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Vol. 54, Issue 4, 623-630, October 1998
Laboratory of Cell Biology (T.S., S.Z., S.D, M.M.G.) and
Laboratory
of Molecular Biology (I.P.), Division of Basic Sciences, National
Cancer Institute, National Institutes of Health, Bethesda, Maryland
20892
Human P-glycoprotein (Pgp) confers multidrug resistance (MDR) to
otherwise sensitive cells. The homologous mouse Pgps, which are encoded
by mouse mdr1a (also known as mdr3) and
mdr1b (also known as mdr1), confer
different degrees of resistance to the same MDR drugs and inhibitors.
To create recombinants for the study of sequences responsible for these
differences in drug-resistance, chimeric cDNA libraries can be
constructed by homologous recombination of pools of related sequences.
This mutagenesis approach is called DNA shuffling. To select for
chimeric Pgp with an altered resistance profile, DNA shuffling between
the homologous but not identical drug interacting transmembrane domains
5 and 6 of human MDR1 and mouse mdr1a was
used. The chimeric proteins were expressed in human KB-3-1 cells. One
recombinant Pgp (clone 3-4) with a novel phenotype was analyzed in
detail. Inhibitors of Pgp, including verapamil and cyclosporin A, were
less effective in reversing resistance of the chimeric Pgp compared
with wild-type Pgp, for certain drugs. However,
[125I]iodoarylazidoprazosin photoaffinity labeling
of the chimeric Pgp and its binding competition with cyclosporin A,
showed that cyclosporin A competed for the photoaffinity labeling. The
chimeric Pgp cells stained less well with human-specific anti-Pgp mAb
MRK16 than wild-type Pgp, despite having the described epitopes for MRK16. Staining with human-specific mAb UIC2 was increased when the
chimeric protein was compared with wild-type Pgp. These results suggest
an alteration in exposure of human Pgp specific epitopes in this
chimeric Pgp, as well as a change in the interaction of reversing
agents with the chimeric protein.
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