A comparison of nerve growth factor binding protocols with native and mutant PC12 cells

A comparison has been made of various methods for measuring binding of nerve growth factor (NGF) to PC12 cells in suspension, on plates, and by a combination of the two. Results indicated that the extensive washing in the plate binding assay removed some cell surface ligand, underestimated the fast receptor binding, and overestimated the proportion of internalized ligand. In addition, the binding and internalization by a nonresponding PC12 mutant cell line has been studied. The nonresponding mutants had fewer total NGF receptors (10–50%) than normal cells in any binding assay. However, when measured in the suspension assay, the mutant cells showed both fast and slow binding receptors, in proportion approximately equivalent to those found on native PC12 cells. The PC12 nonresponders in suspension were also found to internalize and degrade low levels of NGF, in proportion to their reduced receptor number. Different results concerning PC12 wild type and mutant cells that have been reported in the literature may be due to the particular binding assay protocol that was used.     

A comparison of binding properties and structure of NGF receptor on PC12 pheochromocytoma and A875 melanoma cells

Rat PC12 pheochromocytoma and human A875 melanoma cells express nerve growth factor (NGF) receptors on their surfaces. Covalent crosslinking of bound 125I-NGF to PC12 or A875 intact cells or plasma membrane-enriched fractions resulted in labelling of a peptide doublet at Mr = 110,000 and a single labelled peptide at Mr = 200,000 for each of the cell and membrane preparations. However, a difference between equilibrium binding properties of NGF-receptor on PC12 and A875 cells was observed. PC12 cells exhibited biphasic binding properties with two apparent binding sites: KD = 5.2 nM sites and KD = 0.3 nM sites. The high-affinity PC12 binding sites were trypsin resistant, and 125I-NGF dissociated slowly from them. A875 cells exhibited sites with homogeneous properties (KD = 1.0 nM), all binding sites were trypsin sensitive, and 125I-NGF dissociated rapidly in the presence of unlabelled NGF. Membrane-enriched fractions from either cell type contained binding sites with a uniform low affinity (KD = 3 nM) that were trypsin sensitive, and 125I-NGF rapidly dissociated from them. Sixty to 80 percent of binding sites in membranes could be converted to the high-affinity, trypsin-resistant state by addition of wheat germ agglutinin (WGA). The loss of high-affinity, trypsin-resistant sites from PC12 cells during preparation of plasma membrane fractions does not appear to be the result of selective isolation of low-affinity sites or proteolytic degradation since there is a loss of 125I-NGF binding immediately after cell lysis which is not blocked by protease inhibitors. Also, high-affinity, trypsin-resistant binding sites are not found associated with other cell fractions. The differences between receptor properties on PC12 cells and on A875 cells apparently are the result of differences in the respective intracellular environments. Thus, significant structural homology exists between receptors on A875 and PC12 cells. Cell components other than the binding unit of the NGF receptor may be responsible for the different properties of receptor.     

神经营养因子诱导分化的神经元样PC12细胞分裂的研究

神经营养因子（nerve growth factor,NGF）诱导PC12细胞分化产生的神经元样细胞一直被认为属于分裂后的细胞,没有分裂能力。然而在本研究中,我们观察了一些已经发生分化的PC12细胞,这些细胞长有很长的神经突起,在形态上属于神经元样细胞。在这些细胞中,我们不仅检测到DNA合成,而且观察到这些细胞的分裂现象。更令人感兴趣的是,除了胞体发生分裂外,位于胞体分裂位置的突起也一分为二,分别分配给两个子细胞。这些结果说明,形态发生分化的神经元样PC12细胞仍有分裂能力。本研究首次报道神经元样PC12细胞及其突起能发生分裂。     

Nicotine-induced phosphorylation of Akt through epidermal growth factor receptor and Src in PC12h cells

Nicotine treatment triggers calcium influx into neuronal cells, which promotes cell survival in a number of neuronal cells. Phosphoinositide (PI) 3-kinase and downstream PI3-kinase target Akt have been reported to be important in the calcium-mediated promotion of survival in a wide variety of cells. We investigated the mechanisms of nicotine-induced phosphorylation of Akt in PC12h cells, in comparison with nicotine-induced ERK phosphorylation. Nicotine induced Akt phosphorylation in a dose-dependent manner. A nicotinic acetylcholine receptor (nAChR) alpha7 subunit-selective inhibitor had no significant effect on nicotine-induced Akt phosphorylation, while a non-selective nAChR antagonist inhibited the phosphorylation. L-type voltage-sensitive calcium channel (VSCC) antagonists, calmodulin antagonist, and Ca2+/calmudulin-dependent protein kinase (CaM kinase) inhibitor prevented the nicotine-induced Akt phosphorylation. Three epidermal growth factor receptor (EGFR) inhibitors prevented the nicotine-induced phosphorylation of both extracellular signal-regulated protein kinase (p42/44 MAP kinase, ERK) and Akt. In contrast, an inhibitor of the Src family tyrosine kinase prevented the nicotine-induced Akt phosphorylation but not ERK phosphorylation. These results suggested that nicotine induces the activation of both PI3-kinase/Akt and ERK pathways via common pathways including non-alpha7-nAChRs, L-type VSCC, CaM kinase II and EGFR in PC12h cells, but Src family tyrosine kinases only participate in the pathway to activate Akt.     

Regulation of alpha3 nicotinic acetylcholine receptor subunit mRNA levels by nerve growth factor and cyclic AMP in PC12 cells

To investigate the effects of nerve growth factor (NGF) and cyclic AMP (cAMP) on the level of the nicotinic acetylcholine receptor subunit alpha3 mRNA, we used PC12h cells, PC12 cells expressing dominant-negative Ras protein, and the parental PC12 cells. PC12h cells have NGF-responsive tyrosine hydroxylase activity. Expression of dominant-negative Ras protein prevents the signaling through the Ras-mitogen-activated protein kinase cascade. The morphological changes of the parental PC12 cells in response to NGF and 8-(4-chlorophenylthio)adenosine 3',5'-cyclic monophosphate (CPTcAMP), a cell-penetrating cAMP analogue, were similar to those of PC12h cells. NGF up-regulated the alpha3 mRNA level in PC12h cells and down-regulated the alpha3 mRNA level in the parental PC12 cells. Expression of dominant-negative Ras protein and an inhibitor of mitogen-activated protein kinase kinase inhibited the effects of NGF on alpha3 mRNA level. CPTcAMP down-regulated the alpha3 mRNA level in all three PC12 cell lines. An inhibitor of protein kinase A inhibited the CPTcAMP-induced down-regulation of alpha3 mRNA. The alpha3 mRNA down-regulation required prolonged treatment with CPTcAMP even after cAMP response element binding protein phosphorylation was decreased. Membrane depolarization with high K+ had no effect on the alpha3 mRNA level in PC12h cells. Based on these results, we propose that at least two unknown effectors regulate alpha3 mRNA levels in PC12 cells.     

Treatment of PC12 cells by nerve growth factor,dexamethasone, and forskolin

Several lines of anatomical, neurochemical, electrophysiological, and behavioral evidence suggest the existence of physiological interactions between neurotensin (NT) and the brain dopaminergic systems. Thus, NT has been shown to exert a neuroleptic-like action and could be implicated in the pathogenesis and treatment of schizophrenia. It is thus of particular importance to develop in vitro cell culture systems as models to study such interactions. Rat adrenal pheochromocytoma PC12 cells, which expressed high levels of tyrosine hydroxylase, were used in the present study. In contrast to rat brain cells in primary cultures, PC12 cells did not express functional NT receptors. However, they were able to express both NTmRNA and NT in response to NGF, forskolin, and dexamethasone. Those neurochemical modifications furthermore may be related to changes in the morphology of the PC12 cells in response to NGF, forskolin, and dexamethasone alone or in combination. These data suggest that PC12 cells may provide a useful model to study in vitro the regulation of both catecholamine and neurotensin phenotypes.     

Gi-coupled prostanoid receptors are the likely targets for COX-1-generated prostanoids in rat pheochromocytoma (PC12) cells

Cyclooxygenase-1 (COX-1) behaves as a delayed response gene in rat pheochromocytoma (PC12) cells exposed to nerve growth factor (NGF). To investigate the possible targets for COX-1 generated prostanoids in the early stages of neuronal differentiation, we have examined the expression of prostanoid receptors by PC12 cells using functional assays. Prostanoid receptor-specific agonists failed to activate adenylyl cyclase in undifferentiated and NGF-treated PC12 cells; neither did they stimulate phospholipase C activity. EP3 receptor agonists and PGF_2α were the only active ligands, able to inhibit forskolin-stimulated adenylyl cyclase activity. PC12 cells expressed EP3 and FP receptor mRNA, but only the responses to EP3 receptor agonists were inhibited by the EP3 receptor antagonist ONO-AE3-240. The functional role of NGF-stimulated COX-1 remains to be determined since we found no strong evidence of a role for EP3 receptors in the morphological changes induced by NGF during the early stages of differentiation of PC12 cells.     

Differentiation of PC12 cells in three-dimensional collagen sponges with micropatterned nerve growth factor

Micropatterning of biological cues is important for the guided formation of neuronal outgrowth and neuronal differentiation. Nerve growth factor (NGF) was micropatterned in a three-dimensional collagen sponges by using micropatterned ice lines that were composed of collagen and NGF. The micropatterned ice lines were prepared by a dispersing machine. PC12 cells were cultured in the NGF-micropatterned collagen sponges and showed micropatterned neurite outgrowth. The neurite outgrowth followed the micropattern of NGF with more neurite outgrowth in the collagen/NGF lines than in the regions between the collagen/NGF lines. The micropattern of the NGF and the neurite network of the PC12 cells can be manipulated by controlling the micropattern of the NGF. The three-dimensional porous scaffolds prepared by this method will have a potential application for the regeneration and repair of the nervous system.     

Alteration of binding properties and cytoskeletal attachment of nerve growth factor receptors in PC12 cells by wheat germ agglutinin

Incubation of PC12 cells preloaded with 125I-nerve growth factor (NGF) reveals rapidly and slowly dissociating binding components indicative of a heterogeneous population of receptors. If the cells are previously exposed to wheat germ agglutinin (WGA) for 30 min, NGF now binds to an apparently homogeneous receptor population which exhibit slow dissociation kinetics. Total binding is also reduced by 50%. If WGA is added subsequent to 125I-NGF, total binding is not diminished, but rapidly dissociating receptors occupied with NGF are all converted to the slowly dissociating form. This conversion of receptors occurs rapidly, reaching completion within 2 min at 37 degrees or 4 degrees C, and is unaffected by metabolic energy poisons, suggesting that WGA- induced slowly dissociating receptors are not the product of internalization. The effects of the lectin are blocked by the sugar N- acetyl-D-glucosamine, and the lectin-induced slowly dissociating receptors are converted back to rapidly dissociating receptors by addition of this same sugar. WGA also affects the association of the NGF receptor with the Triton X-100 cytoskeleton. Greater than 90% of bound 125I-NGF becomes associated with Triton X-100 insoluble cytoskeletons in the presence of the lectin, compared with less than 20% before lectin addition. Cytoskeleton association of the NGF receptor by WGA shows similar kinetics as the conversion of rapidly to slowly dissociating receptors. This interaction may be involved in the alteration of NGF-receptor binding properties produced by this lectin.     

Leumorphin has an anti-apoptotic effect by activating epidermal growth factor receptor kinase in rat pheochromocytoma PC12 cells

Endogenous opioid peptides, found in the central and peripheral nervous systems, perform neuromodulatory roles, and display a wide range of functional and pharmacological properties in vitro and in vivo. In this study, we investigated the effects of prodynorphin gene products on intracellular signaling events and cell survival in rat pheochromocytoma PC12 cells. Leumorphin, but not other prodynorphin gene products including dynorphin A, beta-neoendorphin and rimorphin (dynorphin B), increased cell viability in PC12 cells. The cytoprotective effect of leumorphin was dependent on the phosphatidylinositol 3-kinase and mitogen-activated protein kinase pathways, but was insensitive to both naloxone, a general antagonist of the opioid receptor, and nor-binaltorphimine, a specific antagonist of the kappa opioid receptor. Moreover, a competition-binding assay clearly revealed that leumorphin had another binding site(s) in addition to that for the kappa opioid receptor. Interestingly, leumorphin induced activation of the epidermal growth factor receptor via a Src-dependent mechanism, which was proved to be responsible for the increased survival response. Flow cytometric and microscopic analysis showed that leumorphin rescued cells from serum deprivation-induced apoptosis. Collectively, we suggest that leumorphin prevents apoptosis via epidermal growth factor receptor-mediated activation of the phosphatidylinositol 3-kinase and mitogen-activated protein kinase pathways, which occur independent of the kappa opioid receptor.     

Decrease in acetylcholine-induced current by neomycin in PC12 cells

The effects of neomycin, one of the aminoglycoside antibiotics, on the acetylcholine (ACh)-induced current (I(ACh)) were studied in pheochromocytoma cells by using the whole-cell clamp technique. The I(ACh) proved to be generated through neuronal nicotinic receptor. ACh (30 microM) induced an inward current at a holding potential of -80 mV. When cells were treated with neomycin (0.01-1 mM) and ACh (30 microM) simultaneously, an inhibitory effect of neomycin on the peak of I(ACh) was found. This effect was fast, reversible, and concentration dependent. Pretreatment with neomycin for 3-8 min had no effect on the inhibition of I(ACh) induced by neomycin. External application of 0.1 mM neomycin neither shifted the dose-response curve of the peak I(ACh) to the right (dissociation constant (K(d)) = 16.5 microM) nor affected its coefficient (1.8) but inhibited the curve amplitudes by approximately 33%. Stimulated protein kinase C activation by using an exogenous activator produced inhibition of I(ACh), while using protein kinase C inhibitor (PKCI 19-31) had no effect on the inhibition of I(ACh) induced by neomycin. These results suggest that neomycin has an inhibitory effect on I(ACh) without the involvement of phospholipase C. It indicates that neomycin binds to a specific site on the cell membrane, probably on the neuronal nicotinic receptor-coupled channel, and inhibits the I(ACh) in a noncompetitive manner, thus controlling the immediate catecholamine release from the sympathetic cells.     

Autoregulation in PC12 cells via P2Y receptors: Evidence for non-exocytotic nucleotide release from neuroendocrine cells

Nucleotides are released not only from neurons, but also from various other types of cells including fibroblasts, epithelial, endothelial and glial cells. While ATP release from non-neural cells is frequently Ca²⁺ independent and mostly non-vesicular, neuronal ATP release is generally believed to occur via exocytosis. To evaluate whether nucleotide release from neuroendocrine cells might involve a non-vesicular component, the autocrine/paracrine activation of P2Y₁₂ receptors was used as a biosensor for nucleotide release from PC12 cells. Expression of a plasmid coding for the botulinum toxin C1 light chain led to a decrease in syntaxin 1 detected in immunoblots of PC12 membranes. In parallel, spontaneous as well as depolarization-evoked release of previously incorporated [³H]noradrenaline from transfected cells was significantly reduced in comparison with the release from untransfected cells, thus indicating that exocytosis was impaired. In PC12 cells expressing the botulinum toxin C1 light chain, ADP reduced cyclic AMP synthesis to the same extent as in non-transfected cells. Likewise, the enhancement of cyclic AMP synthesis either due to the blockade of P2Y₁₂ receptors or due to the degradation of extracellular neucleotides by apyrase was not different between non-transfected and botulinum toxin C1 light chain expressing cells. However, the inhibition of cyclic AMP synthesis caused by depolarization-evoked release of endogenous nucleotides was either abolished or greatly reduced in cells expressing the botulinum toxin C1 light chain. Together, these results show that spontaneous nucleotide release from neuroendocrine cells may occur independently of vesicle exocytosis, whereas depolarization-evoked nucleotide release relies predominantly on exocytotic mechanisms.     

Nerve growth factor stimulates the phosphorylation of a 250 kDa cytoskeletal protein in cell-free extracts of PC12 cells

Nerve growth factor (NGF) rapidly stimulates the phosphorylation of a 250 kDa cytoskeletally-associated protein (pp250) by a protein kinase which is also associated with structural elements of the cell. We have solubilized these proteins and demonstrated that NGF-stimulated phosphorylation can be observed in cell free extracts of cytoskeletons from NGF-treated PC12 cells. The pp250 substrate and the 250-kinase were solubilized from PC12 cytoskeletons by treatment with 2 M urea. Phosphorylation of pp250 was maximally stimulated following treatment of the cells for 5 min with NGF. This effect was transient, diminishing with longer exposure of the cells to hormone. The 250-kinase preferred Mn²⁺ over Mg²⁺ and was inhibited by both Na⁺ and K⁺. The phosphorylation of pp250 was not affected by Ca²⁺. Upon fractionation of the urea-soluble cytoskeletal proteins by gel filtration, the 250-kinase eluted in two peaks; one peak of enzyme activity coeluting with the pp250 substrate, and a second peak of enzyme activity eluting with an apparent Mr of approximately 60 kDa. Treatment of the PC12 cells with the phorbol ester TPA also stimulated the phosphorylation of pp250, although this effect was not as great as that produced by NGF. This cell free system should be a valuable tool in the investigation of the mechanisms of NGF action.Special issue dedicated to Dr. E. M. Shooter and Dr. S. Varon.     

Metabolism via the pentose phosphate pathway in rat pheochromocytoma PC12 cells: Effects of nerve growth factor and 6-aminonicotinamide

Exposure of rat pheochromocytoma PC12 cells to 0.1 mM 6-aminonicotinamide (6AN) for 24 hours resulted in a 500-fold increase in 6-phosphogluconate indicating active metabolism of glucose via the oxidative enzymes of the pentose phosphate pathway. Amounts of 6-phosphogluconate that accumulated in 6AN-treated cells at 24 hours were significantly increased by treatment of the cells with nerve growth factor (NGF) (100 ng 7S/ml) suggesting that metabolism of glucose via the pentose pathway at this time was enhanced by NGF. This stimulation of metabolism via the pentose pathway is probably a late response to NGF because initial rates of 6-phosphogluconate accumulation in 6AN-treated cells were the same in the presence and absence of NGF. Moreover, amounts of¹⁴CO₂ generated from 1-[¹⁴CO₂]glucose during the initial six hour incubation period were the same in control and NGF-treated cells. Specific activities of hexose phosphates labeled from 1-[¹⁴CO₂]glucose were also the same in control and NGF-treated cells. The observation that 6AN inhibited metabolism via the pentose phosphate pathway but failed to inhibit NGF-stimulated neurite outgrowth suggests that NADPH required for lipid biosynthesis accompanying NGF-stimulated neurite outgrowth from PC12 cells can be derived from sources other than, or in addition to, the oxidative enzymes of the pentose phosphate pathway.Special Issue dedicated to Dr. O. H. Lowry.     

Inhibition of tumor cell growth by triton X-100 through specific effects on cell-cycle-regulatory components

A cross-linked form of the detergent Triton X-100, called Triton WR-1339, has been shown to reduce the spread of tumor cells in laboratory animals. However, some of these effects were controversial, probably due to the use of different tumor cell lines and varying sites of injection. In order to better understand these processes, we have used Triton X-100 and performed a molecular analysis of its growth-inhibitory function. Using the T24 bladder carcinoma cell line, we have shown that treatment of cells with this detergent caused a potent antiproliferative effect resulting from the downregulation of the key cell cycle regulators, the cyclin-dependent kinases (CDKs). CDK activity was lost due to a twofold effect, the increased expression of the CDK inhibitors p21^Cip1 and p27^Kip1 in combination with the reduced expression of cyclin A, a regulatory CDK subunit that is essential for CDK function. Taken together, our results provide a molecular basis for the antiproliferative effects of the Triton detergent, namely its differential effects on various parts of the cell cycle machinery.     

p75NTR enhances PC12 cell tumor growth by a non-receptor mechanism involving downregulation of cyclin D2

p75NTR is a member of the tumor necrosis superfamily of proteins which is variably associated with induction of apoptosis and proliferation. Cyclin D2 is one of the mediators of cellular progression through G1 phase of the cell cycle. The present study demonstrates the inverse relationship between expression of cyclin D2 and expression of p75NTR in PC12 cells. Induction of p75NTR expression in p75NTR-negative PC12 cells results in downregulation of cyclin D2; suppression of p75NTR expression with siRNA in native PC12 cells results in upregulation of cyclin D2. The effects of p75NTR on cyclin D2 expression are mimicked in p75NTR-negative cells by transfection with the intracellular domain of p75NTR. Cyclin-D2-positive PC12 cell cultures grow more slowly than cyclin-D2-negative cultures, and induction of expression of cyclin D2 slows the culture growth rate of cyclin-D2-negative cells. Finally, subcutaneous murine xenografts of cyclin-D2-negative, p75NTR-positive PC12 cells more frequently and more rapidly produce tumors than the analogous xenografts of cyclin-D2-positive, p75NTR-negative cells. These results suggest that p75NTR suppresses cyclin D2 expression in PC12 cells by a mechanism distinct from its function as a nerve growth factor receptor and that cyclin D2 expression decreases cell culture and xenografted tumor growth.     

Physiological stress and nerve growth factor treatment regulate stress-activated protein kinase activity in PC12 cells

The stress-activated protein kinases (SAPKs) are differentially activated by a variety of cellular stressors in PC12 cells. SAPK activation has been linked to the induction of apoptotic cell death upon serum withdrawal from undifferentiated cells or following nerve growth factor (NGF) withdrawal of neuronally differentiated PC12 cells. However, withdrawal of trophic support from differentiated cells led to only a very modest elevation of SAPK activity and led us to investigate the basis of the relative insensitivity of these enzymes to stressors. NGF-stimulated differentiation of the cells resulted in the elevation of basal SAPK activity to levels four- to sevenfold greater than in untreated cells, which was correlated with an approximate fivefold increase in SAPK protein levels. Paradoxically, in NGF-differentiated PC12 cells, exposure to cellular stressors provoked a proportionately smaller stimulation of SAPK activity than that observed in naive cells, despite the presence of much higher levels of SAPK protein. The insensitivity of SAPK to activation by stressors was reflective of the activity of the SAPK activator SEK, whose activation was also diminished following NGF differentiation of the cells. The data demonstrate that SAPKs are subject to complex controls through both induction of SAPK expression and the regulation mediated by upstream elements within this pathway. © 1998 John Wiley & Sons, Inc. J Neurobiol 36: 537–549, 1998     

Down-Regulation of c-neu Receptors by Nerve Growth Factor in PC12 Cells

Abstract: A small number of p185^{c- neu} receptors have been found on PC12 cells. These receptors show some basal phosphorylation in quiescent cells. When the cells are treated with nerve growth factor (NGF) for a short time, some increase in phosphorylation is seen, mainly on serine and threonine residues, and this is accompanied by a slight shift in the apparent molecular weight. Epidermal growth factor (EGF) also increases the phosphorylation of p185^{c- neu} , in this case on tyrosine residues. Neither heregulin-β1 nor gp30 stimulates the tyrosine phosphorylation of p185^{c- neu} , and neither has a proliferative effect on the cells. Treatment of the cells with NGF for 5 days produces a 70–80% reduction in the number of p185^{c- neu} receptors. This down-regulation does not occur when PC12nnr5 cells, which lack the high-affinity NGF receptor, p140 ^trk , are treated with NGF.The level of p185^{c- neu} mRNA is not altered by NGF treatment, suggesting that the down-regulation is due to either a translational or a posttranslational alteration.     

Ischemia-induced phosphorylation of initiation factor 2 in differentiated PC12 cells: role for initiation factor 2 phosphatase

An in vitro model of ischemia was obtained by subjecting PC12 cells differentiated with nerve growth factor to a combination of glucose deprivation plus anoxia. Immediately after the ischemic period, the protein synthesis rate was significantly inhibited (80%) and western blots of cell extracts revealed a significant accumulation of phosphorylated eukaryotic initiation factor 2, alpha subunit, eIF2(alphaP) (42%). Upon recovery, eIF2(alphaP) levels returned to control values after 30 min, whereas protein synthesis was still partially inhibited (33%) and reached almost control values within 2 h. The activities of the mammalian eIF2alpha kinases, double-stranded RNA-activated protein kinase, mammalian GCN2 homologue, and endoplasmic reticulum-resident kinase, were determined. None of the eIF2alpha kinases studied showed increased activity in ischemic cells as compared with controls. Exposure of cells to cell-permeable inhibitors of protein phosphatases 1 and 2A, calyculin A or tautomycin, induced dose- and time-dependent accumulation of eIF2(alphaP), mimicking an ischemic effect. Protein phosphatase activity, as measured with [(32)P]phosphorylase a as a substrate, diminished during ischemia and returned to control levels upon 30-min recovery. In addition, the rate of eIF2(alphaP) dephosphorylation was significantly lower in ischemic cells, paralleling both the greatest translational inhibition and the highest eIF2(alphaP) levels. The endogenous phosphatase activity from control and ischemic extracts showed different sensitivity to inhibitor 2 and fostriecin in in vitro assays, inhibitor-2 effect in ischemic cells being lower than in control cells. Together these results indicate that an eIF2alpha phosphatase, probably protein phosphatase 1, is implicated in the ischemia-induced eIF2(alphaP) accumulation in PC12 cells.     

Characterization of an endooligopeptidase A-like protein in PC12 cells: Activity modulation by cAMP but not by basic fibroblast growth factor

Endooligopeptidase A is a putative neuropeptide-metabolizing enzyme. It converts small enkephalin-containing peptides into the corresponding enkephalins and inactivates biopeptides such as bradykinin and neurotensin in vitro. We investigated the presence of endooligopeptidase A in PC12 cells. This cell line was derived from a rat pheochromocytoma tumor and resembles fetal chromaffin cell. Depending on the supplements added to the cell culture, this cell line can be differentiated into mature chromaffin cell or sympathetic neuron-like cell. Endooligopeptidase A activity was measured in soluble cellular extracts using a specific fluorogenic substrate QF-ERP7. The PC12 endooligopeptidase A-like activity shared similar but not identical biochemical properties with rabbit brain endooligopeptidase A. Similarly to rabbit brain endooligopeptidase A, the PC12 endooligopeptidase A-like activity was enhanced by DTT, totally inhibited by DTNB and 1-10 Phenanthroline, partially inhibited by cFP-AAF-pAb, and not affected by PMSF. Furthermore, the PC12 endooligopeptidase A-like activity displayed identical elution profile as rabbit brain endooligopeptidase A in gel filtration and anion-exchange chromatography. In addition, an antiserum raised against rabbit brain endooligopeptidase A cross-reacted with a 71 kDa component from PC12 cell extracts in Western blotting and was also able to partially neutralize the PC12 endooligopeptidase A-like activity. Treatment of PC12 cells with basic fibroblast growth factor (bFGF), a neurotrophic factor for this cell line, did not modify the specific activity of this enzyme. However, cAMP analogs decreased the specific activity of the enzyme. These results indicate the presence of an endooligopeptidase A-like activity in PC12 cells which is modulated by cAMP but not by bFGF.