DNA-mediated gene transfer of a human cell surface 170-kilodalton glycoprotein. Evidence for association with an endogenous murine protein.
Academic Article
Overview
abstract
We have previously reported the identification and characterization of two related human cell surface protein complexes, very common antigens 1 and 2 (VCA-1, VCA-2) (Kantor, R. R. S., Mattes, M. J., Lloyd, K. O., Old, L. J., and Albino, A. P. (1987) J. Biol. Chem. 262, 15158-15165). We now report the transfection of DNA sequences encoding the 170-kilodalton heterodimer of VCA-2 from human SK-RC-41 renal cancer cells to B78H1 mouse melanoma cells. B78H1 cells were cotransfected with high molecular weight renal cancer DNA and a plasmid vector containing the neomycin resistance gene. Antibiotic-resistant transfectants were screened for the expression of the 170-kDa heterodimer with mouse monoclonal antibody (mAb) J143. Analysis of mAb J143-positive (J143+) transfectants showed that they expressed a 170-kDa heterodimer with an identical molecular weight, isoelectric point, two-dimensional peptide map, and spatial orientation of surface-exposed epitopes to the homologous 170-kDa species seen in human donor cells. The 170-kDa heterodimer in SK-RC-41 cells is associated with a 140-kDa (designated 140(1] polypeptide to form the VCA-2 complex. The 170-kDa complex and the 140(1)-kDa polypeptides are encoded by genes located on different human chromosomes. J143+ transfectants display a molecule of 140 kDa associated with the 170-kDa complex which is biochemically similar, but non-identical, to the human 140(1)-kDa polypeptide on VCA-2. This evidence supports our interpretation that the transfected human 170-kDa heterodimer associates with a murine counterpart of the human 140(1)-kDa polypeptide in J143+ transfectants.
