神经生长因子及其受体相关信号传导通路的研究进展

神经生长因子是神经营养因子家族成员之一,对不同时期神经元的存活、分化、生长及损伤后的修复和再生都有着十分重要的作用。不仅在神经系统中,随着人类的其他正常和肿瘤组织中同样也检测得到了NGF,神经生长因子在各方面的应用也得到了重视并均已得到了证实。NGF功能的发挥离不开与其受体的结合,根据NGF表面糖蛋白与凝集素结合能力的不同,其受体可被分为高亲和力受体酪氨酸激酶A和低亲和力受体p75。Trk A与NGF结合后所介导的信号通路主要有:1MAPK通路;2PLC-γ通路;3PI3K/PKB通路。而p75与NGF结合介导的信号传导通路主要包括:1NF-κB通路;2JNK-p53-Bax凋亡通路;3神经酰胺通路。Trk A一般介导的是正性信号,如促进神经细胞生长、维持神经细胞的存活等;而p75既可促进神经细胞存活,也可诱导神经细胞凋亡,但以后者为主。当Trk A与p75同时表达时,Trk A可抑制p75诱导细胞凋亡,使受损神经细胞大量增殖,所以其生物学总效应是促进神经细胞的生长和存活。     

Regulation by Interleukin-1 of Nerve Growth Factor Secretion and Nerve Growth Factor mRNA Expression in Rat Primary Astroglial Cultures

Primary cultures of neonatal rat cortical astrocytes contain low cellular levels (about 2 pg/mg of protein) of nerve growth factor (NGF), but secrete significant amounts of NGF into the culture medium (about 540 pg of NGF/mg of cell protein/38-h incubation). Incubation of astrocytes with interleukin-1 (IL-1) increased the cellular content of NGF and the amount secreted by about threefold. In comparison, cerebellar astrocytes secreted significant amounts of NGF, and the secretion was also stimulated by IL-1. The stimulatory action of IL-1 on astrocytes prepared from cortex was dose- and time-dependent. Concentrations of IL-1 causing half-maximal and maximal stimulation of NGF secretion were 1 and 10 U/ml, respectively). Maximal NGF secretion induced by IL-1 (10 U/ml) was seen following 38 h of incubation. The basal secretion of NGF was reduced by about 50% under Ca2(+)-free conditions; however, the percent stimulation of NGF secretion by IL-1 was the same in the absence or presence of Ca2+. The stimulatory action of IL-1 was specific, because other glial growth factors and cytokines were almost ineffective in stimulating NGF secretion from cortical astroglial cells. IL-1 treatment also increased cellular NGF mRNA content twofold. The results indicate that IL-1 specifically triggers a cascade of events, independent of cell growth, which regulate NGF mRNA content and NGF secretion by astrocytes.     

Multiple Signalling Pathways Interact in the Regulation of Nerve Growth Factor Production in L929 Fibroblasts

Fibroblasts are one of several cell types producing nerve growth factor (NGF) in neuronal targets. In previous studies we found that NGF production is up-regulated by 12-O-tetradecanoylphorbol 13-acetate (TPA) and serum, down-regulated by corticosterone, and unaffected by dibutyryl-cyclic AMP (db-cyclic AMP) in fibroblasts. As fibroblasts in vivo are likely to be exposed to regulatory effects by more than one of these agents at any given time, we examined the effects of combinations of them on NGF production using L929 fibroblasts as a model system. TPA and serum together stimulated NGF production 10-fold more than either agent alone. Corticosterone reduced NGF mRNA and NGF production to less than 10% of basal levels whether or not TPA or serum, or both, were present but not in the presence of the glucocorticoid antagonist RU486. Corticosterone did not increase the rate of NGF mRNA degradation. Forskolin and db-cyclic AMP prevented NGF mRNA induction by TPA and serum without changing basal levels. TPA induced c-fos and junB mRNAs transiently and preceding NGF mRNA induction but c-jun mRNA remained undetectable. Forskolin enhanced the induction of both junB and c-fos mRNA whereas corticosterone prolonged junB mRNA induction. Thus, TPA induction of NGF mRNA is modulated differentially by corticosterone and cyclic AMP. c-fos and junB may play a role in the underlying mechanisms.     

Ceramide Prevents Neuronal Programmed Cell Death Induced by Nerve Growth Factor Deprivation

Abstract: We examined the ability of ceramide and sphingomyelinase (SMase) to prevent neuronal programmed cell death (PCD). We found that a cell-permeable ceramide analogue prevented neuronal PCD when applied to established sympathetic neuron primary cultures at the time of nerve growth factor (NGF) deprivation. Other amphiphilic lipids such as oleic acid failed to prevent cell death. Exogenous SMase also showed the same effect, probably by raising the intracellular ceramide level by sphingomyelin (SM) breakdown. Phosphocholine, another hydrolytic product of SM by SMase, did not prevent cell death. Other phospholipases, such as phospholipase C and phospholipase A₂, could not prevent cell death. Given the recent findings that the SM cycle is activated to increase the intracellular ceramide level on NGF binding to the low-affinity NGF receptor (LNGFR) and that NGF binding to LNGFR suppresses apoptosis in neural cell lines, our results suggest the possibility of the SM cycle as a signaling mechanism transducing the PCD-preventing activity of NGF.     

Suramin Induces Phosphorylation of the High-Affinity Nerve Growth Factor Receptor in PC12 Cells and Dorsal Root Ganglion Neurons

Abstract: Suramin is a polysulfonated naphthylurea with demonstrated antineoplastic activity. Toxicity includes adrenal insufficiency and peripheral neuropathy. Although the mechanism of antitumor activity is unknown, inhibition of binding of growth factors to their receptors has been suggested. Growth factors inhibited by suramin include platelet-derived growth factor, fibroblast growth factor, transforming growth factor, epidermal growth factor, insulin-like growth factor, and nerve growth factor (NGF). In these studies, suramin was shown to be cytotoxic to PC12 cells in a dose-dependent manner. At lower doses and in surviving cells, we observed the induction of neurite outgrowth. To determine the mechanism of suramin-induced neurite outgrowth, PC12 cells were exposed to suramin and/or NGF for various time periods and treated cells were analyzed, by western blot analysis, for expression of tyrosine phosphoproteins. There was a similarity in the pattern of tyrosine-phosphorylated proteins in PC12 cells stimulated with suramin or NGF. Of particular interest was the rapid phosphorylation (by 1 min) of the high-affinity NGF (TrkA) receptor. Activation of other members of the signal-transduction cascade (Shc, p21 ^ras , Raf-1, ERK-1) revealed similar phosphorylation levels induced by suramin and NGF. Parallel studies were performed in rat dorsal root ganglion cultures; suramin potentiated neurite outgrowth and activated the NGF receptor on these cells. This finding of specific patterns of tyrosine phosphorylation of cellular proteins in response to suramin treatment demonstrated that suramin is a partial agonist for the NGF receptor in both PC12 cells and dorsal root ganglion neurons.     

Characteristics of Partially Purified Nerve Growth Factor Receptor

Receptors for the nerve growth factor protein (NGF) have been isolated from three cell types [embryonic chicken sensory neurons (dorsal root sensory ganglia; DRG), rat pheochromocytoma (PC12) and human neuroblastoma (LAN-1) cells] and have been shown to be similar with respect to equilibrium dissociation constants. The present results demonstrate that there are multiple molecular weight species for NGF receptors from DRG neurons and PC12 cells. NGF receptors can be isolated from DRG as four different molecular species of 228, 187, 125, and 112 kilodaltons, and PC12 cells as three molecular species of 203, 118, and 107 kilodaltons. The NGF receptors isolated from DRG show different pH-binding profiles for high- and low-affinity binding. High-affinity binding displays a bell-shaped pH profile with maximum binding between pH 7.0 and 7.9, whereas low-affinity binding is constant between pH 5.0 and 9.1, with a twofold greater binding at pH 3.6. At 22 degrees C, the association rate constant was found to be 9.5 +/- 1.0 X 10(6) M-1 s-1. Two dissociation rate constants were observed. The fast dissociating receptor has a dissociation rate constant of 3.0 +/- 1.5 X 10(-2) s-1, whereas the slow dissociating receptor constant was 2.4 +/- 1.0 X 10(-4) s-1. The equilibrium dissociation constants calculated from the ratio of dissociation to association rate constants are 2.5 X 109-11) M for the high-affinity receptor (type I) and 3.2 X 10(-9) M for the low-affinity receptor (type II). These values are the same as those determined by equilibrium experiments on the isolated receptors.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of Nerve Growth Factor on Glutathione Peroxidase and Catalase in PC 12 Cells

Abstract: Nerve growth factor (NGF) is a member of the neuro- trophin family and is required for the survival and maintenance of peripheral sympathetic and sensory ganglia. In the CNS, NGF regulates cholinergic expression by basal forebrain cholinergic neurons. NGF also stimulates cellular resistance to oxidative stress in the PC12 cell line and protects PC12 cells from the toxic effects of reactive oxygen species. The hypothesis that NGF protection involves changes in antioxidant enzyme expression was tested by measuring its effects on catalase and glutathione per- oxidase (GSH Px) mRNA expression in PC12 cells. NGF increased catalase and GSH Px mRNA levels in PC 12 cells in a time- and dose-dependent manner. There was also a corresponding increase in the enzyme activities of catalase and GSH Px. Thus, NGF can provide cytoprotection to PC12 cells by inducing the free radical scavenging enzymes catalase and GSH Px.     

Nerve Growth Factor Potentiates Bradykinin-Induced Calcium Influx and Release in PC12 Cells

To investigate how the response to agonists changes during neuronal differentiation, we examined the effect of nerve growth factor (NGF) on bradykinin-induced calcium increases in PC12 cells. Short-term (1 h) treatment with NGF increased the potency of bradykinin to raise intracellular calcium by about 10-fold, whereas long-term (1 week) treatment, which was associated with the expression of the differentiated phenotype, increased the potency about 100-fold. Neither treatment affected the maximal response to bradykinin. NGF alone had no acute effect on calcium levels. Short-term potentiation appeared to be mainly a result of greater release of calcium from intracellular stores, whereas the effect of long-term treatment apparently was due to increases in both release from intracellular stores and calcium influx. [3H]Bradykinin binding to intact PC12 cells was unaltered by short-term NGF treatment, whereas differentiated cells displayed a 50% increase in receptor number and about a twofold increase in affinity as compared with cells not treated with NGF. The production of inositol phosphates in response to bradykinin correlated poorly with the calcium transients, in that large calcium responses were associated with small increases in inositol phosphates. Neither NGF treatment had a significant effect on the appearance of inositol phosphates in response to bradykinin. Experiments with permeabilized cells revealed that differentiated cells did not display a heightened response to exogenously added inositol 1,4,5-trisphosphate. Our results demonstrate that NGF modulates the bradykinin signaling pathway without acutely activating this pathway itself.     

Nerve Growth Factor Determines Survival and Death of PC12 Cells by Regulation of the bcl-x, bax, and caspase-3 Genes

We investigated the effects of nerve growth factor (NGF) and NGF withdrawal on expression of members of the bcl-2 family of genes and caspase-3 in PC12 cells. NGF regulated several members of the bcl-2 family and caspase-3 in a manner consistent with its effect on apoptosis in PC12 cells. Levels of bcl-xl, bcl-xs, and caspase-3 mRNAs were increased by NGF treatment. The increases in caspase-3 and bcl-xs levels should have disposed the cells toward apoptosis but were opposed by the simultaneous increase in bcl-xl level. NGF withdrawal resulted in abrupt down-regulation of bcl-xl and up-regulation of bax, favoring apoptosis. Forced expression of bcl-xl after NGF withdrawal was sufficient to prevent cell death. Cell death was rapid when NGF was withdrawn after 5 days of treatment but relatively slow when NGF was withdrawn after only 1 or 2 days of treatment. This was consistent with the reduced accumulation of caspase-3 mRNA with shorter NGF treatments. These results indicate that Bcl-xl, Bcl-xs, Bax, and caspase-3 are important regulators of apoptosis in PC12 cells. Furthermore, regulation of their mRNA levels is implicated in the signal transduction of NGF.     

Induction of Growth Factor Receptors on Cultured Human Melanocytes

Using a sensitive and selective culture system for human epidermal melanocytes, we have demonstrated that the morphologic changes induced by addition of phorbol 12-tetradecanoate 13-acetate (TPA) to proliferating newborn melanocytes are associated with induction of nerve growth factor (NGF) receptors, as measured by messenger RNA (mRNA) levels and protein accumulation and by cell surface immunofluorescent staining. Growth factor deprivation or addition of NGF similarly results in NGF receptor induction. NGF is believed to function in vivo and in vitro as a survival factor for many neural crest-derived cells and has been demonstrated to promote specific neural cell functions ranging from neurite outgrowth to enzyme induction, but to date no role for NGF has been identified with regard to normal human melanocytes. Our data demonstrate that, given appropriate stimulation, cultured human melanocytes may express the NGF receptor gene and therefore suggest that NGF may modulate human melanocyte behavior in vivo. This first demonstration of a growth factor receptor on human melanocytes provides an important opportunity to explore signal transduction relevant to their growth, differentiation, and malignant transformation.     

神经生长因子的发光免疫分析法

介绍了一种灵敏的神经生长因子化学发光免疫测定方法。小鼠神经生长因子（ｍＮＧＦ）的抗体ＩｇＧ用亲和层析纯化并用吖啶酯标记。该法可用于大鼠组织中ＮＧＦ含量的测定。方法的灵敏度为１０ｐｇ／ｍＬＮＧＦ;批内批间变异系数分别为８．７％及１３．２％;回收率平均为１０３％。ｍＮＧＦ抗体对人的ＮＧＦ也有极强的交叉反应,故本方法也可能用于病人血清或脑脊液中ＮＧＦ含量的测定。     

Nerve Growth Factor as a Mitogen for a Pancreatic Carcinoid Cell Line

Abstract: Carcinoid tumors are a group of neuroendocrine neoplasms distributed widely throughout the body but most commonly occurring in the gut. These tumors retain many characteristics of their neural crest origin, including secretion of neuroactive peptides and responsiveness to neurotrophic substances. Nerve growth factor (NGF), a neurotrophic protein involved in maintenance and differentiation of peripheral sympathetic and sensory neurons, regulates growth of several neural tumor cells by inducing a differentiated phenotype and subsequent inhibition of cell growth rate. We examined the actions of NGF in a functioning human pancreatic carcinoid cell line (termed BON). NGF has no effect on the cytoarchitecture or constitutive secretion of bioamines in this carcinoid cell line. NGF, however, stimulates the in vitro cellular proliferation of BON cells. BON cells possess mRNA for the NGF receptors (p75^LNGFR and p140^trkA) and membrane-associated tyrosine kinase activity is increased in response to NGF. Both the mitogenic activity of NGF, as well as the receptor-linked tyrosine kinase activity, can be abrogated in BON cells by the trkA inhibitor K-252a and specific anti-NGF antibody. Our studies demonstrate that NGF is a mitogen for this carcinoid cell line without effect on cellular phenotype or cytoarchitecture. NGF may play a role in the development and progression of human carcinoid tumors.     

神经生长因子与神经系统老化

老化通常指生物体生长发育成熟以后,随年龄增加生理机能逐渐减退,内环境稳定性下降,组织器官逐渐发生退行性改变,最终走向衰老、死亡的过程。神经系统老化是神经元退行性病变形成的基础和条件。由于神经生长因子（nerve growth factor,NGF）与中枢神经系统胆碱能神经元的存活和可塑性调节密切相关,所以NGF在神经系统老化和神经退行性变疾病如老年性痴呆（Alzheimer’s disease,AD）的发生发展过程中发挥重要作用。本文综述了NGF在脑老化中的变化及其与AD发病机制的关系。     

Nerve Growth Factor Protects PC12 Cells Against Peroxynitrite-Induced Apoptosis via a Mechanism Dependent on Phosphatidylinositol 3-Kinase

Abstract: Nerve growth factor (NGF) prevents apoptosis induced by the oxidant peroxynitrite in undifferentiated PC12 rat pheochromocytoma cells. Previous studies have shown that activation of phosphatidylinositol 3-kinase (PI 3-kinase) by NGF via the TrkA receptor tyrosine kinase protects PC12 cells from serum deprivation-induced apoptosis. We found that two PI 3-kinase inhibitors, wortmannin and LY294002, eliminated the protection NGF provided against peroxynitrite-induced apoptosis at concentrations consistent with their effectiveness as PI 3-kinase inhibitors. When the activity of PI 3-kinase was assayed in phosphotyrosine immunoprecipitates after treatment of PC12 cells with peroxynitrite, PI 3-kinase activity was reduced by 50% of that detected in control cells, whereas PI 3-kinase activity in NGF-treated cells was unaffected by peroxynitrite. If an antibody against PI 3-kinase was used to immunoprecipitate the enzyme, treatment with peroxynitrite had no effect on activity. Therefore, peroxynitrite appeared to disrupt interactions between PI 3-kinase and phosphotyrosine proteins, rather than directly inhibiting the enzyme. NGF also activates p21^Ras-dependent pathways, but this did not appear to be required for NGF to exert its protective effect against peroxynitrite. PC12 cells expressing a dominant inhibitory mutant of p21^Ras were equally susceptible to peroxynitrite-induced apoptosis, which was prevented by NGF. Wortmannin was also able to block the protective effect of NGF in the p21^Ras mutant cell line. Although many signaling pathways are activated by NGF, these results suggest that a PI 3-kinase-dependent pathway is important for inhibiting peroxynitrite-induced apoptosis.     

A Purine Analog-Sensitive Protein Kinase Activity Associates with Trk Nerve Growth Factor Receptors

Abstract: Previous studies showed that purine analogs block with varying efficiency and specificity certain effects of nerve growth factor (NGF) on PC12 cells. These compounds also inhibit protein kinase activities. The analog 6-thioguanine has thus far been shown to inhibit only protein kinase N, an NGF-activated protein kinase, whereas 2-aminopurine also blocks other kinases. In the present study, immunoprecipitates of Trk NGF receptors from PC12 cells (NGF treatment) were assayed for protein kinase activity by using the substrates myelin basic protein and histone HF1 under phosphorylating conditions optimal for protein kinase N and in the presence or absence of purine analogs. Activity was detected and ∼50–80% was inhibited by these compounds. The purine analog-sensitive activity was maximally stimulated by NGF within 5 min, was partially decreased by 10 min, and still remained over basal levels after 15 h of NGF treatment. Analysis of myelin basic protein phosphorylated by anti-Trk immunoprecipitates revealed an NGF-stimulated increase in phosphothreonine and phosphotyrosine. Phosphorylation of threonine, but not of tyrosine residues, was inhibited by 6-thioguanine, which therefore inhibits a serine/threonine kinase associated with NGF receptor rather than the receptor kinase itself. Neither 2-aminopurine nor 6-thioguanine inhibited the NGF-dependent induction of Trk-associated kinase activity. Our findings thus indicate association of a purine analog-sensitive serine/threonine protein kinase activity with Trk NGF receptors.     

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.     

前列腺组织中神经生长因子(NGF)表达的研究

研究前列腺组织中神经生长因子（ＮＧＦ） 的生理学意义。采用原位杂交和免疫组化法, 检测４３ 例前列腺增生组织, ８ 例腺癌组织和８ 例正常组织中β－ＮＧＦｍ ＲＮＡ及其蛋白的表达及分布。结果显示β－ＮＧＦｍ ＲＮＡ 在正常组织及增生组织中定位于间质细胞, 偶见于上皮细胞中; 而在癌组织中, 上皮细胞和间质细胞有同样强度的β－ＮＧＦｍ ＲＮＡ染色。其蛋白在良性组织中表达主要着色在间质细胞中,上皮细胞呈弱表达,而癌组织中上皮细胞见着色明显增强（Ｐ＜ ０．０５）。ＮＧＦ的自分泌异常可见是前列腺组织由良性向恶性转变的原因之一。