scholarly journals The Role of Dibasic Residues in Prohormone Sorting to the Regulated Secretory Pathway

2000 ◽  
Vol 276 (9) ◽  
pp. 6140-6150 ◽  
Author(s):  
Sylvain Feliciangeli ◽  
Patrick Kitabgi ◽  
Jean-Noël Bidard
Keyword(s):  
Secretory Pathway ◽  
Regulated Secretory Pathway

scholarly journals Passive Sorting in Maturing Granules of AtT-20 Cells: The Entry and Exit of Salivary Amylase and Proline-rich Protein

1997 ◽  
Vol 138 (1) ◽  
pp. 45-54 ◽  
Author(s):  
Anna M. Castle ◽  
Amy Y. Huang ◽  
J. David Castle
Keyword(s):  
Secretory Pathway ◽  
Critical Role ◽  
Endogenous Hormones ◽  
Salivary Amylase ◽  
Regulated Secretion ◽  
J 13 ◽  
Regulated Secretory Pathway ◽  
Granule Maturation ◽  
Proline Rich Protein

Previous studies have suggested that salivary amylase and proline-rich protein are sorted differently when expressed in AtT-20 cells (Castle, A.M., L.E. Stahl, and J.D. Castle. 1992. J. Biol. Chem. 267:13093– 13100; Colomer, V., K. Lal, T.C. Hoops, and M.J. Rindler. 1994.EMBO (Eur. Mol. Biol. Organ.) J. 13:3711– 3719). We now show that both exocrine proteins behave similarly and enter the regulated secretory pathway as judged by immunolocalization and secretagogue- dependent stimulation of secretion. Analysis of stimulated secretion of newly synthesized proline-rich protein, amylase, and endogenous hormones indicates that the exogenous proteins enter the granule pool with about the same efficiency as the endogenous hormones. However, in contrast to the endogenous hormones, proline-rich protein and amylase are progressively removed from the granule pool during the process of granule maturation such that only small portions remain in mature granules where they colocalize with the stored hormones. The exogenous proteins that are not stored are recovered from the incubation medium and are presumed to have undergone constitutive-like secretion. These results point to a level of sorting for regulated secretion after entry of proteins into forming granules and indicate that retention is essential for efficient storage. Consequently, the critical role of putative sorting receptors for regulated secretion may be in retention rather than in granule entry.

Prohormone transport through the secretory pathway of neuroendocrine cells

2000 ◽  
Vol 78 (3) ◽  
pp. 289-298 ◽  
Author(s):  
Roland P Kuiper ◽  
Gerard JM Martens
Keyword(s):  
Secretory Pathway ◽  
Potential Role ◽  
Protein Transport ◽  
Secretory Granules ◽  
Secretory Protein ◽  
Neuroendocrine Cells ◽  
Secretory Proteins ◽  
Regulated Secretory Pathway ◽  
Made In

En route through the secretory pathway of neuroendocrine cells, prohormones pass a series of membrane-bounded compartments. During this transport, the prohormones are sorted to secretory granules and proteolytically cleaved to bioactive peptides. Recently, progress has been made in a number of aspects concerning secretory protein transport and sorting, particularly with respect to transport events in the early regions of the secretory pathway. In this review we will deal with some of these aspects, including: i) selective exit from the endoplasmic reticulum via COPII-coated vesicles and the potential role of p24 putative cargo receptors in this process, ii) cisternal maturation as an alternative model for protein transport through the Golgi complex, and iii) the mechanisms that may be involved in the sorting of regulated secretory proteins to secretory granules. Although much remains to be learned, interesting new insights into the functioning of the secretory pathway have been obtained.Key words: regulated secretory pathway, p24 family, vesicular transport, POMC, protein sorting, secretory granule, Xenopus laevis.

scholarly journals Transport via the regulated secretory pathway in semi-intact PC12 cells: role of intra-cisternal calcium and pH in the transport and sorting of secretogranin II.

1994 ◽  
Vol 127 (3) ◽  
pp. 693-705 ◽  
Author(s):  
L Carnell ◽  
H P Moore
Keyword(s):  
Pc12 Cells ◽  
Secretory Pathway ◽  
Secretory Granules ◽  
Ph Gradients ◽  
Secretogranin Ii ◽  
Prohormone Processing ◽  
Endoproteolytic Cleavage ◽  
Regulated Secretory Pathway ◽  
Gamma S

To gain insight into the mechanisms governing protein sorting, we have developed a system that reconstitutes both the formation of immature secretory granules and their fusion with the plasma membrane. Semi-intact PC12 cells were incubated with ATP and cytosol for 15 min to allow immature granules to form, and then in a buffer containing 30 microM [Ca2+]free to induce exocytosis. Transport via the regulated pathway, as assayed by the release of secretogranin II (SgII) labeled in the TGN, was inhibited by depletion of ATP, or by the inclusion of 100 microM GTP gamma S, 50 microM AlF3-5 or 5 micrograms/ml BFA. When added after immature granules had formed, GTP gamma S stimulated rather than inhibited exocytosis. Thus, exocytosis of immature granules in this system resembles the characteristics of fully matured granules. Transport of SgII via the regulated pathway occurred at a fourfold higher efficiency than glycosaminoglycan chains, indicating that SgII is sorted to some extent upon exit from the TGN. Addition of A23187 to release Ca2+ from the TGN had no significant effect on sorting of SgII into immature granules. In contrast, depletion of lumenal calcium inhibited the endoproteolytic cleavage of POMC and proinsulin. These results establish the importance of intra-cisternal Ca2+ in prohormone processing, but raise the question whether lumenal calcium is required for proper sorting of SgII into immature granules. Disruption of organelle pH gradients with an ionophore or a weak base resulted in the inhibition of transport via both the constitutive and the regulated pathways.

scholarly journals Somatostatin is targeted to the regulated secretory pathway of gonadotrophs in transgenic mice expressing a metallothionein-somatostatin gene.

1986 ◽  
Vol 261 (34) ◽  
pp. 16260-16263
Author(s):  
M J Low ◽  
P J Stork ◽  
R E Hammer ◽  
R L Brinster ◽  
M J Warhol ◽  
...  
Keyword(s):  
Transgenic Mice ◽  
Secretory Pathway ◽  
Regulated Secretory Pathway

scholarly journals amontillado, the Drosophila Homolog of the Prohormone Processing Protease PC2, Is Required During Embryogenesis and Early Larval Development

Genetics ◽  
2003 ◽  
Vol 163 (1) ◽  
pp. 227-237 ◽  
Author(s):  
Lowell Y M Rayburn ◽  
Holly C Gooding ◽  
Semil P Choksi ◽  
Dhea Maloney ◽  
Ambrose R Kidd ◽  
...  
Keyword(s):  
Larval Development ◽  
Secretory Pathway ◽  
Larval Growth ◽  
Peptide Hormones ◽  
Complementation Group ◽  
Prohormone Processing ◽  
Complementation Groups ◽  
Regulated Secretory Pathway ◽  
Processing Protease ◽  
Larval Molt

Abstract Biosynthesis of most peptide hormones and neuropeptides requires proteolytic excision of the active peptide from inactive proprotein precursors, an activity carried out by subtilisin-like proprotein convertases (SPCs) in constitutive or regulated secretory pathways. The Drosophila amontillado (amon) gene encodes a homolog of the mammalian PC2 protein, an SPC that functions in the regulated secretory pathway in neuroendocrine tissues. We have identified amon mutants by isolating ethylmethanesulfonate (EMS)-induced lethal and visible mutations that define two complementation groups in the amon interval at 97D1 of the third chromosome. DNA sequencing identified the amon complementation group and the DNA sequence change for each of the nine amon alleles isolated. amon mutants display partial embryonic lethality, are defective in larval growth, and arrest during the first to second instar larval molt. Mutant larvae can be rescued by heat-shock-induced expression of the amon protein. Rescued larvae arrest at the subsequent larval molt, suggesting that amon is also required for the second to third instar larval molt. Our data indicate that the amon proprotein convertase is required during embryogenesis and larval development in Drosophila and support the hypothesis that AMON acts to proteolytically process peptide hormones that regulate hatching, larval growth, and larval ecdysis.

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