Pre-Golgi degradation of yeast prepro-alpha-factor expressed in a mammalian cell. Influence of cell type-specific oligosaccharide processing on intracellular fate.

We demonstrate that expression of yeast prepro-alpha-factor in GH3 rat pituitary cells results in its degradation in an endoplasmic reticulum (ER) or early Golgi compartment, suggesting that this wild-type prohormone is recognized as abnormal or misfolded in the context of a mammalian ER. In GH3 cells, as in yeast, the nascent polypeptide is efficiently targeted to the ER, where it undergoes cleavage of its amino-terminal signal peptide and core glycosylation to form glycosylated pro-alpha-factor (gp alpha f). Subsequently, however, this species disappears from cells with a half-time of 25-30 min (including a 10-20-min lag), and no alpha-factor- or proregion-derived products can be detected. Localization of the degradative process to the ER is suggested by its occurrence in the presence of brefeldin A or chloroquine and by the endoglycosidase H susceptibility of the substrate. We present evidence that Asn-linked oligosaccharide processing, which differs in extent between yeast and mammalian cells, may be an important factor in determining degradation in this heterologous circumstance. When GH3 cells are treated with deoxymannojirimycin, an inhibitor of ER alpha-mannosidases, gp alpha f is essentially stable, suggesting that trimming of core oligosaccharides below Man8 (a process that does not occur in yeast) strongly promotes proteolysis. Inhibition of ER glucosidase activity by treatment with deoxynojirimycin, by contrast, considerably accelerates the disappearance of gp alpha f (t1/2 = 8-10 min). These data indicate that cell type-specific post-translational modifications of a secretory glycoprotein can substantially modify its recognition by the mammalian ER degradative apparatus.

Purification of recombinant human secretory phospholipase A2 (group II) produced in long-term immobilized cell culture.

Recombinant human secretory phospholipase A2 (Group II) was expressed in long-term culture of immobilized Chinese hamster ovary cells utilizing a continuous-perfusion airlift bioreactor. The bioreactor was continuously perfused with cell-culture medium supplemented with 5% fetal calf serum at an average flow rate of 5 liters/day for 30 days. Recombinant phospholipase A2, at concentrations ranging from 100 to 500 micrograms/liter, was purified to apparent homogeneity by an efficient two-step procedure involving a silica-based cation-exchange resin and hydrophobic interaction chromatography (greater than 65% recovery of phospholipase A2). The purified recombinant protein has an apparent molecular weight of 16 kDa, identical to that of purified human placental or synovial fluid phospholipase A2, as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Application of the purified protein onto several different gel filtration columns resulted in elution of the protein at molecular weights corresponding to 3.1-4.7 kDa, suggesting an interaction of the protein with the column resins. However, analytical ultracentrifugation experiments revealed that the protein behaves as a monomer (13.8-14.2 kDa) over a protein concentration range of approximately 10 micrograms/ml to 5 mg/ml. With autoclaved Escherichia coli membranes as substrate, the recombinant protein has catalytic properties (pH optimum, effects of bovine serum albumin, sodium chloride concentration, and requirement for calcium) similar to those of the protein purified from human placenta.

Induction of phospholipase A2 gene expression in human hepatoma cells by mediators of the acute phase response.

Serum levels of phospholipase A2 (PLA2) activity have been shown to be elevated in cases of septic shock and rheumatoid arthritis. The cellular origin of serum PLA2, however, is not known. In this report, we demonstrate that human group II PLA2 expression and secretion are induced in hepatoma cells (HepG2) following treatment with interleukin-6 (IL-6), tumor necrosis factor (TNF), and interleukin-1 (IL-1). Of the three cytokines, IL-6 is the most potent. Significant synergy is observed between IL-6 and IL-1 and between IL-6 and TNF, but not between IL-1 and TNF. PLA2 induction does not occur in human YT cells, which are known to have receptors for both IL-1 and IL-6, indicating that the regulatory mechanism involved is cell type-specific. The results of RNA blot analysis indicate that the PLA2 gene is regulated in HepG2 cells at the pretranslational level. Induction of PLA2 synthesis in HepG2 cells in response to these cytokines resembles the induction of the acute phase plasma proteins which are synthesized in cultured hepatocytes and hepatoma cells following exposure to the same cytokines and in liver in response to inflammation and infection. In addition, a putative IL-6-responsive element, which is homologous to a similar element found in several acute phase genes, is present in the 5'-promoter-proximal region of the PLA2 gene. These results suggest that serum PLA2 is synthesized in and secreted from liver cells in response to inflammatory stimuli, mediated primarily by IL-6, and therefore should be classified as an acute phase protein.

Human immunodeficiency virus type 1 protease cleaves the intermediate filament proteins vimentin, desmin, and glial fibrillary acidic protein.

The intermediate filament proteins vimentin, desmin, and glial fibrillary acidic protein are cleaved in vitro by human immunodeficiency virus type 1 protease (HIV-1 PR). Microsequencing showed that HIV-1 PR cleaved both human and murine vimentin between leucine-422 and arginine-423 within the sequence between positions 418 and 427, Ser-Ser-Leu-Asn-Leu/Arg-Glu-Thr-Asn-Leu (SSLNL/RETNL). Minor cleavages at other sites were also observed. Heat-denatured vimentin was cleaved by HIV-1 PR less efficiently than native vimentin. A decapeptide containing the sequence SSLN-LRETNL was also cleaved in vitro by HIV-1 PR as predicted. The presence of a charged residue (arginine) at the primary cleavage site distinguishes this from other known naturally occurring cleavage sites. Microinjection of HIV-1 PR into cultured human fibroblasts resulted in a 9-fold increase in the percentage of cells with an altered and abnormal distribution of vimentin intermediate filaments. Most commonly, the intermediate filaments collapsed into a clump with a juxtanuclear localization. These results support the possibility that intermediate filament proteins may serve as substrates within HIV-1-infected cells.

Retrovirus-mediated expression of preprosomatostatin in rat pituitary GH3 cells: targeting of somatostatin to the regulated secretory pathway.

Somatostatin (SRIF) is a 14-amino acid peptide hormone that is synthesized as part of a larger precursor, prepro-SRIF, consisting of a signal peptide and a proregion of 80-90 amino acids; mature SRIF is located at the carboxyl-terminus of the precursor. We have used a recombinant retroviral expression vector encoding anglerfish prepor-SRIF-I to infect rat pituitary GH3 cells. The aim of these studies was to investigate the intracellular storage and secretion of the total pool of endogenous GH compared to that of SRIF. Several clonal lines of GH3 cells expressing high or low levels of SRIF were treated with TRH, forskolin, or depolarizing concentrations of potassium, and the levels of intracellular and secreted GH or SRIF were determined using highly sensitive RIAs. Approximately 65% of the total GH was secreted basally, whereas less than 20% of the SRIF-immunoreactive material was basally secreted. Forskolin treatment or potassium depolarization stimulated GH release, but only about 50% above basal levels. In contrast, SRIF secretion was stimulated approximately 5-fold in response to these secretagogues. Based on its lower basal rate of secretion compared to GH and its enhanced release in response to a variety of secretagogues, we conclude that the heterologously expressed SRIF is preferentially targeted to the regulated pathway in GH3 cells.

The propeptide of preprosomatostatin mediates intracellular transport and secretion of alpha-globin from mammalian cells.

We have investigated the role of the somatostatin propeptide in mediating intracellular transport and sorting to the regulated secretory pathway. Using a retroviral expression vector, two fusion proteins were expressed in rat pituitary (GH3) cells: a control protein consisting of the beta-lactamase signal peptide fused to chimpanzee alpha-globin (142 amino acids); and a chimera of the somatostatin signal peptide and proregion (82 amino acids) fused to alpha-globin. Control globin was translocated into the endoplasmic reticulum as determined by accurate cleavage of its signal peptide; however, alpha-globin was not secreted but was rapidly and quantitatively degraded intracellularly with a t 1/2 of 4-5 min. Globin degradation was insensitive to chloroquine, a drug which inhibits lysosomal proteases, but was inhibited at 16 degrees C suggesting proteolysis occurred during transport to the cis-Golgi apparatus. In contrast to the control globin, approximately 30% of the somatostatin propeptide-globin fusion protein was transported to the distal elements of the Golgi apparatus where it was endoproteolytically processed. Processing of the chimera occurred in an acidic intracellular compartment since cleavage was inhibited by 25 microM chloroquine. 60% of the transported chimera was cleaved at the Arg-Lys processing site in native prosomatostatin yielding "mature" alpha-globin. Most significantly, approximately 50% of processed alpha-globin was sorted to the regulated pathway and secreted in response to 8-Br-cAMP. We conclude that the somatostatin propeptide mediated transport of alpha-globin from the endoplasmic reticulum to the trans-Golgi network by protecting molecules from degradation and in addition, facilitated packaging of alpha-globin into vesicles whose secretion was stimulated by cAMP.

The role of paired basic amino acids in mediating proteolytic cleavage of prosomatostatin. Analysis using site-directed mutagenesis.

Many small peptide hormones are synthesized as larger precursors in which the mature hormone sequence is flanked by pairs of basic amino acids. These precursors often undergo extensive post-translational modifications; a critical step in this process is proteolytic excision of the hormone at the paired basic residues. To determine the role of paired basic amino acids as recognition signals for cleavage by processing enzymes, we investigated the heterologous expression of prosomatostatin (the pro-somatotropin release inhibiting factor (pro-SRIF). Pro-SRIF is one of the simplest peptide hormone precursors, possessing a single copy of the 14-residue SRIF peptide at its carboxyl terminus preceded by the least common pair of basic amino acids, Arg-Lys. Employing site-directed mutagenesis, we altered the paired basic cleavage site to the more common Arg-Arg and Lys-Arg residues. The native and mutated precursors were expressed in rat pituitary GH3 cells and mouse 3T3 cells using a retroviral vector. Alteration of the paired basic residues had no effect on the specificity of proteolytic cleavage as both the native and mutant precursors were processed with 70 to 80% efficiency in GH3 cells. Surprisingly, when the mutant pro-SRIFs were expressed in 3T3 cells, which do not process the native precursor, the Arg-Arg and Lys-Arg precursors were processed with 16 and 20% efficiency, respectively. The role of an acidic compartment in mediating pro-SRIF cleavage was also investigated using low concentrations of the lysosomotrophic drug Chloroquine. Twenty-five microM Chlorquine completely inhibited pro-SRIF cleavage and intracellular storage; the unprocessed precursor was secreted into the medium. We conclude that (i) exposure to an acidic compartment is required for pro-SRIF maturation, and (ii) the conformation of the processing site, rather than the composition of the basic amino acids, defines cleavage specificity by prohormone processing enzymes.

Retrovirus-mediated expression of preprosomatostatin: posttranslational processing, intracellular storage, and secretion in GH3 pituitary cells.

Somatostatin (SRIF) is a 14-amino acid peptide hormone that is synthesized as part of a larger precursor, preproSRIF, consisting of a signal peptide and a proregion of 80-90 amino acids. The mature hormone, which is located at the carboxyl terminus of the precursor, is preceded by a single pair of basic amino acids. We are studying preproSRIF to investigate intracellular sorting, proteolytic processing, and storage of peptide hormone precursors in the secretory pathway. We used a retroviral expression vector to achieve the high levels of precursor synthesis which are necessary for detailed characterization of processing intermediates and mature somatostatin. Recombinant retroviruses containing RNA transcripts encoding anglerfish preproSRIF I were used to infect rat pituitary GH3 cells which secrete growth hormone and prolactin, neither of which are substrates for endoproteolytic cleavage. In these cells preproSRIF was accurately processed to the mature hormone with an efficiency of approximately 75%. Of the newly synthesized mature SRIF, 55% was sorted into the regulated secretory pathway and released in response to the secretagogue 8-Br-cAMP. The remaining 45% of mature SRIF and residual unprocessed precursor was rapidly secreted. In contrast to SRIF, only 5% of newly synthesized endogenous growth hormone was stored intracellularly, whereas 95% was sorted to the constitutive pathway and secreted rapidly with kinetics identical to proSRIF. Our results show that proSRIF processing is not necessarily dependent on a specific protease found only in SRIF-producing cells and suggest that proteolytic cleavage is not restricted to cells that process endogenous hormones. Moreover, these results demonstrate that GH3 cells have the capacity to discriminate between endogenous and foreign hormones and target the foreign molecule significantly more efficiently to the regulated secretory pathway.

DNA base composition of filarial nematodes.

We have determined the molar content of guanine + cytosine (GC content) of DNA of the filarial nematode (Brugia malayi, Brugia pahangi and Dirofilaria imitis) and of the free-living soil nematodes Caenorhabditis elegans and have analysed the DNA for the presence of methylcytosine. Two independent methods, thermal denaturation and direct analysis of base content by HPLC following enzymatic hydrolysis, reveal that the GC content of filarial nematodes is 26-28%. We have been unable to find methylcytosine in the DNA of B. malayi.