Modelagem farmacocinética populacional na avaliação do papel da glicoproteína-P na penetração tecidual de fluoroquinolonas / Population pharmacokinetic modeling on evaluation of role P-glycoprotein on fluoroquinolones tissue penetration

Zimmermann, Estevan Sonego

January 2015

Objetivos: O objetivo deste trabalho foi desenvolver modelo farmacocinético (popPK) populacional para descrever simultaneamente as concentrações das fluoroquinolonas (levofloxacino – LEV e ciprofloxacino – CIP) no plasma, pulmão e próstata na presença e ausência do inibidor da P-gp tariquidar (TAR) visando determinar a contribuição desse transportador de efluxo na distribuição tecidual desses antimicrobianos. Método: Para alcançar este objetivo as seguintes etapas foram realizadas: i) foi validado o método analítico de HPLC-fluorescência para quantificação de CIP em amostras de plasma e microdialisado; ii) foram estabelecidas as condições para microdiálise para o CIP e as taxas de recuperação in vitro, por diálise e retrodiálise, e em tecido pulmonar e prostático in vivo por retrodiálise; iii) foi avaliada a farmacocinética do LEV após administração a ratos Wistar via i.v. bolus e por nebulização intratraqueal na dose de 7mg/kg na ausência e após administração prévia de TAR (15 mg/Kg i.v.); iv) foi desenvolvido um modelo popPK para prever as concentrações do LEV simultaneamente no plasma, pulmão e próstata após administração intravenosa e intratraqueal na presença e ausência do TAR; v) foi desenvolvido o modelo popPK para descrever as concentrações de CIP simultaneamente no plasma, pulmão e próstata após administração a ratos Wistar da dose de 7 mg/kg i.v. bolus na presença e ausência de TAR (15 mg/kg i.v.); vi) Para ambos os fármacos os dados foram avaliados por análise não-compartimental e modelados por modelo de quatro compartimentos modificado, com ajuda do software NONMEN®. Resultados e Conclusões. i) Método analítico foi desenvolvido e validado com sucesso para quantificação de CIP em HPLC/fluorescência mostrando-se linear na faixa de 10–2000 ng/mL em plasma e 5–1000 ng/mL em microdialisado com coeficientes de determinação (r2) superiores a 0,99. Os valores obtidos de erro padrão relativo para ensaios de precisão intra e inter-dia foram entre 8,8 e 6,0 %, para microdialisado entre 11,1 e 7,4 % para plasma, respectivamente. Os valores de exatidão foram 86,1% entre 114.3% para microdialisado e 85,6% entre 108,2% para plasma; ii) A avaliação do CIP por microdiálise mostrou recuperação concentração independente (0,25 - 1,5 μg/mL). Além disso, não houve diferença entre as recuperações obtidas por diálise e retrodiálise para o mesmo fluxo. No fluxo selecionado para os experimentos (1,5 μL/min) as recuperações médias por diálise e retrodiálise foram 23,0 ± 2,8% e 22,8 ± 1,6 %, respectivamente. A recuperação relativa das sondas in vivo foi de 11,3 ± 1,9 e 13,1 ± 2,7 % para pulmão e próstata, respectivamente; iii) A análise dos perfis plasmáticos e teciduais LEV após dose intravenosa do grupo controle (sem TAR) mostrou boa penetração tecidual na próstata (ƒT = 0,68) e no pulmão (ƒT = 0,69). Para a mesma via de administração, o grupo TAR mostrou uma penetração praticamente inalterada para o pulmão (ƒT = 0,81) e um aumento de mais de 2 vezes na penetração prostática (ƒT= 1,64). Na dose intratraqueal houve um aumento significativo na biodisponibilidade para o grupo TAR (F = 0,86) em relação ao controle (F = 0,4). Nessa via de administração foi detectado um aumento significativo na exposição (ASC) do pulmão ao LEV no grupo TAR demonstrando que o transporte por efluxo no pulmão é mais relevante quando o fármaco é administrado pela via intratraqueal; iv) Para o LEV, o modelo popPK de quatro compartimentos foi capaz de descrever simultaneamente os dados no plasma, pulmão e próstata na presença e ausência do TAR. Além disso, o modelo para administração intravenosa foi estendido e adaptado para administração intratraqueal. Foi possível analisar o impacto do transporte por efluxo sobre a penetração tecidual do LEV por diferentes vias de administração utilizando o modelo popPK; v) A avaliação do perfil farmacocinético plasmático do CIP após administração intravenosa, na presença e ausência de TAR, demonstrou diferença significativa entre todos os parâmetros calculados por análise não-compartimental, exceto para a constante de velocidade de eliminação (= 0,05). Em relação à penetração tecidual do CIP na próstata e pulmão, não houve alteração significativa nos parâmetros de eliminação e exposição tecidual do fármaco na presença do inibidor de efluxo TAR ( = 0,05), demonstrando que o transporte por efluxo possui papel minoritário no processo de distribuição do fármaco para os tecidos estudados. O modelo popPK de quatro compartimentos foi capaz de descrever as concentrações plasmáticas totais, livres no pulmão e próstata em presença e ausência de TAR, simultaneamente; vi) O modelo popPK desenvolvido permitiu o estudo mais profundo do processo de distribuição do LEV e do CIP no pulmão e próstata. / Objectives: The aim of this study was to develop a population pharmacokinetic model (popPK) able to simultaneously describe fluoroquinolones (levofloxacin – LEV and ciprofloxacin – CIP) concentrations in plasma, lung and prostate in the presence and absence of the inhibitor of P-gp tariquidar (TAR) to determine the contribution of this efflux transporter on the tissue distribution of these antimicrobials. Methods: To achieve this goal the following steps were taken: i) An analytical method by HPLC-fluorescence was developed and validated for CIP analysis in plasma and microdialysate samples; ii) microdialysis conditions were established for CIP including determination of in vitro relative recovery by dialysis and retrodialysis. The relative recovery was also determined in vivo, in lung and prostate, by retrodialysis; iii) LEV pharmacokinetics was evaluated after intravenous (i.v.) bolus and intratracheal (i.t.) administration of 7 mg/kg dose alone and following TAR administration (15 mg/kg i.v.) to Wistar rats; iv) a popPK model was developed to describe and predict LEV concentrations in plasma, lung and prostate following i.v. and i.t. dosing with and without TAR co-administration; v) the popPK model developed was used to describe CIP concentrations in plasma, lung and prostate after i.v. bolus administration of 7 mg/kg in presence and absence of TAR; vi) For both drugs non-compartmental analysis was performed besides data modeling by four compartment model using NONMEN®. Results and Conclusions i) The analytical method was developed and successfully validated for quantification of CIP by HPLC/fluorescence. The method was linear in the range of 10-2000 ng/mL in plasma and 5-1000 ng/mL in tissues microdialysate samples with coefficients of determination (r2) higher than 0.99. The relative standard error (RSD) obtained for intra and inter-day precision were lower than 8.8% and 6.0% for microdialysate and lower than 11.1 and 7.4% for plasma, respectively. The accuracy was 86.1% to 114.3% for microdialysate and 85.6 to 108.2 % for plasma samples; ii) the evaluation of CIP microdialysis probes relative recovery in vitro showed that the recovery was concentration independent (0.25 to 1.5 μg/mL). In addition, there was no statistical difference between the recoveries determined by dialysis and retrodialysis at the same flow rate. Using the selected flow rate (1.5 μL/min) the recoveries by dialysis and retrodialysis were 23.0 ± 2.8% and 22.8 ± 1.6%, respectively. CIP relative recoveries in vivo by retrodialysis were 11.3 ± 1.9 and 13.1 ± 2.7% for lung and prostate, respectively; iii) the analysis of LEV plasma and tissues concentration-time profiles after i.v. dosing showed a good tissue penetration of LEV in the prostate (ƒT = 0.68) and lung (ƒT = 0.69). For the same route of administration, TAR group showed virtually the same penetration into lung (ƒT = 0.81) and an increase of over 2 fold in drug levels in prostate (ƒT = 1.64). For the i.t. dose, there was a significant increase on LEV bioavailability for TAR group (F = 0.86) compared to control (F = 0.4). Furthermore, a significant increase was detected on lung exposure to LEV for TAR group indicating that efflux transport in the lung is more relevant when the drug is administered by the i.t. route; iv) For LEV, a four compartment model was able to describe the data simultaneously in plasma, lung and prostate in the presence and absence of TAR. Moreover, the intravenous model was extended to adapt the intratracheal dosing route. The popPK model allowed to analyze the impact of efflux transport on tissue LEV penetration of different routes of administration; v) the evaluation of plasma CIP profiles after i.v. dosing with and without TAR showed a significant difference in all parameters determined by non-compartmental analysis in the TAR group, except the elimination rate constant (α = 0.05). The CIP tissue penetration in prostate and lung, no significant difference was observed in tissues exposure and elimination rate when TAR was present demonstrating that efflux transporter play a minor role on CIP distribution to tissues investigated (α = 0.05). The popPK model with four compartments was able to describe CIP concentrations in plasma, lung and prostate in the presence and absence of TAR, simultaneously; vi) the popPK model developed allowed a more detailed investigation of LEV and CIP distribution process in lung and prostate.

Fluoroquinolonas

Farmacocinética

Fluoroquinolones

Pharmacokinetic

Efflux transporters

PopPK modeling

Microdialysis

Modelagem farmacocinética populacional na avaliação do papel da glicoproteína-P na penetração tecidual de fluoroquinolonas / Population pharmacokinetic modeling on evaluation of role P-glycoprotein on fluoroquinolones tissue penetration

Zimmermann, Estevan Sonego

January 2015

Objetivos: O objetivo deste trabalho foi desenvolver modelo farmacocinético (popPK) populacional para descrever simultaneamente as concentrações das fluoroquinolonas (levofloxacino – LEV e ciprofloxacino – CIP) no plasma, pulmão e próstata na presença e ausência do inibidor da P-gp tariquidar (TAR) visando determinar a contribuição desse transportador de efluxo na distribuição tecidual desses antimicrobianos. Método: Para alcançar este objetivo as seguintes etapas foram realizadas: i) foi validado o método analítico de HPLC-fluorescência para quantificação de CIP em amostras de plasma e microdialisado; ii) foram estabelecidas as condições para microdiálise para o CIP e as taxas de recuperação in vitro, por diálise e retrodiálise, e em tecido pulmonar e prostático in vivo por retrodiálise; iii) foi avaliada a farmacocinética do LEV após administração a ratos Wistar via i.v. bolus e por nebulização intratraqueal na dose de 7mg/kg na ausência e após administração prévia de TAR (15 mg/Kg i.v.); iv) foi desenvolvido um modelo popPK para prever as concentrações do LEV simultaneamente no plasma, pulmão e próstata após administração intravenosa e intratraqueal na presença e ausência do TAR; v) foi desenvolvido o modelo popPK para descrever as concentrações de CIP simultaneamente no plasma, pulmão e próstata após administração a ratos Wistar da dose de 7 mg/kg i.v. bolus na presença e ausência de TAR (15 mg/kg i.v.); vi) Para ambos os fármacos os dados foram avaliados por análise não-compartimental e modelados por modelo de quatro compartimentos modificado, com ajuda do software NONMEN®. Resultados e Conclusões. i) Método analítico foi desenvolvido e validado com sucesso para quantificação de CIP em HPLC/fluorescência mostrando-se linear na faixa de 10–2000 ng/mL em plasma e 5–1000 ng/mL em microdialisado com coeficientes de determinação (r2) superiores a 0,99. Os valores obtidos de erro padrão relativo para ensaios de precisão intra e inter-dia foram entre 8,8 e 6,0 %, para microdialisado entre 11,1 e 7,4 % para plasma, respectivamente. Os valores de exatidão foram 86,1% entre 114.3% para microdialisado e 85,6% entre 108,2% para plasma; ii) A avaliação do CIP por microdiálise mostrou recuperação concentração independente (0,25 - 1,5 μg/mL). Além disso, não houve diferença entre as recuperações obtidas por diálise e retrodiálise para o mesmo fluxo. No fluxo selecionado para os experimentos (1,5 μL/min) as recuperações médias por diálise e retrodiálise foram 23,0 ± 2,8% e 22,8 ± 1,6 %, respectivamente. A recuperação relativa das sondas in vivo foi de 11,3 ± 1,9 e 13,1 ± 2,7 % para pulmão e próstata, respectivamente; iii) A análise dos perfis plasmáticos e teciduais LEV após dose intravenosa do grupo controle (sem TAR) mostrou boa penetração tecidual na próstata (ƒT = 0,68) e no pulmão (ƒT = 0,69). Para a mesma via de administração, o grupo TAR mostrou uma penetração praticamente inalterada para o pulmão (ƒT = 0,81) e um aumento de mais de 2 vezes na penetração prostática (ƒT= 1,64). Na dose intratraqueal houve um aumento significativo na biodisponibilidade para o grupo TAR (F = 0,86) em relação ao controle (F = 0,4). Nessa via de administração foi detectado um aumento significativo na exposição (ASC) do pulmão ao LEV no grupo TAR demonstrando que o transporte por efluxo no pulmão é mais relevante quando o fármaco é administrado pela via intratraqueal; iv) Para o LEV, o modelo popPK de quatro compartimentos foi capaz de descrever simultaneamente os dados no plasma, pulmão e próstata na presença e ausência do TAR. Além disso, o modelo para administração intravenosa foi estendido e adaptado para administração intratraqueal. Foi possível analisar o impacto do transporte por efluxo sobre a penetração tecidual do LEV por diferentes vias de administração utilizando o modelo popPK; v) A avaliação do perfil farmacocinético plasmático do CIP após administração intravenosa, na presença e ausência de TAR, demonstrou diferença significativa entre todos os parâmetros calculados por análise não-compartimental, exceto para a constante de velocidade de eliminação (= 0,05). Em relação à penetração tecidual do CIP na próstata e pulmão, não houve alteração significativa nos parâmetros de eliminação e exposição tecidual do fármaco na presença do inibidor de efluxo TAR ( = 0,05), demonstrando que o transporte por efluxo possui papel minoritário no processo de distribuição do fármaco para os tecidos estudados. O modelo popPK de quatro compartimentos foi capaz de descrever as concentrações plasmáticas totais, livres no pulmão e próstata em presença e ausência de TAR, simultaneamente; vi) O modelo popPK desenvolvido permitiu o estudo mais profundo do processo de distribuição do LEV e do CIP no pulmão e próstata. / Objectives: The aim of this study was to develop a population pharmacokinetic model (popPK) able to simultaneously describe fluoroquinolones (levofloxacin – LEV and ciprofloxacin – CIP) concentrations in plasma, lung and prostate in the presence and absence of the inhibitor of P-gp tariquidar (TAR) to determine the contribution of this efflux transporter on the tissue distribution of these antimicrobials. Methods: To achieve this goal the following steps were taken: i) An analytical method by HPLC-fluorescence was developed and validated for CIP analysis in plasma and microdialysate samples; ii) microdialysis conditions were established for CIP including determination of in vitro relative recovery by dialysis and retrodialysis. The relative recovery was also determined in vivo, in lung and prostate, by retrodialysis; iii) LEV pharmacokinetics was evaluated after intravenous (i.v.) bolus and intratracheal (i.t.) administration of 7 mg/kg dose alone and following TAR administration (15 mg/kg i.v.) to Wistar rats; iv) a popPK model was developed to describe and predict LEV concentrations in plasma, lung and prostate following i.v. and i.t. dosing with and without TAR co-administration; v) the popPK model developed was used to describe CIP concentrations in plasma, lung and prostate after i.v. bolus administration of 7 mg/kg in presence and absence of TAR; vi) For both drugs non-compartmental analysis was performed besides data modeling by four compartment model using NONMEN®. Results and Conclusions i) The analytical method was developed and successfully validated for quantification of CIP by HPLC/fluorescence. The method was linear in the range of 10-2000 ng/mL in plasma and 5-1000 ng/mL in tissues microdialysate samples with coefficients of determination (r2) higher than 0.99. The relative standard error (RSD) obtained for intra and inter-day precision were lower than 8.8% and 6.0% for microdialysate and lower than 11.1 and 7.4% for plasma, respectively. The accuracy was 86.1% to 114.3% for microdialysate and 85.6 to 108.2 % for plasma samples; ii) the evaluation of CIP microdialysis probes relative recovery in vitro showed that the recovery was concentration independent (0.25 to 1.5 μg/mL). In addition, there was no statistical difference between the recoveries determined by dialysis and retrodialysis at the same flow rate. Using the selected flow rate (1.5 μL/min) the recoveries by dialysis and retrodialysis were 23.0 ± 2.8% and 22.8 ± 1.6%, respectively. CIP relative recoveries in vivo by retrodialysis were 11.3 ± 1.9 and 13.1 ± 2.7% for lung and prostate, respectively; iii) the analysis of LEV plasma and tissues concentration-time profiles after i.v. dosing showed a good tissue penetration of LEV in the prostate (ƒT = 0.68) and lung (ƒT = 0.69). For the same route of administration, TAR group showed virtually the same penetration into lung (ƒT = 0.81) and an increase of over 2 fold in drug levels in prostate (ƒT = 1.64). For the i.t. dose, there was a significant increase on LEV bioavailability for TAR group (F = 0.86) compared to control (F = 0.4). Furthermore, a significant increase was detected on lung exposure to LEV for TAR group indicating that efflux transport in the lung is more relevant when the drug is administered by the i.t. route; iv) For LEV, a four compartment model was able to describe the data simultaneously in plasma, lung and prostate in the presence and absence of TAR. Moreover, the intravenous model was extended to adapt the intratracheal dosing route. The popPK model allowed to analyze the impact of efflux transport on tissue LEV penetration of different routes of administration; v) the evaluation of plasma CIP profiles after i.v. dosing with and without TAR showed a significant difference in all parameters determined by non-compartmental analysis in the TAR group, except the elimination rate constant (α = 0.05). The CIP tissue penetration in prostate and lung, no significant difference was observed in tissues exposure and elimination rate when TAR was present demonstrating that efflux transporter play a minor role on CIP distribution to tissues investigated (α = 0.05). The popPK model with four compartments was able to describe CIP concentrations in plasma, lung and prostate in the presence and absence of TAR, simultaneously; vi) the popPK model developed allowed a more detailed investigation of LEV and CIP distribution process in lung and prostate.

Fluoroquinolonas

Farmacocinética

Fluoroquinolones

Pharmacokinetic

Efflux transporters

PopPK modeling

Microdialysis

Modelagem farmacocinética populacional na avaliação do papel da glicoproteína-P na penetração tecidual de fluoroquinolonas / Population pharmacokinetic modeling on evaluation of role P-glycoprotein on fluoroquinolones tissue penetration

Zimmermann, Estevan Sonego

January 2015

Objetivos: O objetivo deste trabalho foi desenvolver modelo farmacocinético (popPK) populacional para descrever simultaneamente as concentrações das fluoroquinolonas (levofloxacino – LEV e ciprofloxacino – CIP) no plasma, pulmão e próstata na presença e ausência do inibidor da P-gp tariquidar (TAR) visando determinar a contribuição desse transportador de efluxo na distribuição tecidual desses antimicrobianos. Método: Para alcançar este objetivo as seguintes etapas foram realizadas: i) foi validado o método analítico de HPLC-fluorescência para quantificação de CIP em amostras de plasma e microdialisado; ii) foram estabelecidas as condições para microdiálise para o CIP e as taxas de recuperação in vitro, por diálise e retrodiálise, e em tecido pulmonar e prostático in vivo por retrodiálise; iii) foi avaliada a farmacocinética do LEV após administração a ratos Wistar via i.v. bolus e por nebulização intratraqueal na dose de 7mg/kg na ausência e após administração prévia de TAR (15 mg/Kg i.v.); iv) foi desenvolvido um modelo popPK para prever as concentrações do LEV simultaneamente no plasma, pulmão e próstata após administração intravenosa e intratraqueal na presença e ausência do TAR; v) foi desenvolvido o modelo popPK para descrever as concentrações de CIP simultaneamente no plasma, pulmão e próstata após administração a ratos Wistar da dose de 7 mg/kg i.v. bolus na presença e ausência de TAR (15 mg/kg i.v.); vi) Para ambos os fármacos os dados foram avaliados por análise não-compartimental e modelados por modelo de quatro compartimentos modificado, com ajuda do software NONMEN®. Resultados e Conclusões. i) Método analítico foi desenvolvido e validado com sucesso para quantificação de CIP em HPLC/fluorescência mostrando-se linear na faixa de 10–2000 ng/mL em plasma e 5–1000 ng/mL em microdialisado com coeficientes de determinação (r2) superiores a 0,99. Os valores obtidos de erro padrão relativo para ensaios de precisão intra e inter-dia foram entre 8,8 e 6,0 %, para microdialisado entre 11,1 e 7,4 % para plasma, respectivamente. Os valores de exatidão foram 86,1% entre 114.3% para microdialisado e 85,6% entre 108,2% para plasma; ii) A avaliação do CIP por microdiálise mostrou recuperação concentração independente (0,25 - 1,5 μg/mL). Além disso, não houve diferença entre as recuperações obtidas por diálise e retrodiálise para o mesmo fluxo. No fluxo selecionado para os experimentos (1,5 μL/min) as recuperações médias por diálise e retrodiálise foram 23,0 ± 2,8% e 22,8 ± 1,6 %, respectivamente. A recuperação relativa das sondas in vivo foi de 11,3 ± 1,9 e 13,1 ± 2,7 % para pulmão e próstata, respectivamente; iii) A análise dos perfis plasmáticos e teciduais LEV após dose intravenosa do grupo controle (sem TAR) mostrou boa penetração tecidual na próstata (ƒT = 0,68) e no pulmão (ƒT = 0,69). Para a mesma via de administração, o grupo TAR mostrou uma penetração praticamente inalterada para o pulmão (ƒT = 0,81) e um aumento de mais de 2 vezes na penetração prostática (ƒT= 1,64). Na dose intratraqueal houve um aumento significativo na biodisponibilidade para o grupo TAR (F = 0,86) em relação ao controle (F = 0,4). Nessa via de administração foi detectado um aumento significativo na exposição (ASC) do pulmão ao LEV no grupo TAR demonstrando que o transporte por efluxo no pulmão é mais relevante quando o fármaco é administrado pela via intratraqueal; iv) Para o LEV, o modelo popPK de quatro compartimentos foi capaz de descrever simultaneamente os dados no plasma, pulmão e próstata na presença e ausência do TAR. Além disso, o modelo para administração intravenosa foi estendido e adaptado para administração intratraqueal. Foi possível analisar o impacto do transporte por efluxo sobre a penetração tecidual do LEV por diferentes vias de administração utilizando o modelo popPK; v) A avaliação do perfil farmacocinético plasmático do CIP após administração intravenosa, na presença e ausência de TAR, demonstrou diferença significativa entre todos os parâmetros calculados por análise não-compartimental, exceto para a constante de velocidade de eliminação (= 0,05). Em relação à penetração tecidual do CIP na próstata e pulmão, não houve alteração significativa nos parâmetros de eliminação e exposição tecidual do fármaco na presença do inibidor de efluxo TAR ( = 0,05), demonstrando que o transporte por efluxo possui papel minoritário no processo de distribuição do fármaco para os tecidos estudados. O modelo popPK de quatro compartimentos foi capaz de descrever as concentrações plasmáticas totais, livres no pulmão e próstata em presença e ausência de TAR, simultaneamente; vi) O modelo popPK desenvolvido permitiu o estudo mais profundo do processo de distribuição do LEV e do CIP no pulmão e próstata. / Objectives: The aim of this study was to develop a population pharmacokinetic model (popPK) able to simultaneously describe fluoroquinolones (levofloxacin – LEV and ciprofloxacin – CIP) concentrations in plasma, lung and prostate in the presence and absence of the inhibitor of P-gp tariquidar (TAR) to determine the contribution of this efflux transporter on the tissue distribution of these antimicrobials. Methods: To achieve this goal the following steps were taken: i) An analytical method by HPLC-fluorescence was developed and validated for CIP analysis in plasma and microdialysate samples; ii) microdialysis conditions were established for CIP including determination of in vitro relative recovery by dialysis and retrodialysis. The relative recovery was also determined in vivo, in lung and prostate, by retrodialysis; iii) LEV pharmacokinetics was evaluated after intravenous (i.v.) bolus and intratracheal (i.t.) administration of 7 mg/kg dose alone and following TAR administration (15 mg/kg i.v.) to Wistar rats; iv) a popPK model was developed to describe and predict LEV concentrations in plasma, lung and prostate following i.v. and i.t. dosing with and without TAR co-administration; v) the popPK model developed was used to describe CIP concentrations in plasma, lung and prostate after i.v. bolus administration of 7 mg/kg in presence and absence of TAR; vi) For both drugs non-compartmental analysis was performed besides data modeling by four compartment model using NONMEN®. Results and Conclusions i) The analytical method was developed and successfully validated for quantification of CIP by HPLC/fluorescence. The method was linear in the range of 10-2000 ng/mL in plasma and 5-1000 ng/mL in tissues microdialysate samples with coefficients of determination (r2) higher than 0.99. The relative standard error (RSD) obtained for intra and inter-day precision were lower than 8.8% and 6.0% for microdialysate and lower than 11.1 and 7.4% for plasma, respectively. The accuracy was 86.1% to 114.3% for microdialysate and 85.6 to 108.2 % for plasma samples; ii) the evaluation of CIP microdialysis probes relative recovery in vitro showed that the recovery was concentration independent (0.25 to 1.5 μg/mL). In addition, there was no statistical difference between the recoveries determined by dialysis and retrodialysis at the same flow rate. Using the selected flow rate (1.5 μL/min) the recoveries by dialysis and retrodialysis were 23.0 ± 2.8% and 22.8 ± 1.6%, respectively. CIP relative recoveries in vivo by retrodialysis were 11.3 ± 1.9 and 13.1 ± 2.7% for lung and prostate, respectively; iii) the analysis of LEV plasma and tissues concentration-time profiles after i.v. dosing showed a good tissue penetration of LEV in the prostate (ƒT = 0.68) and lung (ƒT = 0.69). For the same route of administration, TAR group showed virtually the same penetration into lung (ƒT = 0.81) and an increase of over 2 fold in drug levels in prostate (ƒT = 1.64). For the i.t. dose, there was a significant increase on LEV bioavailability for TAR group (F = 0.86) compared to control (F = 0.4). Furthermore, a significant increase was detected on lung exposure to LEV for TAR group indicating that efflux transport in the lung is more relevant when the drug is administered by the i.t. route; iv) For LEV, a four compartment model was able to describe the data simultaneously in plasma, lung and prostate in the presence and absence of TAR. Moreover, the intravenous model was extended to adapt the intratracheal dosing route. The popPK model allowed to analyze the impact of efflux transport on tissue LEV penetration of different routes of administration; v) the evaluation of plasma CIP profiles after i.v. dosing with and without TAR showed a significant difference in all parameters determined by non-compartmental analysis in the TAR group, except the elimination rate constant (α = 0.05). The CIP tissue penetration in prostate and lung, no significant difference was observed in tissues exposure and elimination rate when TAR was present demonstrating that efflux transporter play a minor role on CIP distribution to tissues investigated (α = 0.05). The popPK model with four compartments was able to describe CIP concentrations in plasma, lung and prostate in the presence and absence of TAR, simultaneously; vi) the popPK model developed allowed a more detailed investigation of LEV and CIP distribution process in lung and prostate.

Fluoroquinolonas

Farmacocinética

Fluoroquinolones

Pharmacokinetic

Efflux transporters

PopPK modeling

Microdialysis

Withanolide D Exhibits Similar Cytostatic Effect in Drug-Resistant and Drug-Sensitive Multiple Myeloma Cells

Issa, Mark E., Wijeratne, E. M. K., Gunatilaka, A. A. L., Cuendet, Muriel

08 September 2017

In spite of recent therapeutic advances, multiple myeloma (MM) remains a malignancy with very low curability. This has been partly attributed to the existence of a drug-resistant subpopulation known as cancer stem cells (CSCs). MM-CSCs are equipped with the necessary tools that render them highly resistant to virtually all conventional therapies. In this study, the growth inhibitory effects of withanolide D (WND), a steroidal lactone isolated from Withania somnifera, on drug-sensitive tumoral plasma cells and drug-resistant MM cells have been investigated. In MTT/XTT assays, WND exhibited similar cytostatic effects between drug-resistant and drug-sensitive cell lines in the nM range. WND also induced cell death and apoptosis in MM-CSCs and RPMI 8226 cells, as examined by the calcein/ethidium homodimer and annexin V/propidium iodide stainings, respectively. To determine whether P-glycoprotein (P-gp) efflux affected the cytostatic activity of WND, P-gp was inhibited with verapamil and results indicated that the WND cytostatic effect in MM-CSCs was independent of P-gp efflux. Furthermore, WND did not increase the accumulation of the fluorescent P-gp substrate rhodamine 123 in MM-CSCs, suggesting that WND may not inhibit P-gp at the tested relevant doses. Therefore, the WND-induced cytostatic effect may be independent of P-gp efflux. These findings warrant further investigation of WND in MM-CSC animal models.

withanolide D

multiple myeloma cancer stem cells

resistance

efflux transporters

P-glycoprotein

Hodnocení antiproliferačního efektu vybraných inhibitorů tyrosinkinas na buněčných liniích MDCKII / Evaluation of antiproliferative effect of selected tyrosine kinase inhibitors in MDCKII cell lines

Vagiannis, Dimitrios

January 2017

4 ABSTRACT Charles University Faculty of Pharmacy in Hradec Králové Department of Pharmacology and Toxicology Candidate: Dimitrios Vagiannis Supervisor: RNDr. Jakub Hofman, Ph.D. Title of diploma thesis: Evaluation of antiproliferative effect of selected tyrosine kinase inhibitors in MDCKII cell lines Tyrosine kinases are important enzymes regulating crucial cellular processes including differentiation, proliferation, apoptosis, transcription, metabolism, and intercellular communication. Deregulation of these enzymes is the cause of various types of cancers. The blockade of their function by tyrosine kinase inhibitors (TKis) is considered a promising approach especially in antitumor pharmacotherapy. ATP-binding cassette (ABC) drug efflux transporters are a family of transmembrane proteins that pump a variety of structurally unrelated compounds out of the cell in an energy-dependent manner. They play an important role in pharmacokinetics (affect absorption, distribution, elimination) and, at the same time, can negatively influence efficacy of chemotherapy (participate in multidrug resistance phenomenon). In our research, we evaluated antiproliferative properties of four selected TKis, namely alectinib, brivanib, osimertinib and selumetinib, in MDCKII cell lines (parent one and those transduced with human...

Flow-cytometrická analýza inhibičního vlivu nových cílených léčiv na aktivitu ABC lékových efluxních transportérů / Flow-cytometric analysis of inhibitory effect of novel targeted drugs on the activity of ABC drug efflux transporters

Burianová, Gabriela

January 2020

Charles University Faculty of Pharmacy in Hradec Kralove Department of Pharmacology & Toxicology Student: Gabriela Burianova Supervisor: RNDr. Jakub Hofman, Ph.D. Title of diploma thesis: Flow-cytometric analysis of inhibitory effect of novel targeted drugs on the activity of ABC drug efflux transporters Cancer is the second leading cause of death. Cancer treatment often combines conventional chemotherapy, radiation therapy and surgery. More recent approach to treatment is the use of targeted cancer therapy with a greater specificity towards cancer cells. Development of resistance is a major obstacle in the success of chemotherapy. Multidrug resistance (MDR) can be acquired through various mechanisms e.g. overexpression of efflux transporters. ATP binding cassette (ABC) transporters represents a large family of transmembrane proteins that use ATP to pump molecules across the membrane. The three main ABC proteins related to MDR are: P-glycoprotein (ABCB1), multidrug resistance-associated protein 1 (ABCC1) and breast cancer resistance protein (ABCG2). Use of ABC transporter inhibitors increases the amount of chemotherapeutical substrates accumulated within the cells. In this study we evaluated interactions of six synthetic small molecule inhibitors (alisertib, ensartinib, entrectinib, talazoparib,...

Studium interakcí PARP inhibitorů s ABC lékovými efluxními transportéry / Study on interactions of PARP inhibitors with ABC drug efflux transporters

Dziaková, Lucia

January 2020

Charles University Faculty of Pharmacy in Hradec Králové Department of Pharmacology & Toxicology Student: Lucia Dziaková Supervisor: RNDr. Jakub Hofman, Ph.D. Title of diploma thesis: Study on interactions of PARP inhibitors with ABC drug efflux transporters. ATP-binding cassette (ABC) transporters are integral membrane proteins that use the energy obtained from ATP to carry transport of numerous endogenous substrances out of the cells, but attention is drawn primarily to the fact that they transfer also xenobiotics. Their overexpression in tumor tissue contributes to multidrug resistance (MDR), which in most cases leads to therapy failure. Poly(ADP-ribose)polymerase inhibitors (PARPi) represent a promising therapeutic approach in the treatment of cancers that exhibit defects in homologous recombination (HR). This work focuses on four selected PARPi (olaparib, rucaparib, niraparib, veliparib) and their interaction potential towards ABC drug efflux transporters (ABCB, ABCC1, ABCG2). In our work, we worked with MDCKII cells (parent, transduced by the transporters of interest) and utilized the principle of accumulation studies based on the measurement of fluorescence intensity of specific model substrates (hoechst33342, calcein AM, daunorubicin, mitoxantrone). We used established inhibitors of studied...

Stanovení inhibičního vlivu vybraných cílených protinádorových léčiv na aktivitu ABC lékových efluxních transportérů / The assessment of inhibitory effects of selected targeted anticancer drugs on the activity of ABC drug efflux transporters

Jurčáková, Júlia

January 2021

Charles University Faculty of Pharmacy in Hradec Králové Department of Pharmacology & Toxicology Student: Júlia Jurčáková Supervisor: RNDr. Jakub Hofman PhD. Title of diploma thesis: The assessment of inhibitory effects of selected targeted anticancer drugs on the activity of ABC drug eflux trasporters. Lung cancer is the leading cause of death within oncological diseases. Non-small cell lung carcinoma (NSCLC) accounts for about 85% of all lung cancer, and its major subtypes include adenocarcinoma and squamous cell carcinoma. In addition to surgery, radiotherapy and chemotherapy, the use of targeted low-molecular substances, which target tumor cells with higher specificity, has recently been used in treatment. The two main causes of death in cancer patients are the formation of metastases and the development of multidrug resistance (MDR). This may also be caused by overexpression of the efflux transporters. ATP-binding cassette (ABC) transporters are groups of transmembrane pumps that use energy in the form of ATP to transfer a wide range of substrates. In particular, P-glycoprotein (ABCB1), breast cancer-resistance protein (ABCG2) and multidrug resistance-associated protein 1 (ABCC1) are associated with MDR. Inhibition of these transporters increases the amount of cytostatic substrate within the...

Studium vlivu vybraných inhibitorů tyrozinkináz na mnohočetnou lékovou rezistenci zprostředkovanou ABC lékovými efluxními transportéry / Study on impact of selected tyrosine kinase inhibitors on multidrug resistance mediated by ABC drug efflux transporters

Sýkorová, Martina

January 2019

Charles University Faculty of Pharmacy in Hradec Králové Department of Pharmacology & Toxicology Student: Martina Sýkorová Supervisor: RNDr. Jakub Hofman, Ph.D. Title of diploma thesis: Study on impact of selected tyrosine kinase inhibitors on multidrug resistance mediated by ABC drug efflux transporters Tyrosine kinases are an important class of enzymes controlling cell proliferation, carcinogenesis, apoptosis and cell differentiation. Deregulation of these enzymes can transform normal cell into a cancerous one. Blocking their function by tyrosine kinase inhibitors (TKi) is considered a promising treatment for various types of cancer. ATP-binding cassette (ABC) transporters form a family of transmembrane proteins that can transport a wide variety of substrates across biological membranes via ATP-dependent drug efflux pumps. They modulate drug pharmacokinetics, but on the other hand, lead to therapy failure due to overexpression in cancer cells. In our previous study, we evaluated inhibition properties of two selected TKi (alectinib, brivanib) in MDCKII cell lines (parent one and those transduced with human ABCB1, ABCC1 and ABCG2). Alectinib significantly inhibited ABCB1, ABCG2 but not ABCC1 transporter. Brivanib showed triple inhibition of all studied transporters. In the present work, we...

Study of the antiepileptic drugs transport through the immature blood-brain barrier / Etude du passage des médicaments antiépileptiques à travers la barrière hémato-encéphalique

Viana Soares, Ricardo

08 October 2015

La résistance aux médicaments antiépileptiques (MAEs) est un des problèmes majeurs des épilepsies infantiles, comme par exemple le syndrome de Dravet. La pharmacoresistance de l’épilepsie pourrait s’expliquer par une diminution du passage des MAEs dans le cerveau, à travers la Barrière Hémato-Encéphalique (BHE). La BHE comporte des transporteurs des familles « ATP-binding cassette » (ABC) et « SoLute Carrier » (SLC) localisés au niveau de la membrane des cellules endothéliales qui contrôlent leur passage entre le sang et le cerveau. La pharmacoresistance des épilepsies a été associée à ces transporteurs car des MAEs ont été identifiés comme substrats de transporteurs comme la glycoprotéine-P (P-gP) et la « Breast Cancer Resistance Protein » (BCRP). L’hypothèse de cette relation est confortée par l’observation de l’augmentation de l’expression de ces transporteurs d’efflux dans le foyer épileptogène et par l’identification des polymorphismes dans les gènes des transporteurs chez des patients pharmacorésistants. L’interaction au cours du développement cérébral entre les cellules endothéliales et les neurones et astrocytes pourrait modifier le profil des transporteurs de la BHE. Les MAEs sont aussi connus pour être soit des inducteurs, soit des inhibiteurs des enzymes du métabolisme des médicaments et des transporteurs membranaires. Ces données nous permettent de faire les hypothèses suivantes: 1) La BHE en développement présente un profil de transporteurs différent de la BHE mature qui pourrait modifier le passage des MAEs vers le cerveau ; et 2) le traitement chronique administré au cours du syndrome de Dravet pourrait changer le phénotype des transporteurs de la BHE en développement. Nous résultats ont montré que la P-gP et la BCRP augment leur expression au cours du développement. La maturation de la BHE a aussi un impact sur le passage des MAEs étudiés. Nous avons constaté une augmentation de l’expression des différents transporteurs ABC et SLC étudiés pendant le développement de la BHE, suite au traitement chronique avec la thérapie du Syndrome de Dravet. L’acide valproïque, un des MAEs utilisé dans ce traitement, diminue l’activité d’efflux de la P-gP chez les rats en développement et adultes, ce qui a été confirmé dans un modèle in-vitro de BHE immature. Ces résultats mettent en évidence l’interaction entre la BHE en développement et le traitement chronique par les MAEs peut modifier leur distribution au niveau du cerveau et la réponse aux MAEs. / Resistance to Antiepileptic Drugs (AEDs) has been a major concern in infantile epilepsies such as for example the Dravet Syndrome. One hypothesis concerning the pharmacoresistance in epilepsy is that a decreased delivery of these drugs to the brain may occur in relation to changes in the Blood-Brain Barrier (BBB) function. BBB exhibits ATP-binding cassette (ABC) and SoLute Carrier (SLC) transporters at the surface of endothelial cells that control the blood-brain transport. Pharmacoresistance in epilepsy may be linked to changes in the functions of these transporters since some AEDs are substrates of the P-glycoprotein (P-gP) and Breast Cancer Resistance Protein (BCRP) transporters. The increased expression of efflux transporters in epileptogenic tissue and the identification of polymorphisms in the efflux transporters genes of resistant patients further support this potential relationship. The interaction of endothelial cells with astrocytes and neurons during brain development could change the pattern of transporters in the BBB. AEDs are also known as either inducers or inhibitors of drug metabolic enzymes and membrane transporters. Taken together, these facts led us to test the following hypothesis: 1) the developing BBB in immature animals presents a different pattern of transporters that could change AEDs disposition in the brain of immature subjects; and 2) the chronic pharmacotherapy used in infantile epilepsies such as the Dravet Syndrome may change the transporters phenotype of the BBB. Our work showed that the expression of P-gP and BCRP increases during development as a function of age. We also showed the maturation of the BBB has an impact on brain disposition of the studied AEDs. We finally observed an increase in the expression of various ABC and SLC transporters induced by the pharmacotherapy of the Dravet Syndrome in immature animals. One of the drugs used, valproic acid, appeared nonetheless to reduce the efflux activity of P-gP in developing and adult animals, which was confirmed in an in-vitro model of the immature BBB. Taken together, these results demonstrated that the interaction between the developing BBB and the AEDs chronic treatment may lead to differences in brain disposition of the AEDs that may impact on the response to AEDs.

Pharmacorésistance

Médicaments antiépileptiques

Syndrome de Dravet

Barrière hémato-encéphalique

Transporteurs d’efflux

Pharmacoresistance

Antiepileptic drugs

Dravet syndrome

Blood-brain barrier

Efflux transporters

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