Future of Flash

Budd, Chris

10 1900

ITC/USA 2013 Conference Proceedings / The Forty-Ninth Annual International Telemetering Conference and Technical Exhibition / October 21-24, 2013 / Bally's Hotel & Convention Center, Las Vegas, NV / Solid-State Drives (SSDs) are an enabling technology for data recorders. SSDs can survive where Hard-Disk Drives (HDDs) cannot. SSDs deliver better performance with lower power consumption than HDDs. However, the end of Single-Level Cell (SLC) NAND flash may be near; Multi-Level Cell (MLC) NAND flash soon may be the only choice for industrial applications. System designers have two distinct concerns before implementing SSDs: 1. Cost: MLC NAND flash makes SSDs as affordable as HDDs 2. Endurance: SSDs are reliable and endurance assured with today's controller technology SSDs are leading the charge in transforming data storage in several applications, telemetry included.

SSD

NAND

flash

SLC

MLC

Synergy: 2009 Student Leadership Conference Program Guide

2009 SLC Planning Committee

15 April 2009

The program guide for the 2009 Student Leadership Conference: Synergy, held at UBC on January 10, 2009.

SLC 2009

Student Leadership Conference 2009

Synergy

Using the Direct Sampling Multiple-Point Geostatistical Method for Filling Gaps in Landsat 7 ETM+ SLC-off Imagery

Yin, Gaohong

05 1900

Since the failure of the Scan Line Corrector (SLC) instrument on Landsat 7, observable gaps occur in the acquired Landsat 7 imagery, impacting the spatial continuity of observed imagery. Due to the highly geometric and radiometric accuracy provided by Landsat 7, a number of approaches have been proposed to fill the gaps. However, all proposed approaches have evident constraints for universal application. The main issues in gap-filling are an inability to describe the continuity features such as meandering streams or roads, or maintaining the shape of small objects when filling gaps in heterogeneous areas. The aim of the study is to validate the feasibility of using the Direct Sampling multiple-point geostatistical method, which has been shown to reconstruct complicated geological structures satisfactorily, to fill Landsat 7 gaps. The Direct Sampling method uses a conditional stochastic resampling of known locations within a target image to fill gaps and can generate multiple reconstructions for one simulation case. The Direct Sampling method was examined across a range of land cover types including deserts, sparse rural areas, dense farmlands, urban areas, braided rivers and coastal areas to demonstrate its capacity to recover gaps accurately for various land cover types. The prediction accuracy of the Direct Sampling method was also compared with other gap-filling approaches, which have been previously demonstrated to offer satisfactory results, under both homogeneous area and heterogeneous area situations. Studies have shown that the Direct Sampling method provides sufficiently accurate prediction results for a variety of land cover types from homogeneous areas to heterogeneous land cover types. Likewise, it exhibits superior performances when used to fill gaps in heterogeneous land cover types without input image or with an input image that is temporally far from the target image in comparison with other gap-filling approaches.

Landsat

SLC-off

gap-filling

MPS

Characterization of Centrally Expressed Solute Carriers : Histological and Functional Studies with Transgenic Mice / : His

Roshanbin, Sahar

January 2016

The Solute Carrier (SLC) superfamily is the largest group of membrane-bound transporters, currently with 456 transporters in 52 families. Much remains unknown about the tissue distribution and function of many of these transporters. The aim of this thesis was to characterize select SLCs with emphasis on tissue distribution, cellular localization, and function.       In paper I, we studied the leucine transporter B0AT2 (Slc6a15). Localization of B0AT2 and Slc6a15 in mouse brain was determined using in situ hybridization (ISH) and immunohistochemistry (IHC), localizing it to neurons, epithelial cells, and astrocytes. Furthermore, we observed a lower reduction of food intake in Slc6a15 knockout mice (KO) upon intraperitoneal injections with leucine, suggesting B0AT2 is involved in mediating the anorexigenic effects of leucine.     In paper II, we studied the postnatal, forebrain-specific deletion of Slcz1, belonging to the SLC18 family, in conditional KO mice (cKO). We observed a decreased response to diazepam and a higher neuronal activity in cortex and hippocampus of cKO mice, as well as an impairment in short-term recognition memory. Intracellular expression was found in neurons but not astrocytes with IHC, indicating SLCZ1 is implicated in neuronal regulation of locomotion and memory.    In paper III, we performed the first detailed histological analysis of PAT4, a transporter belonging to the SLC36 family, involved in the activation of mTOR complex 1 on lysosomes. We found abundant Slc36a4 mRNA and PAT4 expression in mouse brain, using ISH and IHC. We used IHC to localize PAT4 to both inhibitory and excitatory neurons and epithelial cells. We also found both intracellular- and plasmalemmal expression and partial colocalization of PAT4 with lysosomal markers.    Lastly, in paper IV, we provided the first tissue mapping of orphan transporter MCT14 (SLC16A14). Using qPCR, we detected moderate to high Slc16a14 mRNA in the central nervous system and kidney. We found widespread Slc16a14 and MCT14 in mouse brain using ISH and IHC. We also found MCT14 to have intracellular and plasmalemmal expression in mainly excitatory but also inhibitory neurons, as well as epithelial cells. We found MCT14 to be most closely related to MCT8, MCT2 and MCT9, suggesting a similar role for this transporter.

SLC

Solute carriers

Amino acid transporter

PAT

B0AT2

mTORC1

Compression d'images complexes avec pertes: application à l'imagerie Radar

Valade, Cédric

12 1900

Installé à bord d'aéronefs ou de satellites, le Radar à Synthèse d'Ouverture (RSO) permet d'imager des zones à haute résolution. Les volumes de données générés sont très importants et les capacités limitées des canaux de transmission et/ou de stockage forment un sous-ensemble critique des systèmes d'observation. De ce fait, la solution classiquement retenue est de recourir à la compression des données. Le système radar cohérent génère des données de forte dynamique où les pixels issus de la formation de l'image sont des données complexes au sens mathématique du terme, c'est-à-dire constitués d'une valeur d'amplitude et de phase. La faible corrélation spatiale des pixels rend les techniques de compression répandues dans le domaine optique beaucoup moins efficaces. L'objectif de cette étude consiste à proposer un système de compression avec pertes adapté aux images RSO SLC (Single Look Complex) et prenant en compte le caractère complexe des pixels. Nous suggérons différents schémas de compression dépendants de la répresentation du signal dans le plan complexe (amplitude/phase ou partie réelle/imaginaire). Nous nous focalisons essentiellement sur des techniques de type multirésolution comme la transformée en ondelettes et paquets d'ondelettes discrètes. Un ensemble de modèles statistiques spécifiques à la caractérisation des images RSO permettra d'adapter diverses méthodes de quantification polaire à la problématique de la compression d'images complexes. Enfin, la dernière partie de cette étude sera consacrée à la présentation des résultats à traver l'utilisation d'un panel de critères objectifs avec notamment une évaluation de la qualité des images décompressées.

Functional Characterization of Centrally Expressed Solute Carriers and G Protein-Coupled Receptors

Sreedharan, Smitha

January 2011

Transmembrane proteins are gatekeepers of the cells; controlling the transport of substrates as well as communicating signals among cells and between the organelles and cytosol. Solute carriers (SLC) and G protein-coupled receptors (GPCR) are the largest family of membrane transporters and membrane receptors respectively. The overall aim of this thesis was to provide a basic understanding of some of the novel SLCs and GPCRs with emphasis on expression, transport property, evolution and probable function. The first part of the thesis directs towards the study of some novel solute carriers. In an initial study, we provided an overall picture of the sequence relationship and tissue expression of 14 diverse atypical SLCs confirming some of their evolutionary conservation and highly specific expression pattern. The focus then was on the SLC17 family (mainly vesicular proteins) and a novel member named Slc17a9. This study revealed that SLC17 family could be divided into four main phylogenetic clades which were all present before the divergence of the insect lineage with Slc17a9 having the most restricted evolutionary history. Detailed expression study of Slc17a9 in the mouse brain suggests that it is also expressed in some regions important for purinergic neurotransmission. Further, we deorphanised an aminoacid transporter Slc38a7 which was expressed in a majority of neurons in the CNS and showed that it preferably mediate transport of L–glutamine and L–histidine. The second part of the thesis focuses on the study of two GPCRs belonging to the Rhodopsin superfamily, Gpr162 and Gpr153. A phylogenetic analysis revealed that both Gpr153 and Gpr162 originated from a common ancestor before the radiation of the mammalian lineage. Expression study revealed that Gpr162 had a predominant expression in the CNS and relatively lower expression in the other tissue tested whereas Gpr153 had a more widespread and similar expression pattern in both CNS and peripheral tissues. The functional studies of the two GPCRs were done using the antisense oligodeoxynucleotide knockdown rat model. These studies provided evidence linking the orphan Gpr162 gene with the regulation of food intake– related behaviour whereas Gpr153 gene caused only a slight reduction in food intake.

GPCR

SLC

Gpr153

Gpr162

Slc17

Slc38

Neuroscience

Neurovetenskap

USING MLC FLASH TO REDUCE SYSTEM COST IN INDUSTRIAL APPLICATIONS

Budd, Chris

10 1900

Storage devices based on Multi-Level Cell (MLC) NAND flash can be found in almost all computer systems except rugged, industrial systems; even though MLC is less expensive and more dense than devices based on standard Single-Level Cell (SLC) NAND flash, MLC’s lower write endurance and lower retention has led system designers to avoid using it. This avoidance is unnecessary in many applications which will never come close to the endurance limits. Furthermore, new processes are leading to storage devices with higher write endurance. System designers should review the specific use-model for their systems and can select MLC-based storage devices when warranted. The result is lower system costs without worry of data loss due to write endurance.

SSD

SLC

MLC

endurance

retention

temperature

file system

ruggedized

Expression of SLC transporters in Chronic Lymphocytic Leukaemia cells and their interaction with cytostatics / Expression of SLC transporters in Chronic Lymphocytic Leukaemia cells and their interaction with cytostatics

Gupta, Shivangi

12 October 2009

No description available.

500 Naturwissenschaften

WA

Mathematics and Natural Science

SLC transporters

CLL

OCT1

Irinotekan

Paclitaxel

SLC transporters

CLL

OCT1

Irinotecan

Paclitaxel

42.17

Efeito da atorvastatina sobre a atividade funcional e expressão de transportadores de membrana do tipo ABC e SLC / Effect of atorvastatin on the activity and expression of ABC and SLC membrane transporters.

Rodrigues, Alice Cristina

12 September 2008

Os transportadores de membrana do tipo ATP Binding Cassette (ABC) e solute carriers (SLC) regulam a homeostase intracelular de fármacos, modificando a biodisponibilidade e possivelmente a eficácia terapêutica. A variabilidade na resposta a hipolipemiantes, como as vastatinas, tem sido associada a vários fatores genéticos e ambientais. Com a finalidade de avaliarmos os mecanismos de regulação da expressão dos transportadores pela atorvastatina, a expressão de RNAm de transportadores ABC (ABCB1, ABCG2 e ABCC2) e SLC (SLCO1B1, SLCO2B1 e SLC22A1) foi avaliada por RT-PCRq em células mononucleares do sangue periférico (CMSP) de 18 indivíduos normolipidêmicos (NL) e 22 pacientes hipercolesterolêmicos (HC) tratados com atorvastatina (10mg/dia/4 semanas). A possível associação entre o polimorfismo ABCB1 C3435T e a expressão de RNAm também foi avaliada. Os estudos in vitro foram realizados com as células das linhagens HepG2 e Caco-2. Foram avaliados os efeitos da atorvastatina na ativação de fatores de transcrição (NF-kappaB, NF-Y, c-jun, SP-1 e PXR) por ensaio de mobilidade eletroforética retardada em gel de poliacrilamida (EMSA) e na meia-vida do RNAm do gene ABCB1 por RT-PCRq, e a expressão e atividade funcional da proteína ABCB1 por Western blot, imunohistoquimica e citometria de fluxo. A proteina ABCB1 foi localizada por imunohistoquimica na membrana apical do canalículo biliar das celulas HepG2 e na membrana apical das Caco-2. O tratamento das células HepG2 com atorvastatina causou redução da expressão de RNAm do gene ABCB1 e aumento na expressão dos genes ABCG2 e ABCC2. Esses efeitos foram dose e tempo dependentes. O tratamento com atorvastatina das células Caco-2 não modificou a expressão dos transportadores de efluxo após 30 a 120 min. Nas células HepG2, as concentrações de 10 e 20 M de atorvastatina causaram diminuição da expressão de ABCB1 (0 &#181;M: 1,00 ± 0,06; 10 &#181;M: 0,69 ± 0,25, p< 0,05; 20 &#181;M: 0,69 ± 0,06, p< 0,05). A atividade da ABCB1, avaliada pelo efluxo de Rh123, mostrou-se estar reduzida em 41% nas células HepG2, após tratamento com atorvastatina 20 &#181;M. Embora a diminuição da expressão do ABCB1 não tenha sido decorrente de uma menor ativação transcricional, avaliada indiretamente por EMSA, estudos de mecanismos de regulação pós-transcricionais, revelaram que a atorvastatina diminui a estabilidade de RNAm do gene ABCB1. Esse resultado parece estar de acordo com o ocorrido nas CMSP, já que o tratamento com atorvastatina diminuiu a expressão de RNAm do gene ABCB1 nos indivíduos HC. Essa modulação, no entanto não está associada à presença do polimorfismo ABCB1 C3435T. Em relação aos transportadores de captação, a expressão do SLC22A1 nas células Caco-2 diminui após tratamento com atorvastatina por 30 min e não foi modificada nas células HepG2. Já o gene SLCO2B1 encontrou-se muito aumentado após 24 h de tratamento nas células HepG2. Estudos in vivo nas CMSP, mostrou que a expressão de mRNA basal dos transportadores nos HC foi 10 vezes maior que nos NL e diminuiu após tratamento com atorvastatina nos HC. Com os resultados obtidos podemos sugerir que diferenças no efeito da atorvastatina nos tipos celulares podem ser em decorrência da expressão tecido-específica de fatores de transcrição. No modelo de hepatócito, HepG2, a atorvastatina é um inibidor do transporte mediado pela ABCB1 e é capaz de diminuir a síntese e a função da ABCB1, via aumento da degradação de RNAm do gene ABCB1. Em conseqüência ocorre uma redução do efluxo pelo sistema biliar, causando aumento da concentração intracelular. Ainda, podemos concluir que em CMSP o colesterol pode ser o responsável pela modulação dos genes dos transportadores de membrana e que isso pode implicar em diferenças na eficácia da atorvastatina. / Specific membrane transporters have a significant impact on drug absorption and disposition. Most of them belong to two super-families, ABC (ATP-binding cassette) and SLC (solute-linked carrier). Statins are important therapeutic agents in the management of hypercholesterolemia, and considerable inter-individual variation exists in response to its therapy. The effects of atorvastatin expression of efflux (ABCG2 and ABCC2) and uptake (SLCO1B1, SLCO2B1 and SLC22A1) drug transporters were investigated by qPCR in Caco-2 and HepG2 cell lines and in peripheral blood mononuclear cells (PBMCs) of eighteen normolipidemic (NL) and twenty two hypercholesterolemic (HC) individuals treated with atorvastatin (10mg/day/4 weeks). The possible involvement of ABCB1 C3435T polymorphism in ABCB1 mRNA expression was also evaluated. In vitro studies with the cell lines HepG2 and Caco-2 were also performed. The effect of atorvastatin on the activation of the promoter of ABCB1 by transcription factors (NF-kappaB, NF-Y, c-jun, SP-1, and PXR) was evaluated by electrophoretic mobility shift assay (EMSA), and ABCB1 mRNA half-life were measured by PCRq. The expression and functional activity of ABCB1 were investigated by Western blot, imunohistochemistry and flow cytometry. Immunohystochemical analysis revealed that ABCB1 is located at the apical membrane of the bile canaliculi in HepG2, and in apical membrane of Caco-2 cells. Atorvastatin treatment of HepG2 cells caused a decreased in ABCB1 and an increase in ABCC2 and ABCG2 transcript levels. These effects were time and dose-dependent. Treatment of Caco-2 cells did not present any differences in efflux transporters mRNA levels. Treatment of HepG2 cells with 10 and 20 M atorvastatin caused a reduction on ABCB1 expression (0 &#181;M: 1,00 ± 0,06; 10 &#181;M: 0,69 ± 0,25, p< 0,05; 20 &#181;M: 0,69 ± 0,06, p< 0,05), and a 41% decrease in ABCB1-mediated efflux of Rhodamine123 (p < 0.01). Although reduced ABCB1 mRNA expression was not due to any repressor protein suppressing ABCB1 promoter activation, mRNA stability studies revealed that mRNA stability of ABCB1 was markedly decreased by atorvastatin treatment (2h versus 7h for control). In agrrement with these results, in PBMCs of HC individuals, atorvastatin treatment also reduced ABCB1 mRNA expression. However, the down-regulation was not associated with the presence of 3435T allele. For the uptake transporters, atorvastatin decreased SLC22A1 transcript levels after 30min-treatment and it was not regulated in HepG2. On the other hand, SLCO2B1 was up-regulated after 24h-treatment of HepG2 cells. In vivo studies with PBMCs revealed that during hypercholesterolemia all the drug transporters analyzed were increased almost 10-fold (p< 0.05), and after atorvastatin therapy the efflux and uptake transporters transcript levels were all down-regulated. These findings suggest that atorvastatin exhibits differential effects on mRNA expression of drug transporters depending on the cell type, which may be related to tissue-specific expression of transcription factors. Atorvastatin leads to decreased ABCB1 function and synthesis in HepG2 cells by increasing degradation of ABCB1 mRNA. Therefore, inhibition of ABCB1 may reduce atorvastatin elimination via bile, increasing its cellular concentrations. We also may suggest that in PBMCs cholesterol modulates mRNA expression of drug transporters, and this may contribute to the variability of response to atorvastatin.

ABC transporters

Atorvastatin

Atorvastatina

Caco-2

Caco-2

CMSP

HepG2

HepG2

Hipercolesterolemia

Hypercholesterolemia

Lipídeos

Lipids

PBMCs

SLC transporters

Transportadores ABC

Transportadores SLC

Efeito da atorvastatina sobre a atividade funcional e expressão de transportadores de membrana do tipo ABC e SLC / Effect of atorvastatin on the activity and expression of ABC and SLC membrane transporters.

Alice Cristina Rodrigues

12 September 2008

Os transportadores de membrana do tipo ATP Binding Cassette (ABC) e solute carriers (SLC) regulam a homeostase intracelular de fármacos, modificando a biodisponibilidade e possivelmente a eficácia terapêutica. A variabilidade na resposta a hipolipemiantes, como as vastatinas, tem sido associada a vários fatores genéticos e ambientais. Com a finalidade de avaliarmos os mecanismos de regulação da expressão dos transportadores pela atorvastatina, a expressão de RNAm de transportadores ABC (ABCB1, ABCG2 e ABCC2) e SLC (SLCO1B1, SLCO2B1 e SLC22A1) foi avaliada por RT-PCRq em células mononucleares do sangue periférico (CMSP) de 18 indivíduos normolipidêmicos (NL) e 22 pacientes hipercolesterolêmicos (HC) tratados com atorvastatina (10mg/dia/4 semanas). A possível associação entre o polimorfismo ABCB1 C3435T e a expressão de RNAm também foi avaliada. Os estudos in vitro foram realizados com as células das linhagens HepG2 e Caco-2. Foram avaliados os efeitos da atorvastatina na ativação de fatores de transcrição (NF-kappaB, NF-Y, c-jun, SP-1 e PXR) por ensaio de mobilidade eletroforética retardada em gel de poliacrilamida (EMSA) e na meia-vida do RNAm do gene ABCB1 por RT-PCRq, e a expressão e atividade funcional da proteína ABCB1 por Western blot, imunohistoquimica e citometria de fluxo. A proteina ABCB1 foi localizada por imunohistoquimica na membrana apical do canalículo biliar das celulas HepG2 e na membrana apical das Caco-2. O tratamento das células HepG2 com atorvastatina causou redução da expressão de RNAm do gene ABCB1 e aumento na expressão dos genes ABCG2 e ABCC2. Esses efeitos foram dose e tempo dependentes. O tratamento com atorvastatina das células Caco-2 não modificou a expressão dos transportadores de efluxo após 30 a 120 min. Nas células HepG2, as concentrações de 10 e 20 M de atorvastatina causaram diminuição da expressão de ABCB1 (0 &#181;M: 1,00 ± 0,06; 10 &#181;M: 0,69 ± 0,25, p< 0,05; 20 &#181;M: 0,69 ± 0,06, p< 0,05). A atividade da ABCB1, avaliada pelo efluxo de Rh123, mostrou-se estar reduzida em 41% nas células HepG2, após tratamento com atorvastatina 20 &#181;M. Embora a diminuição da expressão do ABCB1 não tenha sido decorrente de uma menor ativação transcricional, avaliada indiretamente por EMSA, estudos de mecanismos de regulação pós-transcricionais, revelaram que a atorvastatina diminui a estabilidade de RNAm do gene ABCB1. Esse resultado parece estar de acordo com o ocorrido nas CMSP, já que o tratamento com atorvastatina diminuiu a expressão de RNAm do gene ABCB1 nos indivíduos HC. Essa modulação, no entanto não está associada à presença do polimorfismo ABCB1 C3435T. Em relação aos transportadores de captação, a expressão do SLC22A1 nas células Caco-2 diminui após tratamento com atorvastatina por 30 min e não foi modificada nas células HepG2. Já o gene SLCO2B1 encontrou-se muito aumentado após 24 h de tratamento nas células HepG2. Estudos in vivo nas CMSP, mostrou que a expressão de mRNA basal dos transportadores nos HC foi 10 vezes maior que nos NL e diminuiu após tratamento com atorvastatina nos HC. Com os resultados obtidos podemos sugerir que diferenças no efeito da atorvastatina nos tipos celulares podem ser em decorrência da expressão tecido-específica de fatores de transcrição. No modelo de hepatócito, HepG2, a atorvastatina é um inibidor do transporte mediado pela ABCB1 e é capaz de diminuir a síntese e a função da ABCB1, via aumento da degradação de RNAm do gene ABCB1. Em conseqüência ocorre uma redução do efluxo pelo sistema biliar, causando aumento da concentração intracelular. Ainda, podemos concluir que em CMSP o colesterol pode ser o responsável pela modulação dos genes dos transportadores de membrana e que isso pode implicar em diferenças na eficácia da atorvastatina. / Specific membrane transporters have a significant impact on drug absorption and disposition. Most of them belong to two super-families, ABC (ATP-binding cassette) and SLC (solute-linked carrier). Statins are important therapeutic agents in the management of hypercholesterolemia, and considerable inter-individual variation exists in response to its therapy. The effects of atorvastatin expression of efflux (ABCG2 and ABCC2) and uptake (SLCO1B1, SLCO2B1 and SLC22A1) drug transporters were investigated by qPCR in Caco-2 and HepG2 cell lines and in peripheral blood mononuclear cells (PBMCs) of eighteen normolipidemic (NL) and twenty two hypercholesterolemic (HC) individuals treated with atorvastatin (10mg/day/4 weeks). The possible involvement of ABCB1 C3435T polymorphism in ABCB1 mRNA expression was also evaluated. In vitro studies with the cell lines HepG2 and Caco-2 were also performed. The effect of atorvastatin on the activation of the promoter of ABCB1 by transcription factors (NF-kappaB, NF-Y, c-jun, SP-1, and PXR) was evaluated by electrophoretic mobility shift assay (EMSA), and ABCB1 mRNA half-life were measured by PCRq. The expression and functional activity of ABCB1 were investigated by Western blot, imunohistochemistry and flow cytometry. Immunohystochemical analysis revealed that ABCB1 is located at the apical membrane of the bile canaliculi in HepG2, and in apical membrane of Caco-2 cells. Atorvastatin treatment of HepG2 cells caused a decreased in ABCB1 and an increase in ABCC2 and ABCG2 transcript levels. These effects were time and dose-dependent. Treatment of Caco-2 cells did not present any differences in efflux transporters mRNA levels. Treatment of HepG2 cells with 10 and 20 M atorvastatin caused a reduction on ABCB1 expression (0 &#181;M: 1,00 ± 0,06; 10 &#181;M: 0,69 ± 0,25, p< 0,05; 20 &#181;M: 0,69 ± 0,06, p< 0,05), and a 41% decrease in ABCB1-mediated efflux of Rhodamine123 (p < 0.01). Although reduced ABCB1 mRNA expression was not due to any repressor protein suppressing ABCB1 promoter activation, mRNA stability studies revealed that mRNA stability of ABCB1 was markedly decreased by atorvastatin treatment (2h versus 7h for control). In agrrement with these results, in PBMCs of HC individuals, atorvastatin treatment also reduced ABCB1 mRNA expression. However, the down-regulation was not associated with the presence of 3435T allele. For the uptake transporters, atorvastatin decreased SLC22A1 transcript levels after 30min-treatment and it was not regulated in HepG2. On the other hand, SLCO2B1 was up-regulated after 24h-treatment of HepG2 cells. In vivo studies with PBMCs revealed that during hypercholesterolemia all the drug transporters analyzed were increased almost 10-fold (p< 0.05), and after atorvastatin therapy the efflux and uptake transporters transcript levels were all down-regulated. These findings suggest that atorvastatin exhibits differential effects on mRNA expression of drug transporters depending on the cell type, which may be related to tissue-specific expression of transcription factors. Atorvastatin leads to decreased ABCB1 function and synthesis in HepG2 cells by increasing degradation of ABCB1 mRNA. Therefore, inhibition of ABCB1 may reduce atorvastatin elimination via bile, increasing its cellular concentrations. We also may suggest that in PBMCs cholesterol modulates mRNA expression of drug transporters, and this may contribute to the variability of response to atorvastatin.

Atorvastatina

Caco-2

CMSP

HepG2

Hipercolesterolemia

Lipídeos

Transportadores ABC

Transportadores SLC

ABC transporters

Atorvastatin

Caco-2

HepG2

Hypercholesterolemia

Lipids

PBMCs

SLC transporters