BBB transport and P-glycoprotein functionality using MDR1A (-/-) and wild-type mice. Total brain versus microdialysis concentration profiles of rhodamine-123

ECM de Lange; G de Bock; AH Schinkel; AG de Boer; DD Breimer

BBB transport and P-glycoprotein functionality using MDR1A (-/-) and wild-type mice. Total brain versus microdialysis concentration profiles of rhodamine-123

ECM de Lange^*, G de Bock, AH Schinkel, AG de Boer, DD Breimer

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

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Abstract

Purpose. The effect of P-glycoprotein (Pgp) on brain distribution using mdr1a (-/-) mice was investigated.

Methods. Fluorescein (Flu) and FD-4 were used to check whether blood-brain barrier (BBB) integrity was maintained in mdr1a (-/-) mice. The Pgp substrate rhodamine-123 (R123) was infused and total brain, blood and brain microdialysate concentrations in mdr1a (-/-) mice and wild-type mice were compared.

Results. Maintenance of BBB integrity was indicated by equal total brain/blood ratios of Flu and FD-4 in both mice types. R123 concentrations in brain after i.v. infusion were about 4-fold higher in mdr1a (-/-) than in wild-type mice (P <0.05), without changes in blood levels. After microdialysis experiments the same results were found, excluding artifacts in the interpretation of Pgp functionality by the use of this technique. However the 4-fold ratio in brain was not reflected in corresponding microdialysates. No local differences of R123 in the brain were found. By the no-net-flux method in vivo recovery appeared to 4.6-fold lower in mdr1a (-/-) mice compared with wild-type mice.

Conclusions. Pgp plays an important role in R123 distribution into the brain. Using intracerebral microdialysis, changes in in vivo recovery by the absence or inhibition of Pgp (or active efflux in general) need to be considered carefully.

Original language	English
Pages (from-to)	1657-1665
Number of pages	9
Journal	Pharmaceutical Research
Volume	15
Issue number	11
Publication status	Published - Nov-1998

Keywords

intracerebral microdialysis
blood-brain barrier
mdr1a (-/-) mice
in vivo recovery
rhodamine-123
P-glycoprotein
CAPILLARY ENDOTHELIAL-CELLS
MULTIDRUG-RESISTANCE
INTRACEREBRAL MICRODIALYSIS
RAT-BRAIN
CYCLOSPORINE-A
BARRIER
DRUGS
PERMEABILITY
LOCALIZATION
EXPRESSION

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@article{c8597563f1e542298fea5b0e2a7b3e48,

title = "BBB transport and P-glycoprotein functionality using MDR1A (-/-) and wild-type mice. Total brain versus microdialysis concentration profiles of rhodamine-123",

abstract = "Purpose. The effect of P-glycoprotein (Pgp) on brain distribution using mdr1a (-/-) mice was investigated.Methods. Fluorescein (Flu) and FD-4 were used to check whether blood-brain barrier (BBB) integrity was maintained in mdr1a (-/-) mice. The Pgp substrate rhodamine-123 (R123) was infused and total brain, blood and brain microdialysate concentrations in mdr1a (-/-) mice and wild-type mice were compared.Results. Maintenance of BBB integrity was indicated by equal total brain/blood ratios of Flu and FD-4 in both mice types. R123 concentrations in brain after i.v. infusion were about 4-fold higher in mdr1a (-/-) than in wild-type mice (P <0.05), without changes in blood levels. After microdialysis experiments the same results were found, excluding artifacts in the interpretation of Pgp functionality by the use of this technique. However the 4-fold ratio in brain was not reflected in corresponding microdialysates. No local differences of R123 in the brain were found. By the no-net-flux method in vivo recovery appeared to 4.6-fold lower in mdr1a (-/-) mice compared with wild-type mice.Conclusions. Pgp plays an important role in R123 distribution into the brain. Using intracerebral microdialysis, changes in in vivo recovery by the absence or inhibition of Pgp (or active efflux in general) need to be considered carefully.",

keywords = "intracerebral microdialysis, blood-brain barrier, mdr1a (-/-) mice, in vivo recovery, rhodamine-123, P-glycoprotein, CAPILLARY ENDOTHELIAL-CELLS, MULTIDRUG-RESISTANCE, INTRACEREBRAL MICRODIALYSIS, RAT-BRAIN, CYCLOSPORINE-A, BARRIER, DRUGS, PERMEABILITY, LOCALIZATION, EXPRESSION",

author = "{de Lange}, ECM and {de Bock}, G and AH Schinkel and {de Boer}, AG and DD Breimer",

year = "1998",

month = nov,

language = "English",

volume = "15",

pages = "1657--1665",

journal = "Pharmaceutical Research",

issn = "0724-8741",

publisher = "SPRINGER/PLENUM PUBLISHERS",

number = "11",

}

TY - JOUR

T1 - BBB transport and P-glycoprotein functionality using MDR1A (-/-) and wild-type mice. Total brain versus microdialysis concentration profiles of rhodamine-123

AU - de Lange, ECM

AU - de Bock, G

AU - Schinkel, AH

AU - de Boer, AG

AU - Breimer, DD

PY - 1998/11

Y1 - 1998/11

N2 - Purpose. The effect of P-glycoprotein (Pgp) on brain distribution using mdr1a (-/-) mice was investigated.Methods. Fluorescein (Flu) and FD-4 were used to check whether blood-brain barrier (BBB) integrity was maintained in mdr1a (-/-) mice. The Pgp substrate rhodamine-123 (R123) was infused and total brain, blood and brain microdialysate concentrations in mdr1a (-/-) mice and wild-type mice were compared.Results. Maintenance of BBB integrity was indicated by equal total brain/blood ratios of Flu and FD-4 in both mice types. R123 concentrations in brain after i.v. infusion were about 4-fold higher in mdr1a (-/-) than in wild-type mice (P <0.05), without changes in blood levels. After microdialysis experiments the same results were found, excluding artifacts in the interpretation of Pgp functionality by the use of this technique. However the 4-fold ratio in brain was not reflected in corresponding microdialysates. No local differences of R123 in the brain were found. By the no-net-flux method in vivo recovery appeared to 4.6-fold lower in mdr1a (-/-) mice compared with wild-type mice.Conclusions. Pgp plays an important role in R123 distribution into the brain. Using intracerebral microdialysis, changes in in vivo recovery by the absence or inhibition of Pgp (or active efflux in general) need to be considered carefully.

AB - Purpose. The effect of P-glycoprotein (Pgp) on brain distribution using mdr1a (-/-) mice was investigated.Methods. Fluorescein (Flu) and FD-4 were used to check whether blood-brain barrier (BBB) integrity was maintained in mdr1a (-/-) mice. The Pgp substrate rhodamine-123 (R123) was infused and total brain, blood and brain microdialysate concentrations in mdr1a (-/-) mice and wild-type mice were compared.Results. Maintenance of BBB integrity was indicated by equal total brain/blood ratios of Flu and FD-4 in both mice types. R123 concentrations in brain after i.v. infusion were about 4-fold higher in mdr1a (-/-) than in wild-type mice (P <0.05), without changes in blood levels. After microdialysis experiments the same results were found, excluding artifacts in the interpretation of Pgp functionality by the use of this technique. However the 4-fold ratio in brain was not reflected in corresponding microdialysates. No local differences of R123 in the brain were found. By the no-net-flux method in vivo recovery appeared to 4.6-fold lower in mdr1a (-/-) mice compared with wild-type mice.Conclusions. Pgp plays an important role in R123 distribution into the brain. Using intracerebral microdialysis, changes in in vivo recovery by the absence or inhibition of Pgp (or active efflux in general) need to be considered carefully.

KW - intracerebral microdialysis

KW - blood-brain barrier

KW - mdr1a (-/-) mice

KW - in vivo recovery

KW - rhodamine-123

KW - P-glycoprotein

KW - CAPILLARY ENDOTHELIAL-CELLS

KW - MULTIDRUG-RESISTANCE

KW - INTRACEREBRAL MICRODIALYSIS

KW - RAT-BRAIN

KW - CYCLOSPORINE-A

KW - BARRIER

KW - DRUGS

KW - PERMEABILITY

KW - LOCALIZATION

KW - EXPRESSION

M3 - Article

SN - 0724-8741

VL - 15

SP - 1657

EP - 1665

JO - Pharmaceutical Research

JF - Pharmaceutical Research

IS - 11

ER -

BBB transport and P-glycoprotein functionality using MDR1A (-/-) and wild-type mice. Total brain versus microdialysis concentration profiles of rhodamine-123

Abstract

Keywords

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