Key points are not available for this paper at this time.
Three antipeptide antibodies were prepared by immunizing rabbits with synthesized short peptides corresponding to residues 215-226, 466-479, and 478-492 predicted from the cDNA of both the human hepatoma HepG2 and rat brain glucose transporters. All three antibodies were found to precipitate quantitatively the 3Hcytochalasin B photoaffinity-labeled human erythrocyte glucose transporter. Each antibody also recognized the rat brain protein of Mr 45,000 on immunoblots, and a similar molecular weight protein was labeled with 3Hcytochalasin B in a D-glucose-inhibitable manner, suggesting that this protein is glucose transporter. However, only up to 30% of the labeled rat brain glucose transporters were precipitated, even by repeated rounds of immunoprecipitation. In addition, these antibodies were observed to be unable to immunoprecipitate significantly the 3Hcytochalasin B-labeled rat adipocyte glucose transporter. Further, one-dimensional peptide maps of 3Hcytochalasin B-labeled human erythrocyte and adipocyte glucose transporters generated distinct tryptic fragments. Although Mr 45,000 protein in rat adipocyte low density microsomes was detected on immunoblots and its amount was decreased in insulin-treated cells, the rat adipocyte low density microsomes were much less reactive on immunoblots than the rat brain membranes in spite of the fact that the rat adipocyte low density microsomes contained more 3Hcytochalasin B-labeled glucose transporters. In addition, the ratio of cytochalasin B-labeled glucose transporter per unit HepG2-type glucose transporter mRNA was more than 10-fold higher in rat adipocyte than in rat brain. These results indicate that virtually all the human erythrocyte glucose transporters are of the HepG2 type, whereas this type of glucose transporter constitutes only approximately 30 and 3% of all the glucose transporters present in rat brain and rat adipocyte, respectively; and the rest, of similar molecular weight, is expressed by a different gene.
Oka et al. (Thu,) studied this question.