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The role of organic cation transporters in the nasal uptake and brain distribution of organic cation substratesGeorge, Maya 01 December 2013 (has links)
The objective of this study was to investigate the role of organic cation transporters (OCTs) in the uptake of hydrophilic drugs into the olfactory bulb and subsequently to the brain. Two OCT2 substrates, amantadine and cimetidine were used as model drugs for this purpose.
Bovine nasal explants (olfactory and respiratory tissue) were used as an in vitro model for preliminary screening to identify the role of transporters involved in the uptake of drug across these tissues. It was observed from both PCR and immunohistochemistry that OCTs, OCT2, OCTN1 and OCTN2 were present in the bovine respiratory and olfactory mucosa. Transport studies of amantadine in the presence and absence of OCT2 and OCTN2 inhibitors indicated that both these transporters play a role in the transport of amantadine across the bovine respiratory mucosa, whereas transport across the olfactory mucosa was predominantly via OCT2.
This was followed by in vivo studies in rats where the blood, striatum and olfactory bulb concentrations of amantadine were determined following intranasal and intra-arterial administration. Shortly after nasal administration, the olfactory bulb concentrations exceeded the concentrations in the striatum suggesting the olfactory pathway to be the major route of uptake. Co-administration of the drug with an OCT2 inhibitor intranasally showed statistically significant reductions in the brain uptake of amantadine. A synergistic inhibitory effect on amantadine uptake was observed with the combined inhibition OCT2 and OCTN2. Additionally, the CNS exposure of these drugs following intranasal administration in the presence and absence of the OCT inhibitors was evaluated using the ratio of the free drug concentrations in the brain compared to plasma. While the plasma concentration profiles were similar both in the presence and absence of inhibition, the free drug ratios were highest when no inhibitor was included. Additionally similiar in vivo studies were also carried out for a second model drug, cimetidine, where cimetidine uptake into the rat brain was found to be significantly reduced in the presence of the OCT2 inhibitor, pentamidine.
This demonstrates that there was a greater CNS exposure to each drug when OCT transporters were active, confirming their role in their direct CNS distribution from the nasal cavity to the brain. The results of this study suggest that OCT substrates might be good candidates for the delivery to the brain via the olfactory route.
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OCT1-mediated cellular drug uptake and interactions between drug transport and drug metabolism / OCT1-mediated cellular drug uptake and interactions between drug transport and drug metabolismSaadatmand, Ali Reza 25 October 2012 (has links)
No description available.
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The human organic cation transporter OCT1 mediates high affinity uptake of the anticancer drug daunorubicinAndreev, Emil 08 1900 (has links)
Les anthracyclines tels que la doxorubicin et la daunorubicin sont une famille de médicaments anticancéreux hydrophiles qui doivent être transportés dans les cellules afin d’exercer leur action par intercalation à l’ADN dans le noyau cellulaire. Ceci mène à la perturbation du métabolisme de l’ADN et entraine la mort cellulaire. Les anthracyclines sont utilisés pour le traitement d’une variété de cancers incluant la leucémie, les lymphomes, le cancer du sein, le cancer des poumons et le cancer des ovaires. Étant donné que le transport actif des anthracyclines dans les cellules a partiellement été démontré, le transporteur spécifique impliqué dans ce processus n’est pas encore connu. En utilisant un modèle de cancer des ovaires, la lignée cellulaire TOV2223G, nous avons démontré que des substrats spécifiques au transporteur de cations organiques 1 (OCT1), notamment la ergothionéine, la thiamine et la phenformin, ont partiellement inhibé l’absorption de la daunorubicin en différence de la carnitine qui est un substrat de haute affinité des transporteurs CT2 et OCTN2. Ces résultats suggèrent que les transporteurs organiques spécifiques au transport de la carnitine ne sont pas impliqués dans le transport des anthracyclines. Ainsi, nos résultats ont démontré que l’absorption de la daunorubicin est orchestrée par le transporteur OCT1 dans les cellules TOV2223G (Km ~ 5 μM) et des concentrations micromolaires de choline ont complètement abolies l’absorption de la drogue. De plus, un ARN sh dirigé contre OCT1 a réprimé son expression protéique, ce qui a été confirmé par la technique d’immuno-buvardage en utilisant un anti-OCT1 anticorps. Les cellules déficientes en OCT1 n’ont pas été capables d’absorber la daunorubicin et ont été plus résistantes à l’action de la drogue par rapport aux cellules contrôle. La transfection des cellules HEK293T avec un plasmide construit de façon à faire exprimer OCT1 comme protéine de fusion avec la protéine fluorescente EYFP a montré que celle-ci est localisée dans la membrane plasmique. Les cellules transfectées ont été capables d’absorber cinq fois plus de daunorubicin comparé aux cellules contrôles. Cette étude est, selon nous, la première à démontrer que OCT1 est un transporteur de haute affinité des anthracyclines. Ainsi, nous avons émis l’hypothèse que des défauts de OCT1 peuvent contribuer à l’efficacité de la réponse des cellules cancéreuses à la chimiothérapie avec les anthracyclines. / Anthracyclines such as doxorubicin and daunorubicin are hydrophilic anticancer agents that must be transported into cells. These drugs accumulate in the nucleus where they intercalate with DNA, thereby interfering with DNA replication in turn leading to cell death. Anthracyclines are used for treating a variety of cancers including leukemia, lymphomas, breast, lung, and ovarian. Despite evidence for active uptake of anthracyclines, the specific transporter has not been identified. Using the ovarian cancer cell line TOV2223G, we show that substrates reported for the organic cation transporter OCT1, such as ergothioneine, thiamine and phenformin, partially compete with uptake of daunorubicin, but not of L-carnitine, i.e., a high affinity substrate transported by hCT2 and OCTN2. These findings exclude the involvement of the L-carnitine organic cation family of transporters in anthracycline uptake. Moreover, we show that OCT1 actively mediates high affinity (Km ~ 5 μM) transport of daunorubicin into TOV2223G cells, whereas micromolar amounts of choline completely abolish drug uptake. shRNA-mediated downregulation of OCT1 causes defective uptake of daunorubicin, as well as significant resistance to the drug, as compared to the vector control. Transfection of HEK293T cells with a plasmid expressing OCT1 as a GFP fusion protein revealed that OCT1-EYFP was predominantly localized to the plasma membrane. These transfected cells manifested nearly 5-fold increased uptake of daunorubicin compared to the empty vector control. In summary, we show for the first time that human OCT1 is a high affinity transporter for anthracyclines. As such, we postulate that OCT1 status represents a critical determinant in the response of cancer cells to chemotherapy with anthracyclines
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Rôle du transporteur de cations organiques 2 dans la réponse et la vulnérabilité au stress / Brain organic cation transporter 2 controls response and vulnerability to stressCouroussé, Thomas 08 December 2014 (has links)
Les interactions entre facteurs génétiques et environnementaux, comme le stress, jouent un rôle important dans la physiopathologie de maladies psychiatriques telles que la dépression. Les transporteurs de cation organiques (OCTs) sont des transporteurs polyspécifiques considérés comme sensibles à la corticostérone. Au cours de ma thèse, je me suis intéressé au rôle du transporteur de cation organique 2 (OCT2) dans la réponse au stress et la vulnérabilité à la dépression. OCT2 est exprimé dans de nombreuses régions impliquées dans la réponse au stress et le long de l’axe hypothalamo-hypophyso-surrénalien (HPA). L’absence d’OCT2 entraîne une augmentation de la sécrétion de corticostérone (156%) en réponse à un stress aigu, sans altération de la sensibilité des surrénales à l’hormone adrénocorticotrope (ACTH). En conséquence, les souris OCT2-/- sont plus sensibles aux effets du stress chronique imprédictible léger et développent des anomalies comportementales transitoires de la mémoire spatiale et de l’interaction sociale dans la phase précoce du stress chronique. De plus, nous avons montré que l’état fonctionnel de la GSK3β, une voie de signalisation profondément modulée par le stress et la dépression, est altéré dans l’hippocampe des souris OCT2-/-. Des expériences pharmacologiques in vivo et des Western blot suggèrent qu’une augmentation du tonus sérotoninergique chez les souris OCT2-/- pourrait expliquer la dérégulation de la GSK3β lors du stress. Ce travail a permis d’identifier OCT2 comme un déterminant important de la réponse au stress, suggérant que chez l’homme des polymorphismes ou son inhibition pharmacologique lors de traitements thérapeutiques de longue durée pourraient altérer l’activité de l’axe HPA et rendre les individus vulnérables aux effets délétères du stress. / Interactions between genetic and environmental factors like exposure to stress play an important role in the pathogenesis of mood-related psychiatric disorders such as major depressive disorder. The polyspecific organic cation transporters (OCTs) were shown previously to be sensitive to the stress hormone corticosterone in vitro, suggesting these transporters might play a physiological role in the response to stress. During my PhD thesis I investigated the role of organic cation transporter 2 (OCT2) during stress and vulnerability to depression. OCT2 is expressed in several stress-related circuits in the brain and along the hypothalamic-pituitary-adrenocortical (HPA) axis. Genetic deletion of OCT2 in mice enhanced hormonal response to acute stress (156%) without altering adrenal sensitivity to adrenocorticotropic hormone (ACTH). As a consequence, OCT2-/- mice were potently more sensitive to the action of unpredictable chronic mild stress and developed a transient aggravation of depression-related behaviors involving spatial memory and social interaction. We showed that the functional state of the glycogen synthase kinase-3β (GSK3β) signaling pathway, highly responsive to acute stress, was altered in the hippocampus of OCT2-/- mice. In vivo pharmacology and Western blot experiments argue for increased serotonin tonus as a main mechanism for impaired GSK3β signaling in OCT2-/- mice brain during acute response to stress. Our findings identify OCT2 as an important determinant of the response to stress in the brain, suggesting that in man OCT2 mutations or blockade by certain therapeutic drugs could interfere with HPA axis function and enhance vulnerability to repeated adverse events leading to stress-related disorders.
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Erweiterte Charakterisierung substratspezifischer Effekte genetischer Polymorphismen im organischen Kationentransporter OCT1 / Extended characterization of substrate-specific effects of genetic polymorphisms in the organic cation transporter OCT1Kakkar, Sawan Kumar 27 November 2019 (has links)
No description available.
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Bedeutung genetischer Polymorphismen im organischen Kationentransporter OCT1 für die Pharmakokinetik und Nebenwirkungen von Proguanil / Impact of genetic polymorphisms in organic cation transporter OCT1 on pharmacokinetics and side effects of ProguanilTann, Annabelle 23 January 2019 (has links)
No description available.
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Genetic diversity of the Organic Cation Transporter 1 gene within the Cape Coloured PopulationBrendon Pearce January 2012 (has links)
<p>The aim of this study was to investigate the genetic diversity of the SLC22A1 gene and to deduce its possible pharmacogenetic implications within the Cape Coloured population of South  / Africa / a uniquely admixed population of immigrant Europeans, Asians and the indigenous populations. Recent studies have reported an abundance of polymorphic variants within this solute  / carrier transporter gene encoding for the organic cation transporter 1, as well as evidence linking these variants to an effect on metformin uptake. This study included establishing baseline  / frequency distribution of previously reported alleles for 20 SNP variants within the SLC22A1 gene, as well as the development of SNaPshot® / and Multiplex AS-PCR genotyping assays, and  / also exploring the possibility of using High-resolution melt (HRM) analysis as a costeffective alternative for SNP genotyping. Ethics clearance was obtained from the Ethics Committee of the  / University of the Western Cape. Biological samples in the form of buccal (oral) swabs were collected from 132 unrelated voluntary donors from the Cape Coloured population residing in the  / Cape Metropolitan area. Two SNaPshot® / Multiplex Systems were specifically designed for the study,successfully optimized and used for genotyping. Hundred genetic profiles were then generated for a total of 20 SNP variants on SLC22A1 gene, using this primer extension-based genotyping method that enables multiplexing up 10 SNPs. Population genetics data obtained for  / the investigated SNPs were analysed using various statistical analysis software. Important population genetic parameters were calculated, and possible pharmacogenetics implications were then discussed. Among others, allelic and genotypic frequencies, as well as linkage disequilibrium were determined and compared with world populations. Minor deviation from Hardy- Weinberg equilibrium was observed in the Cape Coloured population. No significantLinkage Disequilibrium between the investigated SNPs was observed in this population. A Multiplex allele specific &ndash / PCR (MAS-PCR) genotyping  / system was successfully designed and optimized for the genotyping of 10 SNPs from the SLC22A1. This system, also developed specifically for this study, was made of 2 multiplexes each covering 5 SNPs. It is an inexpensive genotyping assay that allows for efficient discrimination of SNP polymorphisms in one reaction tube with standard PCR conditions. A pilot study was  / conducted to explore the possibility of using High-resolution melt (HRM) analysis as a cost-effective alternative for SNP genotyping. In addition to genotyping, HRM analysis can be used to scan  / large numbers of samples for novel genetic variations.  / </p>
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Genetic diversity of the Organic Cation Transporter 1 gene within the Cape Coloured PopulationBrendon Pearce January 2012 (has links)
<p>The aim of this study was to investigate the genetic diversity of the SLC22A1 gene and to deduce its possible pharmacogenetic implications within the Cape Coloured population of South  / Africa / a uniquely admixed population of immigrant Europeans, Asians and the indigenous populations. Recent studies have reported an abundance of polymorphic variants within this solute  / carrier transporter gene encoding for the organic cation transporter 1, as well as evidence linking these variants to an effect on metformin uptake. This study included establishing baseline  / frequency distribution of previously reported alleles for 20 SNP variants within the SLC22A1 gene, as well as the development of SNaPshot® / and Multiplex AS-PCR genotyping assays, and  / also exploring the possibility of using High-resolution melt (HRM) analysis as a costeffective alternative for SNP genotyping. Ethics clearance was obtained from the Ethics Committee of the  / University of the Western Cape. Biological samples in the form of buccal (oral) swabs were collected from 132 unrelated voluntary donors from the Cape Coloured population residing in the  / Cape Metropolitan area. Two SNaPshot® / Multiplex Systems were specifically designed for the study,successfully optimized and used for genotyping. Hundred genetic profiles were then generated for a total of 20 SNP variants on SLC22A1 gene, using this primer extension-based genotyping method that enables multiplexing up 10 SNPs. Population genetics data obtained for  / the investigated SNPs were analysed using various statistical analysis software. Important population genetic parameters were calculated, and possible pharmacogenetics implications were then discussed. Among others, allelic and genotypic frequencies, as well as linkage disequilibrium were determined and compared with world populations. Minor deviation from Hardy- Weinberg equilibrium was observed in the Cape Coloured population. No significantLinkage Disequilibrium between the investigated SNPs was observed in this population. A Multiplex allele specific &ndash / PCR (MAS-PCR) genotyping  / system was successfully designed and optimized for the genotyping of 10 SNPs from the SLC22A1. This system, also developed specifically for this study, was made of 2 multiplexes each covering 5 SNPs. It is an inexpensive genotyping assay that allows for efficient discrimination of SNP polymorphisms in one reaction tube with standard PCR conditions. A pilot study was  / conducted to explore the possibility of using High-resolution melt (HRM) analysis as a cost-effective alternative for SNP genotyping. In addition to genotyping, HRM analysis can be used to scan  / large numbers of samples for novel genetic variations.  / </p>
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Interaction of hepatic uptake transporters with antineoplastic compounds and regulation of the expression of organic cation transporter 3 in renal carcinoma cellsMarada, Venkata 15 January 2015 (has links)
No description available.
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In-vitro-Analysen des organischen Kationentransporters OCT1 als hepatischer Aufnahmetransporter von Triptanen / The organic cation transporter OCT1 mediates the hepatic uptake of triptansKuron, David 23 May 2017 (has links)
No description available.
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