In Situ Biochemical Demonstration that P-Glycoprotein Is a Drug Efflux Pump with Broad Specificity

doi:10.1083/jcb.148.5.863

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© The Rockefeller University Press, 0021-9525/2000/3/863/ $5.00
The Journal of Cell Biology, Volume 148, Number 5, March 6, 2000 863-870

Brief Reports

In Situ Biochemical Demonstration that P-Glycoprotein Is a Drug Efflux Pump with Broad Specificity

Yu Chen^a and Sanford M. Simon^a
^a Laboratory of Cellular Biophysics, Rockefeller University, New York 10021

Correspondence to: Sanford M. Simon, Laboratory of Cellular Biophysics, Rockefeller University, Box 304, 1230 York Avenue, New York, NY 10021. Tel:(212) 327-8030 Fax:(212) 217-7543 E-mail:simon{at}rockefeller.edu.

While P-glycoprotein (Pgp) is the most studied protein involvedin resistance to anti-cancer drugs, its mechanism of actionis still under debate. Studies of Pgp have used cell lines selectedwith chemotherapeutics which may have developed many mechanismsof resistance. To eliminate the confounding effects of drugselection on understanding the action of Pgp, we studied cellstransiently transfected with a Pgp-green fluorescent protein(GFP) fusion protein. This method generated a mixed populationof unselected cells with a wide range of Pgp-GFP expressionlevels and allowed simultaneous measurements of Pgp level anddrug accumulation in living cells. The results showed that Pgp-GFPexpression was inversely related to the accumulation of chemotherapeuticdrugs. The reduction in drug concentration was reversed by agentsthat block multiple drug resistance (MDR) and by the UIC2 anti-Pgpantibody. Quantitative analysis revealed an inverse linear relationshipbetween the fluorescence of Pgp-GFP and MDR dyes. This suggeststhat Pgp levels alone limit drug accumulation by active efflux;cooperativity between enzyme, substrate, or inhibitor moleculesis not required. Additionally, Pgp-GFP expression did not changecellular pH. Our study demonstrates the value of using GFP fusionproteins for quantitative biochemistry in living cells.

Key Words: multiple drug resistance, green fluorescent protein, ATP cassette-bindingproteins, chemotherapy, membrane transport

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