaluation for the
treatment of resistant tumours (Teodori et al., 2002:385). Aim: The aim of this study was
to investigate the effect of selected flavonoids (morin, galangin, kaempferol and
quercetin) at two different concentrations (10 μM and 20 μM) on the transport of a known
Pgp substrate, Rhodamine 123 (Rho 123) across rat intestine (jejunum) and to
investigate structure activity relationships (SAR) of the selected flavonoids with
reference to the inhibition of Pgp. Methods: Morin, galangin, kaempferol and quercetin
were evaluated as potential modulators of Rho 123 transport, each at a concentration of
10 μM and 20 μM across rat jejunum using Sweetana-Grass diffusion cells. This study
was done bidirectionally, with two cells measuring transport in the apical to basolateral
direction (AP-BL) and two cells measuring transport in the basolateral to apical direction
(BL-AP). The rate of transport was expressed as the apparent permeability coefficient
(Pap,) and the extent of active transport was expressed by calculating the ratio of BL-AP
to AP-BL. Results: The BL-AP to AP-BL ratio calculated for Rho 123 with no
modulators added was 3.29. Morin decreased the BL-AP to AP-BL ratio to 1.88 at a
concentration of 10 μM and to 1.49 at a concentration of 20 μM. Galangin decreased
the BL-AP to AP-BL ratio to 1.60 at a concentration of 20 μM. These two flavonoids
showed statistically significant results and inhibition of active transport were clearly
demonstrated. However, the other flavonoids inhibited active transport of Rho 123 but
according to statistical analysis, the results were not significantly different. The two
different concentrations (10 μM and 20 μM) indicated that galangin, kaempferol and
quercetin showed practically significant differences according to the effect sizes. Morin,
however, did not show any practically significant differences at the different
concentrations. Regarding .the SAR, it was shown by Boumendjel and co-workers
(2002:512) that the presence of a 5-hydroxyl group and a 3-hydroxyl group as well as
the C2-C3 double bond are required for high potency binding to the nucleotide binding
domain (NBD) of Pgp. All the flavonoids tested had the above-mentioned
characteristics. Conclusion: All the selected flavonoids showed inhibition of active
transport of Rho 123 and should have an effect on the bioavailability of the substrates of
Pgp and other active transporters. This study described the inhibitory interaction of
selected flavonoids on Pgp activity. Practical significant differences between the same
modulator at different concentrations were also observed. Structure activity
relationships were identified describing the inhibitory potency of the flavonoids based on
hydroxyl group positioning / Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2005.
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Multidrug transporters : a study of drug interactions using a photoactive analogue of rhodamine 123Alqawi, Omar January 2003 (has links)
The emergence of multidrug resistance is a serious medical problem that has significantly affected the treatment of tumor cells and infectious diseases. This multidrug resistance phenotype is mediated by the action of a large family of membrane proteins that act as active transporters or energy driven efflux pumps in both of prokaryotic and eukaryotic cells. Most eukaryotic multidrug efflux pumps belong to the ATP binding cassette (ABC) family of transport proteins that include P-glycoprotein (P-gp1), Multidrug Resistance Associated Protein (MRP1), and Breast Cancer Resistance Protein (BCRP). In prokaryotic cells, Lactococcus lactis LmrA, a homolog of P-gp1, mediates drug resistance to antibiotics and cytotoxic drugs. The transport function of these proteins is facilitated by the hydrolysis of ATP. However, the mechanism by which these proteins bind to, and are able to transport structurally dissimilar drugs across the cell membrane remains poorly understood. In this thesis we have attempted to characterize the interactions of various ABC transporters (MRP1, BCRP, and LmrA) with structurally diverse drugs, using a well characterized photoreactive drug analogue of Rhodamine 123, [125I] iodoaryl azido-rhodamine 123 (IAARh123). In the case of MRP1 interaction with Rhodamine 123, it was of interest to determine the nature of MRP1 drug interactions. In that study, our results show that CHAPS (1-[(3-cholamidopropyl) dimethylamino]-1-propansulfate) and Brij35 inhibited the photolabeling of MRP1 with IAARh123, and this interaction occurred outside the lipid bilayer. These results were unexpected in light of previous results with another ABC transporter which also binds to Rhodamine 123. Consequently, we show that non-toxic concentrations of CHAPS and Brij35 potentiate the toxicity of two MRP1 substrates, vincristine and etoposide (VP16). In the second chapter, we have used IAARh123 to demonstrate for the first time that the BCRP mediates drug resi
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The effect of different modulators on the transport of rhodamine 123 across rat jejunum using the sweetana-grass diffusion method / C.J. LamprechtLamprecht, Christian Johannes January 2004 (has links)
P-glycoprotein (Pgp), which leads to multidrug resistance in tumour cells,
is an ATP-dependent secretory drug efflux pump. In the intestine, as well as at specific
other epithelial and endothelial sites, P-glycoprotein expression is localised to the apical
membrane, consistent with secretory detoxifying and absorption limitation functions.
The primary function of Pgp is to clear the membrane lipid bilayer of lipophilic drugs.
Results from in vitro studies with human Caco-2 cells provide direct evidence for Pgp
limiting drug absorption. Limitation has non-linear dependence of absorption on
substrate (eg. vinblastine) concentration, increased absorption upon saturation of
secretion and increased absorption upon inhibition of Pgp function, with modulators such
as verapamil. The aim of this study was to investigate the effect of a known Pgp
inhibitor (verapamil) and grapefruit juice components (naringenin, quercetin and
bergamottin) on the transport of Rhodamine 123 across rat jejunum and to compare
these results with those obtained in similar studies done in Caco-2 cells and in rat
intestine (monodirectional). Verapamil, naringenin (442 µM, 662 µM and 884
µM), quercetin (73 µM, 183 µM and 292 µM) and bergamottin (12 µM, 30 µM and 48 µM)
were evaluated as modulators of rhodamine 123 transport across rat jejunum using
Sweetana-Grass diffusion cells. This study was done bidirectionally, with three cells
measuring transport in the apical to basolateral direction (AP / BL) and three cells
measuring transport in the basolateral to apical direction (BL / AP). The rate of transport
was expressed as the apparent permeability coefficient (Papp) and the extent of active
transport was expressed by calculating the ratio of BL/AP to AP/BL.
The BL-AP/AP-BL ratio calculated for Rhodamine 123 with no modulators added was 2.31. The
known modulator verapamil decreased the BL-AP/AP-BL ratio to 1.52. This was
statistically significant and inhibition of active transport was clearly demonstrated. All
modulators inhibited active transport. Only naringenin 884 µM, quercetin 183 µM and
bergamottin 30 µM did not show a statistically significant decrease in the BL-AP/AP-BL
ratio. All three components of grapefruit juice showed inhibition of active
transport and should have an effect on the bioavailability of the substrates of Pgp and
other active transporters. The results obtained in this study are similar to the results
found in Caco-2 cells, which suggests that Sweetana-Grass diffusion method can be
used for diffusion studies. / Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2005.
|
8 |
The effect of selected methoxy flavonoids on the in vitro efflux transport of rhodamine 123 using rat jejunum / Stanley Anthony DoddDodd, Stanley Anthony January 2005 (has links)
Many orally administered drugs must overcome several barriers before
reaching their target site. The first major obstacle to cross is the intestinal epithelium.
Although lipophilic compounds may readily diffuse across the apical plasma membrane,
their subsequent passage across the basolateral membrane and into blood is by no
means guaranteed. Efflux proteins located at the apical membrane, which include P-glycoprotein
(P-gp, MDR1) and Multidrug Resistance-associated Protein (MRP2), may
drive compounds from inside the cell back into the intestinal lumen, preventing their
absorption into the blood. Intestinal P-gp is localised to the villus tip enterocytes, i.e. the
main site of absorption for orally administered compounds and in close proximity to the
lumen. P-gp is therefore ideally positioned to limit the absorption of compounds by
driving efflux back into the lumen. Drugs may also be modified by intracellular phase I
and phase II metabolizing enzymes. This process may not only render the drug
ineffective, but it may also produce metabolites that are themselves substrates for P-gp
and/or MRP2. Drugs that reach the blood are then passed to the liver, where they are
subjected to further metabolism and biliary excretion, often by a similar system of ATP binding
cassette (ABC) transporters and enzymes to that present in the intestine. Thus
a synergistic relationship exists between intestinal drug metabolizing enzymes and
apical efflux transporters, a partnership that proves to be a critical determinant of oral
bioavailability. Aim: The aim of this study was to investigate the effect of selected
methoxy flavonoids (3-methoxyflavone, 5-methoxyflavone, 6-methoxyflavone and 7-
methoxyflavone) on the mean ratio of Rhodamine123 (Rho 123) transport across rat
intestine (jejunum) and to investigate structure activity relationships (SAR) of the
selected flavonoids with reference to inhibition of P-gp. Methods: 3-Methoxyflavone, 5-
methoxyflavone, 6-methoxyflavone and 7-methoxyflavone were evaluated at a
concentration of 10μM and 20μM as modulators of Rho 123 transport across rat
jejunum. The Sweetana-Grass diffusion cells were used to determine the transport of
Rho 123. Each modulator was studied bidirectionally with two cells measuring transport
in the apical to basolateral direction (AP/BL) and two cells measuring transport in the
basolateral to apical direction (BUAP). The rate of transport was expressed as the
apparent permeability coefficient (Papp)and the extent of active transport was expressed
by calculating the ratio of BUAP to AP/BL. Each modulators Papp ratio was then
compared with that of the control. Results: 3-Methoxyflavone decreased the Papp
ratio from 3.34 (control) to 1.66 (10μM) and 1.33 (20μM) and showed statistical
significant differences. 7-Methoxyflavone decreased the Papp ratio to 1.94 (10μM) and
1.55 (20μM) but only showed a statistical significant difference at 10μM. 5-
Methoxyflavone decreased the Papp ratio to 2.41 (10μM) and 1.71 (20μM) and 6-
methoxyflavone decreased the Papp to 3.03 (10μM) and 2.49 (20μM). Both 5- and 6-
methoxyflavone showed no statistical significant differences from the control. The
structure activity relationships with reference to P-gp inhibition clearly indicated that the
C3 and C7 positioning of the methoxy-group on the A ring played a major role in the
inhibition of Rho 123 transport. Conclusion: All the selected modulators showed
inhibition of Rho 123 transport across the jejunum. This should affect the bioavailability
of the substrates of P-gp and other active transporters. In summary, this study describe
the inhibitory interaction of selected flavonoids with P-gp. Structure activity relationships
were identified describing the inhibitory potency of the flavonoids based on methoxy
groups positioning. The inhibitory potency results were 3-methoxyflavone > 7-
methoxyflavone > 5-methoxyflavone> 6-methoxyflavone / Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2005.
|
9 |
The effect of selected hydroxy flavonoids on the in vitro efflux transport of rhodamine 123 using rat jejunum / S. van HuyssteenVan Huyssteen, Stephanie January 2005 (has links)
Background: Multidrug resistance (MDR) is resistance of cancer cells to multiple
classes of chemotherapeutic drugs that can be structurally unrelated. MDR involves
altered membrane transport that results in a lower cell concentration of cytotoxic drugs
which plays an important role during cancer treatment. P-glycoprotein (Pgp) is localised
at the apical surface of epithelial cell in the intestine and it functions as a biological
barrier by extruding toxic substances and xenobiotics out of cells (Lin, 2003:54). The
ATP-binding-cassette superfamily is a rapidly growing group of membrane transport
proteins and are involved in diverse physiological processes which include antigen
presentation, drug efflux from cancer cells, bacterial nutrient uptake and cystic fibrosis
(Germann, 1996:928; Kerr, 2002:47). A number of drugs have been identified which are
able to reverse the effects of Pgp, multidrug resistance protein (MRPI) and their
associated proteins on multidrug resistance. The first MDR modulators discovered and
studied during clinical trials were associated with definite pharmacological actions, but
the doses required to overcome MDR were associated with the occurrence of
unacceptable side effects. As a consequence, more attention has been given to the
development of modulators with proper potency, selectivity and pharmacokinetic
characteristics that it can be used at a lower dose. Several novel MDR reversing agents
(also known as chemosensitisers) are currently undergoing clinical evaluation for the
treatment of resistant tumours (Teodori et al., 2002:385). Aim: The aim of this study was
to investigate the effect of selected flavonoids (morin, galangin, kaempferol and
quercetin) at two different concentrations (10 μM and 20 μM) on the transport of a known
Pgp substrate, Rhodamine 123 (Rho 123) across rat intestine (jejunum) and to
investigate structure activity relationships (SAR) of the selected flavonoids with
reference to the inhibition of Pgp. Methods: Morin, galangin, kaempferol and quercetin
were evaluated as potential modulators of Rho 123 transport, each at a concentration of
10 μM and 20 μM across rat jejunum using Sweetana-Grass diffusion cells. This study
was done bidirectionally, with two cells measuring transport in the apical to basolateral
direction (AP-BL) and two cells measuring transport in the basolateral to apical direction
(BL-AP). The rate of transport was expressed as the apparent permeability coefficient
(Pap,) and the extent of active transport was expressed by calculating the ratio of BL-AP
to AP-BL. Results: The BL-AP to AP-BL ratio calculated for Rho 123 with no
modulators added was 3.29. Morin decreased the BL-AP to AP-BL ratio to 1.88 at a
concentration of 10 μM and to 1.49 at a concentration of 20 μM. Galangin decreased
the BL-AP to AP-BL ratio to 1.60 at a concentration of 20 μM. These two flavonoids
showed statistically significant results and inhibition of active transport were clearly
demonstrated. However, the other flavonoids inhibited active transport of Rho 123 but
according to statistical analysis, the results were not significantly different. The two
different concentrations (10 μM and 20 μM) indicated that galangin, kaempferol and
quercetin showed practically significant differences according to the effect sizes. Morin,
however, did not show any practically significant differences at the different
concentrations. Regarding .the SAR, it was shown by Boumendjel and co-workers
(2002:512) that the presence of a 5-hydroxyl group and a 3-hydroxyl group as well as
the C2-C3 double bond are required for high potency binding to the nucleotide binding
domain (NBD) of Pgp. All the flavonoids tested had the above-mentioned
characteristics. Conclusion: All the selected flavonoids showed inhibition of active
transport of Rho 123 and should have an effect on the bioavailability of the substrates of
Pgp and other active transporters. This study described the inhibitory interaction of
selected flavonoids on Pgp activity. Practical significant differences between the same
modulator at different concentrations were also observed. Structure activity
relationships were identified describing the inhibitory potency of the flavonoids based on
hydroxyl group positioning / Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2005.
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Multidrug transporters : a study of drug interactions using a photoactive analogue of rhodamine 123Alqawi, Omar January 2003 (has links)
No description available.
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