Abstract
P-glycoprotein (Pgp) is a tandemly duplicated plasma membrane protein containing 12 predicted transmembrane (TM) segments and two cytoplasmic ATP-binding domains. Pgp appears to be responsible for multi-drug resistance in cancer cells. A detailed knowledge of the topological structure of Pgp will be required for understanding its mechanism of action. Previously, we have investigated the membrane orientation of Pgp using a cell free translation/translocation system supplemented with canine pancreatic microsomal membranes. We observed unexpectedly that the C-terminal half of the Pgp molecules was present in two different topological orientations (Zhang, J.-T., and Ling, V. (1991) J. Biol. Chem. 266, 18224-18232). In the present study, using a similar approach, we have investigated in detail the topological structure of the N-terminal half of the Pgp molecule. Again, two orientations were observed. One has all six predicted TM segments in the membrane bilayer, the other has only four TM segments in the bilayer with predicted TM3 and TM5 in a cytoplasmic and extracellular location, respectively. Although the primary sequence of Pgp appears to be a tandem duplication, the new topological structure of N-terminal half is not a simple tandem duplication of that in the C-terminal half. Thus it appears that the insertion and orientation of Pgp TM segments are dictated by specific localized sequences. These results, together with our previous findings, raise the possibility that Pgp in the native membrane may be present in different topological orientations and this feature may be important for its function.
Highlights
P-glycoprotein (Pgp)is a tandemly duplicated plasma domain (Chen et al, 1986; Gros et al, 1986; Gerlach et al, membrane protein containing 12 predicted transmem- 1986)
P-glycoprotein (Pgp)’ is a polytopic membrane protein which is responsible for multidrug resistance of cancer cells.Analyses of protein sequences deduced from cDNAs suggest that Pgp is composed of two tandem homologous halves with each consisting of a hydrophobic and a hydrophilic tions; and 3) in a significant proportion of newly synthesized molecules, the predicted TM8 and TMlO located within the C-terminal half of Pgp are not membrane-integrated
P-glycoprotein is a polytopic plasma membrane protein thought to function as anenergy-dependent drug efflux pump of broad specificity (Endicott and Ling, 1989)
Summary
The Predicted T M l and TM2 Segments Are Linked by a Glycosylated Extracellular Loop-Analysis of the protein sequence of the Chinese hamster pgpl Pgp showed that there are three potential N-linked glycosylation sites on the predicted extracellular loop linking TM1 andTM2. The size difference (-8 kDa) between the glycosylated (lane I ) andthe deglycosylated peptides (lane J ) suggests that all the three potential glycosylation sites were modifiedby N-linked glycosylationassuming the calculated size of each high mannose core is -2.5 kDa (Zhang andLing, 1991).This is consistent with our previous studies on the mouse mdrl Pgp which has three N-linked oligosaccharidechains on the first predicted extracellular loop (Zhang and Ling, 1991).
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