Substitution at Pro385 of GLUT1 perturbs the glucose transport function by reducing conformational flexibility.

The mammalian glucose transporter, GLUT1, is capable of alternating between two conformations which expose either an outward- or inward-facing ligand binding site. The possibility that these conformational changes are related to the presence of prolines and glycines in transmembrane region 10 was investigated by site-directed mutagenesis. Chinese hamster ovary clones which were transfected with Pro385-->Ile and Pro385-->glycine mutations of GLUT1 were shown, by Western blotting and cell surface carbohydrate labelling, to have expression levels which were comparable with the wild type. The transport activity was markedly reduced as a result of the Pro385-->isoleucine but not in the Pro385-->glycine mutation. The loss of transport activity in the Pro385-->isoleucine clone was associated with loss of labeling by the exofacial photoaffinity ligand, 2-N-4-(1-azi-2,2,2-trifluoroethyl)benzoyl-1,3-bis(D-mannos-4 -yloxy)-2- propylamine (ATB-BMPA), but there was no loss in labeling by the inside site-directed ligand cytochalasin B. These results suggest that the transporter cannot adopt the outward-directed conformation in the Pro385-->isoleucine clone. By contrast, the glycine substitution for proline at this position resulted in a retention of the ligand binding properties at both inside and outside sites. We suggest a putative mode of operation of the transporter which involves conformational flexibility about the prolines in transmembrane segment 10 such that helices 11 and 12 can alternately either pack against the outside (ATB-BMPA binding) site in helices 7, 8, and 9 or against the inner (cytochalasin B binding) site at the base of transmembrane segment 10.