Yazmin M. Rodriguez scite author profile

Neuropeptide precursors synthesized at the rough endoplasmic reticulum are transported and sorted at the trans-Golgi network (TGN) to the granules of the regulated secretory pathway (RSP) of neuroendocrine cells. They are then processed into active peptides and stored in large dense-core granules (LDCGs) until secreted upon stimulation. We have studied the regulation of biogenesis of the LDCGs and the mechanism by which neuropeptide precursors, such as pro-opiomelanocortin (POMC), are sorted into these LDCGs of the RSP in neuroendocrine and endocrine cells. We provide evidence that chromogranin A (CgA), one of the most abundant acidic glycoproteins ubiquitously present in neuroendocrine/endocrine cells, plays an important role in the regulation of LDCG biogenesis. Specific depletion of CgA expression by antisense RNAs in PC12 cells led to a profound loss of secretory granule formation. Exogenously expressed POMC was neither stored nor secreted in a regulated manner in these CgA-deficient PC12 cells. Overexpression of CgA in a CgA- and LDCG-deficient endocrine cell line, 6T3, restored regulated secretion of transfected POMC and the presence of immunoreactive CgA at the tips of the processes of these cells. Unlike CgA, CgB, another granin protein, could not substitute for the role of CgA in regulating LDCG biogenesis. Thus, we conclude that CgA is a key player in the regulation of the biogenesis of LDCGs in neuroendocrine cells. To examine the mechanism of sorting POMC to the LDCGs, we carried out site-directed mutagenesis, transfected the POMC mutants into PC12 cells, and assayed for regulated secretion. Our previous molecular modeling studies predicted a three-dimensional sorting motif in POMC that can bind to a sorting receptor, membrane carboxypeptidase E (CPE). The sorting signal consists of four conserved residues at the N-terminal loop structure of POMC: two acidic residues and two hydrophobic residues. The two acidic residues were predicted to bind to a domain on CPE (CPE254-273) containing two basic residues (R255 and K260) to effect sorting into immature secretory granules. Site-directed mutagenesis of the motif on POMC resulted in accumulation of the mutant in the Golgi, as well as high basal secretion, indicating that the mutant POMC was inefficiently sorted to the RSP. These results support the model that POMC is actively sorted to the RSP granules for processing and secretion by a sorting signal-mediated mechanism.

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Partial Redirection of Transgenic Human Growth Hormone Secretion from Rat Salivary Glands

Wang

Cawley

Voutetakis

et al. 2005

Human Gene Therapy

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Regulated secretory pathway proteins, when delivered as transgenes to salivary glands, are secreted predominantly into saliva. This is not useful for those proteins whose therapeutic function is required systemically, for example, human growth hormone (hGH). One strategy to improve the efficiency of hGH secretion into the bloodstream involves manipulation of existing sorting signals. The C terminus of hGH is highly conserved and contains a domain similar to the regulated pathway sorting domain of pro-opiomelanocortin (POMC). We hypothesized that, similar to POMC, mutation of this domain would divert hGH secretion from the regulated to the constitutive pathway, which in salivary glands leads to the bloodstream. Several mutations were made in the C terminus of the hGH cDNA and tested in vitro. One biologically active mutant containing E174A and E186A substitutions, and with an included C-terminal extension, was studied in greater detail. Compared with wild-type hGH, we found that this mutant hGH accumulated in the Golgi/trans-Golgi network and showed increased basal secretion in AtT20 cells, a model endocrine cell line. Importantly, in vivo, the mutant hGH displayed a relative increase in the proportion of constitutive pathway secretion seen from rat salivary glands, with a significantly lower saliva-versus-serum secretion ratio (p=0.03). Although this mutant is unlikely to be therapeutically beneficial, these results suggest that the final destination of a transgenic secretory protein may be controlled by reengineering its sorting determinants.

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Trafficking of Mutant Carboxypeptidase E to Secretory Granules in a β-Cell Line Derived from Cpefat/Cpefat Mice

Cawley

Rodriguez

Maldonado

et al. 2003

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We have reinvestigated the stability and intracellular routing of mutant carboxypeptidase E in NIT3 cells, a pancreatic beta-cell line derived from the Cpe(fat)/Cpe(fat) mouse. Pulse-chase experiments demonstrated that this protein has a half-life of approximately 3 h in these cells and that up to 45% of the proCPE(202) can escape degradation by the proteosome. In double-label immunofluorescence microscopy, a portion of the mutant CPE did not colocalize with calnexin, an endoplasmic reticulum marker, but was found in prohormone convertase 2-containing secretory granules, demonstrating that it had escaped degradation and arrived at a post-Golgi compartment. The mutant CPE as well as prohormone convertase 2 were secreted into the medium in a stimulated manner by treatment with the physiological secretagogue, glucagon-like peptide-1, consistent with its presence in granules of the regulated secretory pathway. The presence of mutant carboxypeptidase E in granules supports a potential role for its involvement as a sorting/retention receptor in the trafficking of proinsulin to the regulated secretory pathway.

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Synthesis and Characterization of the First Potent Inhibitor of Yapsin 1

Cawley

Chino

Maldonado

et al. 2003

Journal of Biological Chemistry

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The potent peptidic inhibitor, Y1, of the basic residuespecific yeast aspartyl protease, yapsin 1, was synthesized and characterized. The inhibitor was based on the peptide sequence of a cholecystokinin The apparent K i of Y1 for the inhibition of yapsin 1 was determined to be 64.5 nM, and the mechanism is competitive. Y2 was also developed as an analog of Y1 for coupling to agarose beads. The resulting inhibitor-coupled agarose beads were successfully used to purify yapsin 1 to apparent homogeneity from conditioned medium of a yeast expression system. Utilization of this new reagent greatly facilitates the purification of yapsin 1 and should also enable the identification of new yapsin-like enzymes from mammalian and nonmammalian sources. In this regard, Y1 also efficiently inhibited Sap9p, a secreted aspartyl protease from the human pathogen, Candida albicans, which has specificity for basic residues similar to yapsin 1 and might provide the basis for the prevention or control of its virulence. A single-step purification of Sap9p from conditioned medium was also accomplished with the inhibitor column. N-terminal amino acid sequence analysis yielded two sequences indicating that Sap9p is composed of two subunits, designated here as ␣ and ␤, similar to yapsin 1.

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