Gene/Protein
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Drug
Enzyme
Compound
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Target Concepts:
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Query: UNIPROT:P01189 (
beta-endorphin
)
21,003
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Neutral endopeptidase (NEP; EC 3.4.24.11) is an integral membrane protein found at the plasma membrane of many cell types. A secreted form of NEP (sec-NEP) was recently obtained by transfection of COS-1 cells with a recombinant expression vector consisting of the cDNA encoding the signal peptide of pro-
opiomelanocortin
fused in-frame to the cDNA sequence of the complete ectodomain of rabbit NEP [Lemay, Waksman, Roques, Crine & Boileau (1989) J. Biol. Chem. 264, 15620-15623]. In order to produce large quantities of this enzyme for structural studies we have expressed this recombinant soluble form of NEP at high yields using a baculovirus/insect-cell system. A recombinant Autographa californica nuclear polyhedrosis-virus genome containing the sec-NEP sequence was used to infect host Spodoptera frugiperda Sf9 cells. Infected cells secreted an N-glycosylated soluble form of neutral endopeptidase which was enzymically active. The yield was about 80 nmol of enzyme/litre of culture. The soluble form of the recombinant enzyme purified by immunoaffinity showed the same catalytic properties as the wild-type enzyme extracted from the kidney brush-border membranes. Treatment of the recombinant enzyme with
endo-beta-N-acetylglucosaminidase H
showed, however, that invertebrate cells did not glycosylate the enzyme to the same extent as did mammalian cells. Our findings demonstrate that insect cells can be used as hosts for the production of the soluble form of neutral endopeptidase. We also conclude that neither a full complement of carbohydrate side chains nor the membrane anchor appear to be essential for the production and targeting to the cell surface of a fully functional enzyme in this expression system.
...
PMID:Secretion of a functional soluble form of neutral endopeptidase-24.11 from a baculovirus-infected insect cell line. 159 10
Previous work demonstrated that newborn rat anterior pituitary corticotropes display processing patterns for pro-ACTH/endorphin that are different from the adult. The synthesis and release of
beta-endorphin
-related peptides was examined in dispersed cell and explant cultures of newborn anterior pituitary to investigate corticotrope development further. The temporal pattern of pro-ACTH/endorphin processing differed significantly from adult rat melanotropes and AtT-20 cells. While pro-ACTH/endorphin processing begins within 30 min of synthesis in adult melanotropes and AtT-20 cells, pulse-labeling of newborn corticotropes in culture indicated that pro-ACTH/endorphin remained uncleaved for at least 90 min after synthesis. With further incubation, there was a decrease in radioactivity associated with the precursor and an equivalent rise in the radioactivity associated with
beta-endorphin
and beta-lipotropin. However, unprocessed precursor still remained in the cultured newborn anterior pituitary cells after a 25-h chase. Although intact pro-ACTH/endorphin from newborn corticotropes was very long-lived, the precursor did undergo oligosaccharide maturation and became
endoglycosidase H
resistant within 1 h after synthesis. Similar to the adult, pro-ACTH/endorphin synthesis was doubled in cultures of newborn anterior pituitary chronically treated with 10 nM CRF resulting in a 3- to 4-fold stimulation of secretion over the basal rate. However, unlike the AtT-20 cell or adult rat corticotrope, the proteolytic processing of pro-ACTH/endorphin in the newborn corticotrope was altered by chronic secretagogue treatment; less pro-ACTH/endorphin was converted to
beta-endorphin
in secretagogue-treated corticotropes than in controls. Thus processing of pro-ACTH/endorphin in the corticotrope is not mature by birth and can be regulated by chronic CRF treatment.
...
PMID:Regulation of pro-adrenocorticotropin-endorphin synthesis and secretion in cultured neonatal rat anterior pituitary. 285 9
The biogenesis of peptide hormone secretory granules involves a series of sorting, modification, and trafficking steps that initiate in the trans-Golgi and trans-Golgi network (TGN). To investigate their temporal order and interrelationships, we have developed a pulse-chase protocol that follows the synthesis and packaging of a sulfated hormone,
pro-opiomelanocortin (POMC)
. In AtT-20 cells, sulfate is incorporated into POMC predominantly on N-linked
endoglycosidase H
-resistant oligosaccharides. Subcellular fractionation and pharmacological studies confirm that this sulfation occurs at the trans-Golgi/TGN. Subsequent to sulfation, POMC undergoes a number of molecular events before final storage in dense-core granules. The first step involves the transfer of POMC from the sulfation compartment to a processing compartment (immature secretory granules, ISGs): Inhibiting export of pulse-labeled POMC by brefeldin A (BFA) or a 20 degrees C block prevents its proteolytic conversion to mature adrenocorticotropic hormone. Proteolytic cleavage products were found in vesicular fractions corresponding to ISGs, suggesting that the processing machinery is not appreciably activated until POMC exits the sulfation compartment. A large portion of the labeled hormone is secreted from ISGs as incompletely processed intermediates. This unregulated secretory process occurs only during a limited time window: Granules that have matured for 2 to 3 h exhibit very little unregulated release, as evidenced by the efficient storage of the 15-kDa N-terminal fragment that is generated by a relatively late cleavage event within the maturing granule. The second step of granule biogenesis thus involves two maturation events: proteolytic activation of POMC in ISGs and a transition of the organelle from a state of high unregulated release to one that favors intracellular storage. By using BFA, we show that the two processes occurring in ISGs may be uncoupled: although the unregulated secretion from ISGs is impaired by BFA, proteolytic processing of POMC within this organelle proceeds unaffected. The finding that BFA impairs constitutive secretion from both the TGN and ISGs also suggests that these secretory processes may be related in mechanism. Finally, our data indicate that the unusually high levels of unregulated secretion often associated with endocrine tumors may result, at least in part, from inefficient storage of secretory products at the level of ISGs.
...
PMID:Distinct molecular events during secretory granule biogenesis revealed by sensitivities to brefeldin A. 936 61
A lysosomal pepstatin-insensitive proteinase (CLN2p) deficiency is the underlying defect in the classical late-infantile neuronal ceroid lipofuscinosis (LINCL, CLN2). The natural substrates for CLN2p and the causative factors for the neurodegeneration in this disorder are still not understood. We have now purified the CLN2p from bovine brain to apparent homogeneity. The proteinase has a molecular mass of 46 kDa and an aminoterminal sequence, L-H-L-G-V-T-P-S-V-I-R-K, that is identical to the human enzyme. Peptide: N-glycosidase F and
endoglycosidase H
treatment of the CLN2p reduced its molecular mass to 39.5 and 40.5 kDa, respectively, suggesting the presence of as many as five N-glycosylated residues. The CLN2p activity was not affected by common protease inhibitors, and thiol reagents, metal chelators, and divalent metal ions had no significant effect on the proteolytic activity of the CLN2p. Among the naturally occurring neuropeptides, angiotensin II, substance P, and beta-amyloid were substrates for the CLN2p, whereas angiotensin I, Leu-enkephalin, and
gamma-endorphin
were not. Peptide cleavage sites indicated that the CLN2p is a tripeptidyl peptidase that cleaves peptides having free amino-termini. Synthetic amino- and carboxyl-terminal peptides from the subunit c sequence, which is the major storage material in LINCL, are hydrolyzed by the CLN2p, suggesting that the subunit c may be one of the natural substrates for this proteinase and its accumulation in LINCL is the direct result of the proteinase deficiency.
...
PMID:Purification and characterization of bovine brain lysosomal pepstatin-insensitive proteinase, the gene product deficient in the human late-infantile neuronal ceroid lipofuscinosis. 1061 31
