The unique proline-rich domain of parotid proline-rich proteins functions in secretory sorting

• Published in: Journal of cell science Vol. 109 ( Pt 6); no. 6; pp. 1637 - 1645
• Main Authors: Stahl, L E, Wright, R L, Castle, J D, Castle, A M
• Format: Journal Article
• Language: English
• Published: England 01.06.1996
• Subjects: Animals; Binding Sites - genetics; Cell Line; Endoplasmic Reticulum - metabolism; Membrane Glycoproteins; Mice; Molecular Structure; Mutagenesis, Site-Directed; Parathyroid Hormone - genetics; Parathyroid Hormone - metabolism; Parotid Gland - metabolism; Peptides - chemistry; Peptides - genetics; Peptides - metabolism; Proline - chemistry; Proline-Rich Protein Domains; Protein Precursors - genetics; Protein Precursors - metabolism; Protein Processing, Post-Translational; Protein Sorting Signals - chemistry; Protein Sorting Signals - genetics; Protein Sorting Signals - metabolism; Recombinant Proteins - chemistry; Recombinant Proteins - genetics; Recombinant Proteins - metabolism; Transfection; Viral Envelope Proteins - genetics; Viral Envelope Proteins - metabolism
• ISSN: 0021-9533; 1477-9137
• DOI: 10.1242/jcs.109.6.1637

When expressed in pituitary AtT-20 cells, parotid proline-rich proteins enter the regulated pathway. Because the short N-terminal domain of a basic proline-rich protein is necessary for efficient export from the ER, it has not been possible to evaluate the role of this polypeptide segment as a sorting signal for regulated secretion. We now show that addition of the six-amino acid propeptide of proparathyroid hormone to the proline-rich protein, and especially to a deletion mutant lacking the N-terminal domain, dramatically accelerates intracellular transport of these polypeptides. Under these conditions the chimeric deletion mutant is stored as effectively as the full-length protein in dense core granules. The propeptide does not function as a sorting signal in AtT-20 cells as it does not reroute a constitutively secreted reporter protein to the regulated pathway. During transit, the propeptide is cleaved from the chimeric polypeptides such that the original structures of the full-length and the deletion mutant proline-rich proteins are reestablished. We have also found that the percentage stimulated secretion of the proline-rich proteins increases incrementally (almost twofold) as their level of expression is elevated. The increase reflects an enrichment of these polypeptides in the granule pool and its incremental nature suggests that sorting of proline-rich proteins involves an aggregation-based process. Because we can now rule out contributions to sorting by both N- and C-terminal segments of the proline-rich protein, we deduce that the unique proline-rich domain is responsible for storage. Thus at least some of the determinants of sorting for regulated secretion are protein-specific rather than universal.