On a biophysical and mathematical model of Pgp-mediated multidrug resistance: Understanding the "space-time" dimension of MDR

Vasiliki Panagiotopoulou; Giles Richardson; Oliver E. Jensen; Cyril Rauch

doi:10.1007/s00249-009-0555-5

On a biophysical and mathematical model of Pgp-mediated multidrug resistance: Understanding the "space-time" dimension of MDR

Vasiliki Panagiotopoulou, Giles Richardson, Oliver E. Jensen, Cyril Rauch

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

Abstract

Multidrug resistance (MDR) is explained by drug transporters with a drug-handling activity. Despite much work, MDR remains multifaceted, and several conditions are required to generate drug resistance. The drug pumping was conceptually described using a kinetic, i.e., temporal, approach. The re-emergence of physical biology has allowed us to take into account new parameters focusing on the notion of space. This, in turn, has given us important clues regarding the process whereby drug and transporter interact. We will demonstrate that the likelihood of drug-transporter meeting (i.e., the affinity) and thus interaction are also driven by the mechanical interaction between drug molecular weight (MW) and the membrane mechanical properties. This should allow us to mechanically control drug delivery. © 2009 European Biophysical Societies' Association.

Original language	English
Pages (from-to)	201-211
Number of pages	10
Journal	European Biophysics Journal
Volume	39
Issue number	2
DOIs	https://doi.org/10.1007/s00249-009-0555-5
Publication status	Published - Jan 2010

Keywords

Drug delivery
Lipinski's second rule
Membrane
Multi-drug resistance
Pharmacokinetic
Physical biology

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10.1007/s00249-009-0555-5

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abstract = "Multidrug resistance (MDR) is explained by drug transporters with a drug-handling activity. Despite much work, MDR remains multifaceted, and several conditions are required to generate drug resistance. The drug pumping was conceptually described using a kinetic, i.e., temporal, approach. The re-emergence of physical biology has allowed us to take into account new parameters focusing on the notion of space. This, in turn, has given us important clues regarding the process whereby drug and transporter interact. We will demonstrate that the likelihood of drug-transporter meeting (i.e., the affinity) and thus interaction are also driven by the mechanical interaction between drug molecular weight (MW) and the membrane mechanical properties. This should allow us to mechanically control drug delivery. {\textcopyright} 2009 European Biophysical Societies' Association.",

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AU - Panagiotopoulou, Vasiliki

AU - Richardson, Giles

AU - Jensen, Oliver E.

AU - Rauch, Cyril

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AB - Multidrug resistance (MDR) is explained by drug transporters with a drug-handling activity. Despite much work, MDR remains multifaceted, and several conditions are required to generate drug resistance. The drug pumping was conceptually described using a kinetic, i.e., temporal, approach. The re-emergence of physical biology has allowed us to take into account new parameters focusing on the notion of space. This, in turn, has given us important clues regarding the process whereby drug and transporter interact. We will demonstrate that the likelihood of drug-transporter meeting (i.e., the affinity) and thus interaction are also driven by the mechanical interaction between drug molecular weight (MW) and the membrane mechanical properties. This should allow us to mechanically control drug delivery. © 2009 European Biophysical Societies' Association.

KW - Drug delivery

KW - Lipinski's second rule

KW - Membrane

KW - Multi-drug resistance

KW - Pharmacokinetic

KW - Physical biology

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On a biophysical and mathematical model of Pgp-mediated multidrug resistance: Understanding the "space-time" dimension of MDR

Abstract

Keywords

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