Neurite outgrowth of PC12 mutant cells induced by orange oil and d-limonene via the p38 MAPK pathway

We studied the effects of natural essential oil on neurite outgrowth in PC12m3 neuronal cells to elucidate the mechanism underlying the action of the oils used in aromatherapy. Neurite outgrowth can be induced by nerve growth factor (NGF), where ERK and p38 MAPK among MAPK pathways play important roles in activating intracellular signal transduction. In this study, we investigated whether d-limonene, the major component of essential oils from oranges, can promote neurite outgrowth in PC12m3 cells, in which neurite outgrowth can be induced by various physical stimulations. We also examined by which pathways, the ERK, p38 MAPK or JNK pathway, d-limonene acts on PC12m3 cells. Our results showed that neurite outgrowth can be induced when the cells are treated with d-limonene. After treatment with d-limonene, we observed that p38 MAPK is strongly activated in PC12m3 cells, while ERK is weakly activated. In contrast, JNK shows little activity. A study using an inhibitor of p38 MAPK revealed that neurite outgrowth in PC12m3 cells is induced via the activation of p38 MAPK by d-limonene. The results thus indicate that d-limonene may promote neural cell differentiation mainly via activation of the p38 MAPK pathway.     

Royal jelly-induced neurite outgrowth from rat pheochromocytoma PC12 cells requires integrin signal independent of activation of extracellular signal-regulated kinases

We showed earlier that neurite outgrowth of rat pheochromocytoma PC12 cells was stimulated by royal jelly extract (PERJ) or its unique component, AMP N(1)-oxide, via adenosine A2a receptors. In this study, we found that stimulated neurite outgrowth occurred in medium supplemented with serum, but not in serum-free medium. The pentapeptide GRGDS, which includes the RGD sequence commonly shared by extracellular matrix (ECM) components, could attenuate the effect of serum, suggesting that integrin receptor signaling was essential for the neurite outgrowth induced by PERJ or AMP N(1)-oxide. PERJ or AMP N(1)-oxide also activated extracellular signal-regulated kinases 1 or 2 (ERK1/2); however, this activation was not associated with the neurite outgrowth. As it is known that Mn(2+) induces neurite outgrowth from PC12 cells and activates ERK1/2 through integrin signals and that activation of ERK1/2 is essential for Mn2+-induced neurite outgrowth, a difference in the mechanism between Mn(2+)-induced and PERJ- or AMP N(1)-oxide-induced neurite outgrowth is suggested. Furthermore, we demonstrated that PERJ contained no ECM component-like substances. These results demonstrate that AMP N(1)-oxide and its analogues were the only entities in PERJ with neurite outgrowth-inducing activity and that they required integrin signaling in addition to activation of A2a receptors to induce neurite outgrowth.     

Hypoxia induces neurite outgrowth in PC12 cells that is mediated through adenosine A2A receptors

Development of the nervous system is a complex process, involving coordinated regulation of diverse cellular processes including proliferation, differentiation and synaptogenesis. Disturbances to brain development such as pre- and perinatal hypoxia have been linked to behavioural and late onset of neurological disorders. This study examines the effect of hypoxia on neurite outgrowth in PC12 cells. Hypoxia not only caused a rapid induction of neurite outgrowth, but also synergistically enhanced nerve growth factor (NGF)-induced neurite outgrowth up to 24 h. Transactivation of TrkA receptors was ruled out since the TrkA inhibitor K252a did not block hypoxia-induced neurite outgrowth. Adenosine deaminase prevented hypoxia-induced neurite outgrowth indicating that the effect is mediated by adenosine. Use of the specific adenosine A2A receptor agonist CGS21680 and antagonist 8-3(chlorostyryl)caffeine demonstrated that activation of this receptor is critical for hypoxia-induced neurite outgrowth. Hypoxia-induced neurite outgrowth was blocked by the adenylate cyclase inhibitor, MDL-12,330A, indicating a role for activation of this enzyme in the pathway. Hypoxia was further shown to cause a decrease in growth-associated protein (GAP)-43 levels and a lack of induction of betaIII tubulin, in contrast to NGF treatment which resulted in increased cellular levels of both of these proteins. These findings suggest that hypoxia induces neurite outgrowth in PC12 cells via a pathway distinct from that activated by NGF. Thus, exposure to hypoxia at critical stages of development may contribute to aberrant neurite outgrowth and could be a factor in the pathogenesis of certain delayed developmental neurological disorders.     

Genistein enhances the NGF-induced neurite outgrowth

In the present report, we studied if an isoflavone, genistein, enhances the nerve growth factor (NGF)-induced neurite outgrowth of PC12 cells. Application of genistein enhanced the NGF-induced neurite outgrowth. Knockdown of Na+/K+/2Cl- cotransporter isoform 1 (NKCC1) abolished the stimulatory effect of genistein on the neurite outgrowth. These observations indicate that NKCC1 is essential for genistein to stimulate the NGF-induced neurite outgrowth, although genistein had no effect on the protein expression of NKCC1. On the other hand, genistein activates NKCC1 as shown in our previous study. Taken together, these observations indicate that genistein enhanced the NGF-induced neurite outgrowth in PC12 cells via activation of NKCC1.     

Induction of neurite outgrowth in PC12 cells by the medium-chain fatty acid octanoic acid

It has been shown that polyunsaturated fatty acids such as arachinonic and docosahexanoic acids but not monounsaturated and saturated long-chain fatty acids promote basal and nerve growth factor (NGF)-induced neurite extension of PC12 cells, a line derived from a rat pheochromocytoma. On the other hand, short-chain fatty acids and valproic acid (2-propylpentanoic acid) enhance the growth of neurite processes of the cells only in the presence of inducers. In this study, we demonstrated that straight medium-chain fatty acids (MCFAs) at millimolar concentrations alone potently induced neuronal differentiation of PC12 cells. Hexanoic, heptanoic and octanoic acids dose-dependently induced neurite outgrowth of the cells: their maximal effects determined 2 days after addition to the culture medium were more marked than the effect of NGF. PC12 cells exposed to octanoic acid expressed increased levels of the neuronal marker beta-tubulin isotype III. Nonanoic, decanoic, and dodecanoic acids also induced growth of neurite processes, but their maximal effects were less marked than that of octanoic acid. In contrast, the polyunsaturated fatty acid linoleic acid and short-chain fatty acids had only slight or almost no effects on neurite formation in the absence of NGF. The effect of octanoic acid was synergistic with or additive to the effects of NGF and dibutyryl cyclic AMP. Octanoic acid upregulated phosphorylation of p38 mitogen-activated protein kinase (MAPK), extracellular signal-regulated kinase (ERK), and c-Jun N-terminal kinase (JNK), critical signaling molecules in neuronal differentiation, but not phosphorylation of Akt, a signaling molecule downstream of phosphatidylinositol 3-kinase (PI3K). Moreover, growth of neurites induced by octanoic acid was potently inhibited by treatment of cells with the p38 MAPK inhibitor SB203580 and the ERK kinase inhibitor PD98059 but not inhibited and only slightly inhibited by the JNK inhibitor SP600125 and the PI3K inhibitor wortmannin, respectively. Taken together, our results indicate that MCFAs, including octanoic acid, induced neurite outgrowth of PC12 cells in the absence of NGF and suggest that the activation of p38 MAPK and ERK pathways is involved in this process.     

A synthetic analog of verbenachalcone potentiates NGF-induced neurite outgrowth and enhances cell survival in neuronal cell models

This study uses NeuroScreen-1 (NS-1) cells, a derivative of pheochromocytoma (PC12) cells, to examine neurite outgrowth induced by a novel synthetic verbenachalcone derivative, DSRB20-022 (C22). We treated NS-1 cells with varying concentrations of C22 in the presence of 2 ng/mL nerve growth factor (NGF). A dose-dependent effect of C22 was observed at concentrations of 2 μM and above, resulting in significant enhancement of NGF-dependent neurite outgrowth in NS-1 cells. C22 did not exhibit neuritogenic activity in the absence of NGF, but promoted a concentration-dependent increase in neurite-bearing cells without inducing cytotoxicity. Cell viability assays showed that C22 and the parent compound verbenachalcone (VC) are neuroprotective and enhanced survival of NS-1, PC12, and the murine neuro-2A (N2a) cell lines under conditions of serum deprivation. The results show that augmentation of NGF-induced neurite outgrowth by C22 in NS-1 was dependent on MAP kinase. Furthermore, the neuroprotective function of C22 and VC was accompanied by suppression of caspase-3/7 activation. However, C22 and VC exerted their antagonistic effects on caspase-3/7 activation through potentially different mechanisms of action.     

P53和P21在PC12细胞分化中的作用

目的探讨P53及其下游P21蛋白在PC12细胞分化中的可能作用机制。方法用反转录病毒质粒pBabe-P53/m175转染未分化PC12细胞,经筛选后建立野生型P53蛋白功能丧失的细胞系PC12(P53/m175);利用倒置相差显微镜、流式细胞术及Western blot等方法,比较两种细胞在神经生长因子(NGF)作用后,细胞分化表型、细胞周期及相关蛋白表达的改变。结果NGF作用于正常PC12细胞组,P53/P21蛋白表达持续升高,细胞G1期阻滞出现的时间与蛋白表达开始增加的时间相一致;而在NGF作用的PC12(P53/m175)细胞组,细胞不能表达P21蛋白,且细胞周期G1期阻滞的程度也出现显著下降。NGF作用下,两组细胞都能观察到神经突起的生长,表现出明显的分化表型。结论PC12细胞经NGF作用后出现P53及P21蛋白持续表达增加,主要介导了细胞分化过程中细胞周期G1期阻滞这一特征的出现,但并不是导致神经突起进行性生长这一特征的必需条件。     

Voltage dependent calcium currents in PC12 growth cones and cells during NGF-induced cell growth

The role of calcium currents in the regulation of neurite outgrowth is still rather speculative. As a contribution to this field, macroscopic voltage dependent calcium currents were investigated in relation to the nerve growth factor (NGF)-induced outgrowth of neurites in PC 12 cells. Calcium currents were recorded in isolated growth cones of PC 12 cells using the whole cell patch clamp method. The currents were activated at high voltages and only slightly inactivated with time. The currents were identical to those found in the cell soma of PC 12 cells and similar to the classical high-voltage-activated calcium current found in many neuronal cells. The peak current density in the growth cones was in the same range as in the cell somata. The calcium currents of the cell somata were not modified during the early phase of NGF application, despite the occurrence of NGF-induced soma growth and outgrowth of neurites. The current density at this time was therefore lower in NGF-treated cells than in untreated cells. In a later phase, maximal current amplitudes of NGF-treated cells were higher than in untreated cells indicating an increase in current density to values similar to that found in the untreated cells. In addition, the calcium current inactivation was found to be more pronounced in the NGF-treated cells by that time. The results are discussed with regard to a possible role of calcium currents in the regulation of NGF-induced neurite outgrowth in these cells.     

Involvement of P2Y13 receptor in suppression of neuronal differentiation

We examined the receptor-mediated effects of extracellular ATP on neuronal differentiation of PC12 cells, Neuro2a cells and MEB5 cells by using a series of receptor antagonists. The P2Y13 receptor antagonist MRS2211 significantly accelerated neurite outgrowth in all cases. Treatment with nerve growth factor (NGF) alone activated ERK1/2 in PC12 cells, and the activation was further increased by MRS2211. These results suggest involvement of P2Y13 receptor in suppression of neuronal differentiation. Thus, P2Y13 receptor antagonists might be candidates for treatment of neurodegenerative diseases.     

Sargachromenol, a novel nerve growth factor-potentiating substance isolated from Sargassum macrocarpum, promotes neurite outgrowth and survival via distinct signaling pathways in PC12D cells

We previously found that the methanol extract of a marine brown alga, Sargassum macrocarpum showed marked nerve growth factor (NGF)-dependent neurite outgrowth promoting activity to PC12D cells. The active substance purified was elucidated to be sargachromenol. The median effective dose (ED50) was 9 microM against PC12D cells in the presence of 10 ng/ml NGF, although it showed no neurotrophic effect on its own. Pretreatment of cells with protein kinase A (PKA) inhibitor or U0126 substantially suppressed the sargachromenol-enhanced neurite outgrowth from PC12D cells, suggesting that the activation of cyclic AMP-mediated protein kinase and mitogen-activated protein (MAP) kinase 1/2 was apparently required for the action of sargachromenol. On the other hand, sargachromenol significantly promoted the survival of neuronal PC12D cells at 0-50 ng/ml NGF in serum-free medium. Neither PKA inhibitor nor U0126 could inhibit the survival supporting effect of sargachromenol, whereas wortmannin significantly blocked the sargachromenol-induced survival supporting effect on neuronal PC12D cells, suggesting that sargachromenol rescued neuronal PC12D cells by activating phosphatidylinositol-3 kinase. These results demonstrate that sargachromenol promotes neuronal differentiation of PC12D cells and supports the survival of neuronal PC12D cells via two distinct signaling pathways.     

Differences in neuritogenic response to nitric oxide in PC12 and PC12h cells

We have demonstrated that a natural iridoid compound, genipin, induces neurite outgrowth through the nitric oxide (NO)-cGMP-protein kinase G signaling pathway in PC12h cells. PC12 cells, the parental cell line of PC12h cells, have been shown to carry out neurite extension that accompanies NO production in response to nerve growth factor (NGF). This neurite outgrowth was significantly inhibited by NG-nitro-L-arginine methyl ester (L-NAME), an NO synthase inhibitor, in both PC12 and PC12h cells, suggesting that the neuritogenesis is NO-dependent in both cells. In this report, we investigated whether genipin also induces neurite outgrowth in PC12 cells in order to determine the NO-dependent neurotrophic action of genipin in more than just one cell type. Genipin induced marked neurite outgrowth in PC12h cells but not in PC12 cells. The genipin-induced neurite outgrowth was significantly inhibited by L-NAME in PC12h cells. An NO donor, NOR4, also significantly induced neurite outgrowth in a concentration-dependent manner in PC12h cells but not in PC12 cells. On the other hand, NGF-primed PC12 cells exhibited significant neurite extension, which was inhibited by L-NAME, in response to genipin. Interestingly, NGF-primed PC12 cells responded to NOR4 extending neurites and expressed detectable neuronal NO synthase protein which is not detected in naive PC12 cells. These results suggest that genipin exerts a neuritogenic action on neuronal cells which are responsive to NO itself. Furthermore, the results also suggest that PC12h cells are more suitable for the study of NO-dependent neuronal function than PC12 cells which were not responsive to NO.     

Screening of natural medicines that efficiently activate neurite outgrowth in PC12 cells in C2C12-cultured medium

We have studied the effects of natural medicines on neurite outgrowth in PC12D cells in a cultured medium of C2C12 cells. Derived from mouse myoblasts, the C2C12 cells secrete neurotrophic factors including nerve growth factor (NGF), brain-derived neurotrophic factor (BDNF) and neurotrophin-3 (NT-3). The secretion of these neurotrophins from C2C12 cells stimulate neurite outgrowth in PC12D cells. We have screened a total of 120 samples and found five natural medicines: Trichosanthes Root, Asiasarum Root, Lycium Bark, Sinomenium Stem, and Dictamni radicis Cortex, that enhance the activity of C2C12-cultured medium to stimulate neurite outgrowth in PC12D cells. These natural medicines promoted not only neurite outgrowth but also stabilized the neurite formation in PC12D cells for several days. RT-PCR analysis showed that NGF was significantly increased with Trichosanthes and Lycium Bark. However, BDNF was slightly decreased with Lycium Bark, Sinomenium Stem, and Dictamni radicis Cortex. NT-3 was increased slightly by all of these natural medicines except Sinomenium Stem. All these five natural medicines significantly increased the number and length of neurites in PC12D cells in co-culture with C2C12 cells.     

ERK在NGF诱导PC12 细胞分化中的作用

目的探讨细胞外信号调节激酶(ERK)在NGF。诱导的PC12细胞分化中的作用机制。方法以NGF处理PC12细胞建立分化模型,运用免疫印迹检测不同浓度不同作用时间时NGF对ERK1／2蛋白和磷酸化ERK1／2蛋白水平的影响,并观察MAPK／ERK激酶(MEK)抑制剂U0126对NGF诱导的细胞形态学改变的影响。结果ERK1／2蛋白的磷酸化呈现NGF剂量和时间依赖性。NGF作用细胞5min即可观察到明显的ERK1／2蛋白磷酸化,持续1h左右,2h时降低到初始水平,而细胞形态的改变出现在NCF作用12h以后。倒置相差显微镜观察可见PC12细胞分化的程度与ERK1／2活化持续的时间正相关,U0126可完全即时抑制ERK1／2的活化,而ERK1／2活化的抑制可完全阻断。NGF诱导的PC12细胞分化。结论ERK1／2的活化是PC12细胞发生分化的必需事件,其活化时间的长短对分化具有决定作用。     

Inhibition of NGF-induced neurite outgrowth of rat pheochromocytoma cells (PC12) following administration of dioxyamphetamine

Amphetamine analogs are known to induce not only neurotoxicity at serotonergic axon terminals but also neocortical neuronal degeneration. However, a much less studied aspect involves the impact of amphetamine exposure on neuronal development. The present study investigated whether pretreatment of PC12 cells with dioxyamphetamine (DA) alters differentiation of PC12 cells by NGF and, if so, which components of the Ras/Raf/MEK/ERK pathway known to be involved in the differentiation response to NGF are particularly affected. Though exposure of PC12 cells to DA 1 h prior to NGF treatment resulted in apopotosis, several PC12 cells survived. However, neurite outgrowth of these NGF-responsive cells was repressed. Immunoblots of whole cell extracts revealed a strong induction rather than inhibition of ERK phosphorylation up to 48 h after DA/NGF treatment. Our results indicate that NGF-mediated neurite outgrowth was inhibited by pretreatment with DA, and this blockage of NGF-induced neuritogenesis was not due to an inhibition of ERK phosphorylation.     

Effect of scoparone on neurite outgrowth in PC12 cells

The neurite outgrowth-promoting effects of scoparone isolated from the stem bark of Liriodendron tulipifera were investigated in PC12 cells. At a concentration of 200 microM, scoparone markedly induced neurite outgrowth from PC12 cells. Scoparone at 200 microM also enhanced the outgrowth of neurites from cells in the presence of nerve growth factor (NGF, 2 ng/ml). The levels of intracellular cyclic AMP and concentration of Ca2+ were also increased by 200 microM scoparone. In addition, scoparone at 200 microM increased the activities of extracellular signal-regulated protein kinase (ERK), cyclic AMP-dependent protein kinase (PKA), protein kinase C (PKC) and Ca2+/calmodulin kinase II (CaMK II). However, scoparone-induced neurite outgrowth was blocked by a mitogen-activated protein kinase inhibitor (U0126), a PKA inhibitor (H89), a PKC inhibitor (GF109203X) and a CaMK II inhibitor (KN62). These kinase inhibitors also reduced the scoparone-induced neurite outgrowth associated with NGF. These results suggest that scoparone can induce neurite outgrowth by stimulating the upstream steps of ERK, PKA, PKC and CaMK II in PC12 cells.     

JNK信号转导通路在NGF抗6-OHDA诱导PC12细胞凋亡中的作用

目的： 以6-羟基多巴胺(6-OHDA)作用于大鼠肾上腺嗜铬细胞瘤细胞(PC12 cells)以诱导其凋亡,然后在其中分别加入神经生长因子（NGF）及c-Jun氨基端激酶（JNK）阻断剂SP600125,研究在加入NGF后JNK的活性与凋亡的关系。方法: 实验分为对照组、6-OHDA组、NGF组、6-OHDA+NGF组、6-OHDA+JNK阻断剂SP600125组,以流式细胞分析法检测各组PC12细胞的凋亡率,以免疫印迹（Western blotting）法检测各组PC12细胞JNK的活化情况。结果: 6-OHDA导致PC12细胞凋亡,JNK1活性提高;预孵SP600125或NGF15min后再加入6-OHDA则PC12细胞凋亡率及JNK1活性均降低。结论: JNK1参与了6-OHDA致PC12细胞凋亡作用,NGF抗6-OHDA所诱导的PC12细胞凋亡作用与其抑制JNK的活化有关。     

Syntaxin 6 regulates nerve growth factor-dependent neurite outgrowth

Neurite outgrowth is crucial for neural circuit formation. Intracellular membrane trafficking is involved in the cell surface expansion that is necessary for neurite outgrowth. It is known that syntaxin 6 is predominantly located in the Golgi region in undifferentiated PC12 cells and that it regulates trans-Golgi network trafficking and the secretory pathway via its coiled-coil domains. However, whether it also regulates neurite outgrowth remains unknown. In this paper, we found that syntaxin 6 was located both in the Golgi apparatus and the distal tips of the neurites of nerve growth factor (NGF)-treated PC12 cells. We also showed that the overexpression of the first coiled-coil domain of syntaxin 6 inhibited NGF-dependent neurite outgrowth. However, the coiled-coil domain-disrupting mutant had little effect on neurite outgrowth. These results suggest that the first coiled-coil domain of syntaxin 6 plays a crucial role in NGF-dependent neurite outgrowth.     

Nerve growth factor expression by PLG-mediated lipofection

Biomaterials capable of efficient gene delivery provide a fundamental tool for basic and applied research models, such as promoting neural regeneration. We developed a system for the encapsulation and sustained release of plasmid DNA complexed with a cationic lipid and investigated their efficacy using in vitro models of neurite outgrowth. Sustained lipoplex release was obtained for up to 50 days, with rates controlled by the fabrication conditions. Released lipoplexes retained their activity, transfecting 48.2+/-8.3% of NIH3T3 cells with luciferase activity of 3.97x10(7)RLU/mg. Expression of nerve growth factor (NGF) was employed in two models of neurite outgrowth: PC12 and primary dorsal root ganglia (DRG) co-culture. Polymer-mediated lipofection of PC12 produced bioactive NGF, eliciting robust neurite outgrowth. An EGFP/NGF dual-expression vector identified transfected cells (GFP-positive) while neurite outgrowth verified NGF secretion. A co-culture model examined the ability of NGF secretion by an accessory cell population to stimulate DRG neurite outgrowth. Polymer-mediated transfection of HEK293T with an NGF-encoding plasmid induced outgrowth by DRG neurons. This system could be fabricated as implants or nerve guidance conduits to support cellular and tissue regeneration. Combining this physical support with the ability to locally express neurotrophic factors will potentiate regeneration in nerve injury and disease models.     

神经生长因子基因重组逆转录病毒载体的构建与鉴定

目的构建神经生长因子(NGF)基因重组逆转录病毒表达载体,研究NGF在神经干细胞(NSC)中的表达情况。方法从大鼠海马组织提取总RNA,利用RT-PCR的方法获得编码大鼠β-NGF的基因片段,应用基因重组技术,将大鼠β-NGF基因片段克隆到逆转录病毒表达载体pLEGFP-N1中,通过脂质体Lipofectamine2000转染包装细胞PT67,经G418筛选后,收集阳性克隆病毒上清,用于感染神经干细胞(NSC),观察该NSC表达的NGF对PC12细胞突起生长的作用。结果限制性内切酶酶切分析鉴定表明为正确重组子,β-NGF基因在NSC中获得表达,该NSC的培养上清液可以促进PC12细胞突起生长。结论重组逆转录病毒表达载体pLEGFP-NGF构建成功,β-NGF基因可在NSC中表达并具有生物学活性。