Analysis of the Association of Syncollin with the Membrane of the Pancreatic Zymogen Granule

Syncollin is a pancreatic zymogen granule protein that was isolated through its ability to bind to syntaxin. Here we show that syncollin has a cleavable signal sequence and can be removed from granule membranes by washing with sodium carbonate. When membranes were subjected to Triton X-114 partition...

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Veröffentlicht in:	The Journal of biological chemistry 2000-04, Vol.275 (15), p.11306-11311
Hauptverfasser:	An, Seong J., Hansen, Neal J., Hodel, Alois, Jahn, Reinhard, Edwardson, J.Michael
Format:	Artikel
Sprache:	eng
Schlagworte:	Amino Acid Sequence Animals Carrier Proteins - chemistry Carrier Proteins - physiology Disulfides - analysis Enzyme Precursors - chemistry Hydrogen-Ion Concentration Membrane Proteins - chemistry Membrane Proteins - physiology Membranes - chemistry Mice Molecular Sequence Data Pancreas - chemistry Rabbits Trypsin - pharmacology
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container_title	The Journal of biological chemistry
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creator	An, Seong J. Hansen, Neal J. Hodel, Alois Jahn, Reinhard Edwardson, J.Michael
description	Syncollin is a pancreatic zymogen granule protein that was isolated through its ability to bind to syntaxin. Here we show that syncollin has a cleavable signal sequence and can be removed from granule membranes by washing with sodium carbonate. When membranes were subjected to Triton X-114 partitioning, syncollin was found predominantly in the aqueous phase, indicating that it is not sufficiently hydrophobic to be embedded in the membrane. Syncollin has intramolecular disulfide bonds and was accessible to water-soluble cross-linking and biotinylating reagents only when granules were lysed by sonication. These results indicate that syncollin is tightly bound to the luminal surface of the granule membrane. In situ, syncollin was resistant to proteases such as trypsin. When granule membranes were solubilized in ionic detergents such as deoxycholate, this trypsin resistance was maintained, and syncollin migrated on sucrose density gradients as a large (150 kDa) protein. In contrast, in non-ionic detergents such as Triton X-100, syncollin became partially sensitive to trypsin and behaved as a monomer. Syncollin in alkaline extracts of granule membranes was also monomeric. However, reduction of the pH regenerated the oligomeric form, which was insoluble. We conclude that syncollin exists as a homo-oligomer and that its ability to self-associate can be reversibly modulated via changes in pH. In light of our findings, we reassess the likely role of syncollin in the pancreatic acinar cell.
doi_str_mv	10.1074/jbc.275.15.11306
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In contrast, in non-ionic detergents such as Triton X-100, syncollin became partially sensitive to trypsin and behaved as a monomer. Syncollin in alkaline extracts of granule membranes was also monomeric. However, reduction of the pH regenerated the oligomeric form, which was insoluble. We conclude that syncollin exists as a homo-oligomer and that its ability to self-associate can be reversibly modulated via changes in pH. 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In contrast, in non-ionic detergents such as Triton X-100, syncollin became partially sensitive to trypsin and behaved as a monomer. Syncollin in alkaline extracts of granule membranes was also monomeric. However, reduction of the pH regenerated the oligomeric form, which was insoluble. We conclude that syncollin exists as a homo-oligomer and that its ability to self-associate can be reversibly modulated via changes in pH. 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subjects	Amino Acid Sequence Animals Carrier Proteins - chemistry Carrier Proteins - physiology Disulfides - analysis Enzyme Precursors - chemistry Hydrogen-Ion Concentration Membrane Proteins - chemistry Membrane Proteins - physiology Membranes - chemistry Mice Molecular Sequence Data Pancreas - chemistry Rabbits Trypsin - pharmacology
title	Analysis of the Association of Syncollin with the Membrane of the Pancreatic Zymogen Granule
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