Transforming growth factor-beta 1 in the rat brain: increase after injury and inhibition of astrocyte proliferation

Transforming growth factor-beta 1 (TGF-beta 1) has been shown to up-regulate the synthesis of nerve growth factor (NGF) in cultured rat astrocytes and in neonatal brain in vivo (Lindholm, D., B. Hengerer, F. Zafra, and H. Thoenen. 1990. NeuroReport. 1:9-12). Here we show that mRNA encoding TGF-beta 1 increased in rat cerebral cortex after a penetrating brain injury. The level of NGF mRNA is also transiently increased after the brain trauma, whereas that of brain-derived neurotrophic factor remained unchanged. In situ hybridization experiments showed a strong expression of TGF-beta 1 4 d after the lesion in cells within and in the vicinity of the wound. Staining of adjacent sections with OX-42 antibodies, specific for macrophages and microglia/brain macrophages, revealed a similar pattern of positive cells, suggesting that invading macrophages, and perhaps reactive microglia, are the source of TGF-beta 1 in injured brain. Both astrocytes and microglia express TGF-beta 1 in culture, and TGF-beta 1 mRNA levels in astrocytes are increased by various growth factors, including FGF, EGF, and TGF-beta itself. TGF-beta 1 is a strong inhibitor of astrocyte proliferation and suppresses the mitotic effects of FGF and EGF on astrocytes. The present results indicate that TGF-beta 1 expressed in the lesioned brain plays a role in nerve regeneration by stimulating NGF production and by controlling the extent of astrocyte proliferation and scar formation.     

Triptolide Upregulates NGF Synthesis in Rat Astrocyte Cultures

Triptolide (T10), an extract from the traditional Chinese herb, Tripterygium wilfordii Hook F (TWHF), has been shown to attenuate the rotational behavior induced by d-amphetamine and prevent the loss of dopaminergic neurons in the substantia nigra in rat models of Parkinson’s disease. To examine if the neuroprotective effect is mediated by its stimulation of production of neurotrophic factors from astrocytes, we investigated the effect of T10 on synthesis and release of nerve growth factor (NGF), brain-derived neurotrophic factor (BDNF) and glial cell line-derived neurotrophic factor (GDNF) in rat astrocyte cultures. T10 did not affect the synthesis and release of either BDNF or GDNF. However, it significantly increased NGF mRNA expression. It also increased both intracellular NGF and NGF level in culture medium. These results indicate that the neuroprotective effect of T10 might be mediated, at least in part, via a stimulation of the production and release of NGF in astrocytes. Authors Bing Xue and Jian Jiao contributed equally to this work.     

β-adrenergic receptor regulation,through cyclic AMP,of nerve growth factor expression in rat cortical and cerebellar astrocytes

1. Type 1 astrocytes prepared from 3-day rat cortex and cerebellum express the 1.3-kb nerve growth factor (NGF) mRNA and synthesize and release beta-NGF. 2. Isoproterenol (IP), a beta-adrenergic agonist, stimulates NGF mRNA content in cortical astrocytes; this increase is blocked by the beta-adrenergic antagonist propranolol but not the alpha-antagonist phenoxybenzamine. The EC50 for the effect of IP is 5 nM. 3. IP increases astrocyte cyclic AMP as does forskolin, which directly activates adenylate cyclase and also increases NGF mRNA content. Cerebellar astrocytes contain about one-third as much NGF mRNA, which can also be increased by forskolin and cyclic AMP. 4. These results suggest that CNS astrocytes can serve as a source of NGF and that the NGF gene is one of the class of cyclic AMP regulated genes.     

A Culture Model of Reactive Astrocytes: Increased Nerve Growth Factor Synthesis and Reexpression of Cytokine Responsiveness

Abstract: Reactive gliosis, which occurs in response to damage to the central nervous system, has been recognized for years but is not yet understood. We describe here a tissue culture model of reactive astrocytes used to characterize their properties. Cultures are prepared 1 week following 6-hydroxydopamine (6-OHDA) lesion of rat substantia nigra and compared with astrocytes cultured from normal adult rats or rats injected with saline only. Astrocytes from the 6-OHDA-lesioned side contained elevated levels of glial fibrillary acidic protein (GFAP) and GFAP mRNA and were intensely immunoreactive for GFAP, vimentin, and two epitopes that in vivo are found only on reactive astrocytes. The basal content of nerve growth factor (NGF) mRNA and NGF in astrocytes from 6-OHDA-lesioned rats was significantly higher relative to control astrocytes. Two inflammatory cytokines, interleukin-1β and interferon-γ, increased synthesis of NGF up to 20-fold in the reactive cells, whereas there was no response in the normal adult astrocytes. Astrocytes from postnatal day 2 rats shared many of the properties of the reactive adult astrocytes. These cultures offer the possibility to characterize the cellular and molecular properties of reactive astrocytes and to determine the factors responsible for activation of astrocytes.     

Poly(ADPR)polymerase expression and activity during proliferation and differentiation of rat astrocyte and neuronal cultures.

Poly(ADPR)polymerase (poly(ADPR)P) mRNA and enzymatic activity levels were investigated in primary cultures of rat astrocytes and neurons in the absence or presence of basic fibroblast growth factor (bFGF) and nerve growth factor (NGF), respectively. In cultured rat astrocytes, a biphasic increase in poly(ADPR)P mRNA, associated with enhanced nuclear poly(ADPR)P enzymatic activity, were observed. The first rise in poly(ADPR)P mRNA and enzymatic activity is at the beginning of cell proliferation and the second with the occurrence of cell differentiation. In the presence of bFGF (5 ng/ml) the mRNA peaks and the differentiation-associated poly(ADPR)P enzymatic activity undergoes a 2-fold increase. In neuronal cultures an initial high level of poly(ADPR)P mRNA is followed by a decrease while differentiation is progressively achieved. A limited increase of poly(ADPR)P activity is observed during this phase. In the presence of NGF (50 ng/ml), similar poly(ADPR)P mRNA expression and enzymatic activity patterns are observed. The results suggest that poly(ADPR)P is involved at the onset of nerve-cell proliferation and differentiation.     

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.     

Enhancer substances: selegiline and R-(-)-1-(benzofuran-2-yl)-2-propylaminopentane [(-)-BPAP] enhance the neurotrophic factor synthesis on cultured mouse astrocytes

R-(-)-1-(benzofuran-2-yl)-2-propylaminopentane [(-)-BPAP] is a potent "catecholaminergic and serotonergic activity enhancer (CAE/SAE)", which enhances the impulse-evoked catecholamines and serotonin release, e.g. (-)-BPAP enhances in vitro norepinephrine efflux from the slices of locus coeruleus in a bipolar manner with the two effective ranges of low (fM-pM level) and high (nM-microM level) concentrations. Here, the effects of (-)-BPAP and selegiline on the cultured mouse astrocytes were studied. The protein levels of the neurotrophic factors (NGF, BDNF and GDNF) in the conditioned medium of cultured astrocytes were determined by using ELISA. In the cultured astrocytes incubated for 24 h with selegiline, the synthesis of NGF and BDNF was significantly enhanced in the concentration dependent manner, with minimum effective concentrations of 4 x 10(-4) and 5 x 10(-4) M, respectively. (-)-BPAP also enhanced the NGF, BDNF and GDNF synthesis, with minimum effective concentrations of 5 x 10(-5), 1 x 10(-5), and 1 x 10(-6) M, respectively. Although the effects of (-)-BPAP on the NGF synthesis was tested in the range of 1 x 10(-15)-5 x 10(-4) M, the concentration response curve of (-)-BPAP was a single bell shape with the peak effect at 1 x 10(-4) M, and did not show any effects in low concentrations such as fM-pM level. Each concentration response curve of (-)-BPAP on BDNF and GDNF synthesis was a single bell shape with peak effects at 1 x 10(-3) M and 1 x 10(-4) M, respectively.     

HDL-like lipoproteins in cerebrospinal fluid affect neural cell activity through lipoprotein-associated sphingosine 1-phosphate

High-density lipoprotein (HDL)-associated sphingosine 1-phosphate mediates a variety of lipoprotein-induced actions in vascular cell systems. However, it remains unknown whether extracellular S1P is associated with lipoproteins to exert biological actions in central nervous system. Human cerebrospinal fluid (CSF) induced rat astrocyte migration in a manner sensitive to S1P receptor antagonist VPC23019 and the migration activity was recovered in S1P fraction by thin-layer chromatography. Density-gradient separation of CSF revealed that the major S1P activity was detected in the HDL fraction. In conditioned medium of rat astrocytes cultured with sphingosine, the S1P activity was recovered again in the HDL fraction. The HDL fraction also induced migration of astrocytes and process retraction of oligodendrocytes in a manner similar to S1P. We concluded that S1P is accumulated in HDL-like lipoproteins in CSF and mediates some of lipoprotein-induced neural cell functions in central nervous system.     

2种远志根结构及其皂苷含量的比较研究

运用植物解剖学、组织化学和植物化学方法对细叶远志和卵叶远志根的结构、皂苷的组织化学定位以及远志皂苷元含量进行了比较研究.结果显示:(1)2种远志根的基本结构相同,都是由周皮和次生维管组织组成,韧皮薄壁细胞为次生韧皮部的主要组成细胞.2种根的主要区别是细叶远志根中次生韧皮部比卵叶远志的次生韧皮部所占比例大.(2)组织化学定位结果显示,远志皂苷主要分布在次生韧皮部薄壁细胞内.(3)植物化学分析结果显示,2种远志根内皮部(包括次生韧皮部和周皮)与木质部的皂苷元含量差异极显著(P<0.01),皮部远大于木质部,与组织化学研究结果一致;细叶远志根的直径、皮部厚度、干重以及远志皂苷元的含量都大于卵叶远志,表明其药用品质优于卵叶远志.(4)不同生长年限栽培细叶远志和不同级别野生细叶远志比较表明,二级野生细叶远志的根中远志皂苷元百分含量显著高于其他6个供试材料,但栽培三年生细叶远志根的干重和远志皂苷元总产量最高,且显著高于其野生种和卵叶远志.结果表明:人工栽培的细叶远志可以代替其野生种,故建议人工栽培时选择细叶远志并于栽培三年后采收.     

Astrocytic production of nerve growth factor in motor neuron apoptosis: implications for amyotrophic lateral sclerosis

Reactive astrocytes frequently surround degenerating motor neurons in patients and transgenic animal models of amyotrophic lateral sclerosis (ALS). We report here that reactive astrocytes in the ventral spinal cord of transgenic ALS-mutant G93A superoxide dismutase (SOD) mice expressed nerve growth factor (NGF) in regions where degenerating motor neurons expressed p75 neurotrophin receptor (p75(NTR)) and were immunoreactive for nitrotyrosine. Cultured spinal cord astrocytes incubated with lipopolysaccharide (LPS) or peroxynitrite became reactive and accumulated NGF in the culture medium. Reactive astrocytes caused apoptosis of embryonic rat motor neurons plated on the top of the monolayer. Such motor neuron apoptosis could be prevented when either NGF or p75(NTR) was inhibited with blocking antibodies. In addition, nitric oxide synthase inhibitors were also protective. Exogenous NGF stimulated motor neuron apoptosis only in the presence of a low steady state concentration of nitric oxide. NGF induced apoptosis in motor neurons from p75(NTR +/+) mouse embryos but had no effect in p75(NTR -/-) knockout embryos. Culture media from reactive astrocytes as well as spinal cord lysates from symptomatic G93A SOD mice-stimulated motor neuron apoptosis, but only when incubated with exogenous nitric oxide. This effect was prevented by either NGF or p75(NTR) blocking-antibodies suggesting that it might be mediated by NGF and/or its precursor forms. Our findings show that NGF secreted by reactive astrocytes induce the death of p75-expressing motor neurons by a mechanism involving nitric oxide and peroxynitrite formation. Thus, reactive astrocytes might contribute to the progressive motor neuron degeneration characterizing ALS.     

Nerve Growth Factor Induces Na+, K+-ATPase in a Nerve Cell Line

The effects of nerve growth factor (NGF) on induction of Na+,K+-ATPase were examined in a rat pheochromocytoma cell line, PC12h. Na+,K+-ATPase activity in a crude particulate fraction from the cells increased from 0.37 +/- 0.02 (n = 19) to 0.55 +/- 0.02 (n = 20) (means +/- SEM, mumol Pi/min/mg of protein) when cultured with NGF for 5-11 days. The increase caused by NGF was prevented by addition of specific anti-NGF antibodies. Epidermal growth factor and insulin had only a small effect on induction of Na+,K+-ATPase. A concentration of basic fibroblast growth factor three times higher than that of NGF showed a similar potency to NGF. The molecular form of the enzyme was judged as only the alpha form in both the untreated and the NGF-treated cells by a simple pattern of low-affinity interaction with cardiotonic steroids: inhibition of enzyme activity by strophanthidin (Ki approximately 1 mM) and inhibition of Rb+ uptake by ouabain (Ki approximately 100 microM). As a consequence, during differentiation of PC12h cells to neuron-like cells, NGF increases the alpha form of Na+,K+-ATPase, but does not induce the alpha(+) form of the enzyme, which has a high sensitivity for cardiotonic steroid and is a characteristic form in neurons.     

Binding constants of soluble NGF-receptors in rat oligodendrocytes and astrocytes in culture

The neuronotrophic factor NGF binds to peripheral neurons of the dorsal root ganglion and the sympathetic nervous system. NGF binds to a cell surface receptor, NGFR, on these cells and displays Kd's of 10(-9) and 10(-11)M. NGF receptors have also been reported for basal forebrain magnocellular neurons. In addition, NGF specifically binds to NGFR on Schwann cells although the biological significance of this binding is not known. Here we report that NGF binds in a saturable and specific fashion to receptors on cultured isolated populations of rat astrocytes but not to oligodendrocytes. The binding to astrocytes in culture displayed a Kd of 2.7 +/- 1.0 nM with 36,000 receptors per cell.     

TRPV2激活对缺氧再灌注时体外培养星形胶质细胞神经生长因子释放的影响

神经生长因子对脑缺血后神经元的存活有重要意义。该研究观察了TRPV2激活剂2APB对体外缺血再灌注模型中原代培养大鼠大脑皮层星形胶质细胞神经生长因子释放的影响。将原代培养大鼠大脑皮层星形胶质细胞分为2APB组（0．5mmol／L）和对照组（不含2APB）,在糖氧剥夺情况下培养2h,然后恢复正常全培养基复氧培养48h。用Westem blot检测星形胶质细胞神经生长因子的表达水平;用ELISA检测星形胶质细胞条件培养液中神经生长因子的含量。结果表明,0．5mmol／L2APB可以诱导正常情况下及糖氧剥夺再灌注情况下体外培养星形胶质细胞NGF的合成和释放LP〈0．01）。此外,JNK阻滞剂可抑制糖氧剥夺再灌注情况下2APB诱导的星形胶质细胞神经生长因子的释放。综上．TRPV2激活可以影响糖氧剥夺再灌注情况下体外培养星形胶质细胞神经生长因子的合成和释放。TRPV2有可能成为脑缺血再灌注后的潜在治疗靶点。     

谷氨酸、NMDA 和吗啡对培养大鼠星形胶质细胞内钙振荡的影响

目的:研究谷氨酸、NMDA、吗啡对原代培养的大鼠星形胶质细胞的胞内钙信号的影响及受体作用机制.方法:利用Leica AF6000活细胞工作站,检测谷氨酸、NMDA、吗啡分别灌流前后Fura-2/AM加载的星形胶质细胞内钙信号的动态变化,进一步观 察分别阻断代谢性谷氨酸受体5 (mGluR5)、NMDA受体(NMDA receptor,NMDAR)和阿片μ受体对诱导的胞内钙振荡的影响.结果:谷氨酸、NMDA、吗啡均可明显升高胞内游离钙的浓度([Ca2+]i),而将其相应受体拮抗后,星形胶质细胞[Ca2+]i升高的现象可以被显著抑制.结论:离体培养的星形胶质细胞膜上存在mGluR5、NMDAR和阿片μ受体,这些受体的激活可以升高星影胶质细胞的[Ca2+]i,且这些受体依赖的[Ca2+]i的调控机制可能是星形胶质细胞与神经元交互作用的重要途径之一.     

Predominance of the Cytoplasmic Form of Brain Hexokinase in Cultured Astrocytes

Abstract: Astrocytes have been cultured from neonatal rat brain according to the flask culture procedure of Booher and Sensenbrenner. Approximately 80% of the hexokinase (ATP: d -hexose 6-phosphotransferase, EC 2.7.1.1) activity is found in the soluble fraction in homogenates of these cells, in contrast to only 20% of the total activity in the soluble fraction of whole brain homogenates. The hexokinase from the cultured astrocytes has been compared with the cytoplasmic and glucose-6-P-solubilized mitochondrial enzymes from whole brain. In kinetic properties and pH-activity relationships, the glial hexokinase was similar to the cytoplasmic enzyme but different from the mitochondrial enzyme of whole brain. Using immunohistochemical methods for detecting hexokinase localization at the electron microscopic level, most of the cells showed prominent staining of cytoplasmic areas. If the cultured astrocytes are accepted as valid models for astrocytes in situ , these results support the suggestion of Bigl and co-workers that the predominant form of hexokinase in glial cells is the cytoplasmic enzyme.     

Nerve growth factor enhances the synthesis, phosphorylation, and metabolic stability of neurofilament proteins in PC12 cells

Rat pheochromocytoma (PC12) cells grown in the presence or absence of nerve growth factor (NGF) were pulse-labeled with [35S]methionine or 32Pi, and neurofilament subunits were recovered by immunoprecipitation from cellular extracts. The neurofilament subunits, with apparent molecular masses on sodium dodecyl sulfate-polyacrylamide gels of 68 kDa (light, L), 145 kDa (medium, M), and 200 kDa (heavy, H), were all found to be expressed in PC12 cells grown in the absence and presence of NGF. H was expressed at very low levels and in a form that migrated more rapidly on sodium dodecyl sulfate gels than H from rat brain. M was synthesized as a more rapidly migrating precursor that underwent modification within 3 h after labeling to a slower migrating form that co-migrated with M from rat brain. Analysis of the different M species by two-dimensional gel electrophoresis indicated that they also had different isoelectric points consistent with differences in phosphate content. NGF treatment resulted in increased L synthesis and, to a lesser degree, M synthesis, but had no effect on H synthesis. NGF also increased the stability of the modified form of M. All three subunits were 32P-labeled, and NGF increased the incorporation of 32P into M and H. Neurofilament subunits were also immunoprecipitated from a soluble fraction of [35S]methionine-labeled PC12 cells. This soluble pool of subunits differed from the cytoskeleton-associated pool in the relative proportions of individual subunits, M being the predominant form in the former and L in the latter.     

ApoA-I enhances generation of HDL-like lipoproteins through interaction between ABCA1 and phospholipase Cγ in rat astrocytes

In the previous paper, we reported that apolipoprotein (apo) A-I enhances generation of HDL-like lipoproteins in rat astrocytes to be accompanied with both increase in tyrosine phosphorylation of phospholipase Cγ (PL-Cγ) and PL-Cγ translocation to cytosolic lipid-protein particles (CLPP) fraction. In this paper, we studied the interaction between apoA-I and ATP-binding cassette transporter A1 (ABCA1) to relate with PL-Cγ function for generation of HDL-like lipoproteins in the apoA-I-stimulated astrocytes. ABCA1 co-migrated with exogenous apoA-I with apparent molecular weight over 260kDa on SDS-PAGE when rat astrocytes were treated with apoA-I and then with a cross-linker, BS3. The solubilized ABCA1 of rat astrocytes was associated with the apoA-I-immobilized Affi-Gel 15. An LXR agonist, To901317, increased the cellular level of ABCA1, association of apoA-I with ABCA1 and apoA-I-mediated lipid release in rat astrocytoma GA-1/Mock cells where ABCA1 expression at baseline is very low. PL-Cγ was co-isolated by apoA-I-immobilized Affi-Gel 15 and co-immunoprecipitated by anti-ABCA1 antibody along with ABCA1 from the solubilized membrane fraction of rat astrocytes. The SiRNA of ABCA1 suppressed not only the PL-Cγ binding to ABCA1 but also the tyrosine phosphorylation of PL-Cγ. A PL-C inhibitor, U73122, prevented generation of apoA-I-mediated HDL-like lipoproteins in rat astrocytes. To901317 increased the association of PL-Cγ with ABCA1 in GA-1/Mock cells dependently on the increase of cellular level of ABCA1 without changing that of PL-Cγ. These findings suggest that the exogenous apoA-I augments the interaction between PL-Cγ and ABCA1 to stimulate tyrosine phosphorylation and activation of PL-Cγ for generation of HDL-like lipoproteins in astrocytes.     

Developmental changes in the responses of rat chromaffin cells to neuronotrophic and neurite-promoting factors

This study describes the survival and neurite outgrowth behaviors of cultured adrenal medullary (chromaffin) cells obtained from postnatal rats 1 day (D1) to 100 days (D100) old in response to nerve growth factor (NGF), chick eye ciliary neuronotrophic factor (CNTF), and laminin. In the absence of trophic factors the 4-day survival of cultured chromaffin cells (relative to the number of cells attached at 2 hr) increased from one-third of the cells at D1 to 40% at D8 and 90-100% at D16 and older stages. At saturating concentrations NGF increased cell survival at D8 by 90%, but failed to support all chromaffin cells present at 2 hr. In contrast, CNTF supported the survival of all cells at D8. At D1 NGF and CNTF had only a very small effect on survival during the 4-day culture period, although both factors clearly enhanced the numbers of surviving cells after 8 days. Either NGF or CNTF also elicited neurite outgrowth from rat chromaffin cells, which amounted to approximately 15-20% at D1 and D8 and subsequently decreased to about 5-8% at D30 and virtually zero at D100. At this last age both factors applied together clearly elicited neurites. Such a potentiating effect of NGF and CNTF was also seen at earlier postnatal ages. Laminin did not affect neurite growth at D30 in the absence of trophic factors, as already described for D8 rat chromaffin cells. In the presence of NGF, however, it increased neurite length and branching during a 4-day culture period and even enhanced neurite recruitment at later culture times. These data suggest that rat chromaffin cells undergo age-related changes in their responses to NGF and CNTF and that laminin modulates their neurite outgrowth behaviors in the presence of trophic factors.