Release of the cellular prion protein from cultured cells after loss of its glycoinositol phospholipid anchor

Secreted forms of the sialoglycoprotein designated cellularprion protein (PrP^C) have been identified that cannot be explainedby alternative splicing. We report that secreted forms of PrP^Cderive from precursors that are bound to the plasma membraneby glycoinositol phospholipid (GPI) anchors. Secreted PrP^C slowlyappeared in the culture medium of metabolically radiolabelledcells after incubations of 8—24 h. Digestion of nascentPrP^C with phosphatidylinositol-specific phospholipase C (PIPLC)prevented the appearance of secreted PrP^C. Secreted PrP^c partitionedinto the aqueous phase of Triton X–114 like PIPLC-releasedPrP^C. While the M_r of PIPLC-released PrP^C was reduced 2–4kDa after treatment with aqueous hydroflouric acid, which removesthe entire GPI anchor modification, the M_r of secreted PrP^Cwas unchanged. Both PIPLC-released and secreted PrP^c were recognizedby antiserum raised against a synthetic C-terminal peptide correspondingto residues 220–233 (amino acid 231 is the site of GPIattachment). We conclude that GPI-anchored PrP^C is post-translationallyprocessed to remove most, if not all, of the GPI modificationand then shed into culture medium. Whether PrP^C is shed afterproteolysis near the C-terminus remains to be established. Aminority of PrP^C in normal Syrian hamster brain partitionedinto the aqueous phase of Triton X–114 like shed PrP^Csuggesting physiological significance. post-translational prion protein secretion sialoglycoprotein