Abstract
Neurons and endocrine cells have the regulated secretory pathway (RSP) in which precursor proteins undergo proteolytic processing by prohormone convertase (PC) 1/3 or 2 to generate bioactive peptides. Although motifs for PC-mediated processing have been described ((R/K)X(n)(R/K) where n = 0, 2, 4, or 6), actual processing sites cannot be predicted from amino acid sequences alone. We hypothesized that discovery of bioactive peptides would be facilitated by experimentally identifying signal peptide cleavage sites and processing sites. However, in vivo and in vitro peptide degradation, which is widely recognized in peptidomics, often hampers processing site determination. To obtain sequence information about peptides generated in the RSP on a large scale, we applied a brief exocytotic stimulus (2 min) to cultured endocrine cells and analyzed peptides released into supernatant using LC-MSMS. Of note, 387 of the 400 identified peptides arose from 19 precursor proteins known to be processed in the RSP, including nine peptide hormone and neuropeptide precursors, seven granin-like proteins, and three processing enzymes (PC1/3, PC2, and peptidyl-glycine alpha-amidating monooxygenase). In total, 373 peptides were informative enough to predict processing sites in that they have signal sequence cleavage sites, PC consensus sites, or monobasic cleavage sites. Several monobasic cleavage sites identified here were previously proved to be generated by PCs. Thus, our approach helps to predict processing sites of RSP precursor proteins and will expedite the identification of unknown bioactive peptides hidden in precursor sequences.
Highlights
Neurons and endocrine cells have the regulated secretory pathway (RSP) in which precursor proteins undergo proteolytic processing by prohormone convertase (PC) 1/3 or 2 to generate bioactive peptides
In the medium conditioned by TT cells for 2 min, 36 peptides were identified from 13 precursors of which 30 peptides arose from nine secretory proteins including four peptide hormone precursors (CT/calcitonin gene-related peptide (CGRP), gastrinreleasing peptide (GRP), and SST), four granin-like proteins (chromogranin A (CgA), chromogranin B (CgB), secretogranin III (SgIII), and VGF), and the processing enzyme PC2 (Fig. 2 and Table I)
The most outstanding finding in the present study is that an exocytotic stimulus applied to cultured endocrine cells is highly effective in identifying secretory peptides
Summary
Neurons and endocrine cells have the regulated secretory pathway (RSP) in which precursor proteins undergo proteolytic processing by prohormone convertase (PC) 1/3 or 2 to generate bioactive peptides. In the medium conditioned by TT cells for 2 min, 36 peptides were identified from 13 precursors of which 30 peptides arose from nine secretory proteins including four peptide hormone precursors (CT/CGRP, gastrinreleasing peptide (GRP), and SST), four granin-like proteins (chromogranin A (CgA), chromogranin B (CgB), secretogranin III (SgIII), and VGF), and the processing enzyme PC2 (Fig. 2 and Table I). Investigation of Cleavage Sites through Identified Peptides—Regarding the processing of peptide hormone precursors, it has long been known that PC1/3 or PC2 cleaves the precursors at sites containing consecutive basic amino acids following N-terminal signal peptide cleavage [1, 2].
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