Abstract
Secretogranin II (SgII) is a protein specific to the matrix of the secretory granules in neurons and neuroendocrine cells. We have already demonstrated the precursor-product relationship between sulfated SgII and four N-terminal derived peptides in GH3B6 prolactin cells. In this study, we have investigated the subcellular compartment in which the cleavage of SgII is initiated by taking advantage of its tyrosine sulfation in the trans-Golgi network (TGN). In order to prevent export of radiosulfated SgII from the TGN, we used brefeldin A (BFA) as well as incubation at 20 degrees C. BFA completely inhibited the cleavage of SgII when added immediately post-pulse. BFA added a few minutes post-pulse or after a 20 degrees C incubation, however, permitted the cleavage of SgII in the presence of the drug. These SgII-derived peptides generated in the presence of BFA could not be released upon stimulation of the cells by either thyroliberin, a physiological secretagogue, or KCl. These results demonstrate that SgII can be cleaved in the TGN. They also evidence that the cleavage occurs in a distal compartment of the TGN different from the sulfation site. The transfer of SgII from the sulfation site to this distal compartment of the TGN involves BFA-sensitive membrane dynamics.
Highlights
Bioactive peptides and hormones secreted by neurons and neuroendocrine cells are synthesized as precursors that must undergo post-translational processing before their release
In this study we investigated the proteolytic processing of endogenous secretogranin II (SgII) in GH3B6 prolactin cells
Using brefeldin A (BFA) and 20 °C incubations, we were able to demonstrate that sulfated SgII is cleaved in the trans-Golgi network (TGN) of GH3B6 cells
Summary
Bioactive peptides and hormones secreted by neurons and neuroendocrine cells are synthesized as precursors that must undergo post-translational processing before their release. The terminal sulfated fragment is a 21-kDa protein that is accumulated in the secretory granules and released upon stimulation by thyroliberin (TRH), a prolactin secretagogue, or KCl. The processing of SgII is fast, and more than 70% of mature SgII is cleaved 30 min after a 5-min pulse with [35S]sulfate [19].
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