Abstract

Mouse mammary tumor virus (MMTV) proteins are synthesized as two major precursor polyproteins; gPr75 env containing gp52 and gp36, and Pr75 gag containing p27, pp20, p14, and p10. The gene order for gPr75 env has been previously shown to be H 2N-gp52-gp36-COOH (Schochetman, et al., 1977). gag polyproteins undergo intracellular cleavage in cat cells infected with MMTV and GR mammary tumor cells. Based on immunoprecipitation studies with antisera against intermediate MMTV cleavage products we now report the gene order for Pr75 gag is H 2N-p10-pp20-p27-p14-COOH. These results were further substantiated by analyzing the binding to ssDNA of the intermediate cleavage products which contain p14. To analyze the interaction of MMTV proteins with the cell membrane leading to budding of a virus particle, we used (i) lactoperoxidase-catalyzed iodination of MMTV cell surface proteins, (ii) galactose oxidase-catalyzed radiolabeling of carbohydrates on cell surface MMTV glycoproteins, (iii) serum cytotoxicity based on [ 51Cr] release with monospecific MMTV antisera, and (iv) membrane immunofluorescence with monospecific MMTV antisera. Analysis of 125I-labeled MMTV cell surface antigens by immune precipitation with MMTV anti-gp52, gp36, p27, p14, and p10 sera followed by SDS-PAGE revealed only 125I-gp52. In contrast, cell surface glycoprotein labeling revealed [ 3H]gp52 and [ 3H]gp36, indicating that, although the protein portion of gp36 was buried, some carbohydrate regions were exposed. EDTA treatment of cells to alter cell membranes prior to iodination resulted in the labeling of both Pr75 gag and gp52 but not gPr75 env . Furthermore, anti-p10 but not anti-p27 serum was cytotoxic against EDTA-treated cells. Similar results were obtained when the same antisera were tested by membrane immunofluorescence, ruling out the possibility that anti-p27 serum was not cytotoxic because it was unable to fix complement. These results show that Pr75 gag molecules, presumably as MMTV cores, interact with cell membrane sites containing gp52 and gp36 via the hydrophobic p10 portion of the molecule.

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