Sympathetic neurons require nerve growth factor for survival and die by apoptosis in its absence. Key steps in the death pathway include c-Jun activation, mitochondrial cytochrome c release, and caspase activation. Here, we show that neurons rescued from NGF withdrawal-induced apoptosis by expression of dominant-negative c-Jun do not release cytochrome c from their mitochondria. Furthermore, we find that the mRNA for BIM(EL), a proapoptotic BCL-2 family member, increases in level after NGF withdrawal and that this is reduced by dominant-negative c-Jun. Finally, overexpression of BIM(EL) in neurons induces cytochrome c redistribution and apoptosis in the presence of NGF, and neurons injected with Bim antisense oligonucleotides or isolated from Bim(-/-) knockout mice die more slowly after NGF withdrawal.
We present herein the pulse-chase analysis of the biosynthesis of the prohormone convertases PC1 and PC2 in the endocrine GH4C1 cells infected with vaccinia virus recombinants expressing these convertases. Characterization of the pulse-labelled enzymes demonstrated that pro-PC1 (88 kDa) is cleaved into PC1 (83 kDa) and pro-PC2 (75 kDa) into PC2 (68 kDa). Secretion of glycosylated and sulphated PC1 (84 kDa) occurs about 30 min after the onset of biosynthesis, whereas glycosylated and sulphated PC2 (68 kDa) is detected in the medium after between 1 and 2 h. Furthermore, in the case of pro-PC2 only, we observed that a fraction of this precursor escapes glycosylation. A small proportion (about 5%) of the intracellular glycosylated pro-PC2 (75 kDa) is sulphated, and it is this glycosylated and sulphated precursor that is cleaved into the secretable 68 kDa form of PC2. Major differences in the carbohydrate structures of PC1 and PC2 are demonstrated by the resistance of the secreted PC1 to endoglycosidase H digestion and sensitivity of the secreted PC2 to this enzyme. Inhibition of N-glycosylation with tunicamycin caused a dramatic intracellular degradation of these convertases within the endoplasmic reticulum, with the net effect of a reduction in the available activity of PC1 and PC2. These results emphasize the importance of N-glycosylation in the folding and stability of PC1 and PC2. Pulse-labelling experiments in uninfected mouse beta TC3 and rat Rin m5F insulinoma cells, which endogenously synthesize PC2, showed that, as in infected GH4C1 cells, pro-PC2 predominates intracellularly. In order to define the site of prosegment cleavage, pulse-chase analysis was performed at low temperature (15 degrees C) or after treatment of GH4C1 cells with either brefeldin A or carbonyl cyanide m-chlorophenylhydrazone. These results demonstrated that the onset of the conversions of pro-PC1 into PC1 and non-glycosylated pro-PC2 into PC2 (65 kDa) occur in a pre-Golgi compartment, presumably within the endoplasmic reticulum. In contrast, pulse labelling in the presence of Na(2)35SO4 demonstrated that the processing of glycosylated and sulphated pro-PC2 occurs within the Golgi apparatus. In order to test the possibility that zymogen processing is performed by furin, we co-expressed this convertase with either pro-PC1 or pro-PC2. The data demonstrated the inability of furin to cleave either proenzyme.
PC1 and PC2 are two important subtilisin-like prohormone convertases (PC) that undergo differential endoproteolytic processing steps and sequentially mediate proopiomelanocortin (POMC) processing. To investigate the structural elements directing the processing of different PCs, we constructed a series of mutant and chimeric PC proteins and expressed them in cell lines with different patterns of expression of endogenous PCs: AtT-20, hEK293, and hLoVo cells. The COOH-terminally truncated PC1 underwent efficient proregion cleavage and rapid secretion in all three cell lines, while proregion cleavage and secretion were completely blocked in an active-site mutant of PC1. The truncated PC1 produced dramatic changes in POMC processing in AtT-20 cells. PC2 with the potential oxyanion hole Asp residue changed to Asn was processed and altered several aspects of POMC processing in a manner similar to that of wild-type PC2. PC1 protein with its proregion substituted with that of furin was cleaved after its proregion, producing active PC1 enzyme. A similar furin/ PC2 fusion protein underwent proregion cleavage at low efficiency. By contrast, when the proregions of PC1 and PC2 were substituted with one another, both fusion proteins failed to cleave the foreign prosequences, were unable to undergo oligosaccharide maturation, and remained in the ER. Although inactive PC mutants could theoretically function as dominant negatives, none interfered with the processing of endogenous active PCs or with POMC processing. We conclude that the COOHterminal of PC1 plays an important role in the routing or storage of PC1, the proregions of these PC proteins are replaceable in a molecule-specific manner, removal of proregion is essential for routing and for endoproteolytic activity, and the role of the potential oxyanion hole in PC2 is still unclear.Virtually all known mammalian bioactive peptides are synthesized first as precursor proteins in which product peptides are flanked by cleavage sites, most often paired basic amino acids. In different neuroendocrine tissues, depending on the availability of different endoproteases, precursors are cleaved into tissue-specific sets of final products. Proopiomelanocortin (POMC) 1 is the common precursor of several important peptide hormones, including ACTH, ␣-MSH, and -endorphin. In anterior pituitary corticotropes, major POMC-derived peptides include ACTH and -lipotropin, whereas in intermediate pituitary melanotropes, ACTH is further processed into ␣-MSH, and -lipotropin is processed to -endorphin(1-31) and -endorphin(1-27) (1, 2).In the last few years, a group of subtilisin-like serine endoproteases that cleave specifically at sequences containing paired basic amino acids have been identified in mammalian tissues (3-9). The group includes PC1 (prohormone convertase 1, also called PC3), PC2, PC4, PC5/6, furin, and PACE4. PC1 and PC2 are predominantly detected in neuroendocrine tissues. Using as a model the AtT-20 mouse corticotrope tumor cell line, which has very high levels of endogenous P...
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