Stimulation of Ornithine Decarboxylase Activity in Neural Cell Culture: Potential Role of Insulin

Abstract: Age-dependent decreases in the levels of ornithine decarboxylase activity were observed in the optic lobes, cerebral hemispheres, and midbrain-diencephalon of 6–17-day-old chick embryos. In dissociated cell cultures from chick embryonic brains a similar pattern of declining ornithine decarboxylase activity with time in culture was observed. Ornithine decarboxylase activity in the dissociated brain cell cultures was stimulated by changing the culture medium. The peak stimulatory effect was shown to occur 12 h after changing the medium. Although serum-free medium stimulated ornithine decarboxylase activity slightly, the presence of serum in the medium was the primary stimulatory factor. Both fetal calf serum and heat-inactivated fetal calf serum produced dose-dependent stimulation of ornithine decarboxylase activity. Dialyzed fetal calf sera stimulated ornithine decarboxylase, but to a lower level than that produced by nondialyzed sera. Insulin (0.5–10 μg/ml) stimulated ornithine decarboxylase activity in a dose-dependent manner in serum free medium. In addition, 10² M-L-asparagine stimulated ornithine decarboxylase activity in serum-free medium.     

Effects of 4-Hydroxynonenal,A Product of Lipid Peroxidation,on Cell Proliferation and Ornithine Decarboxylase Activity

4-hydroxynonenal (HNE) is one of the major breakdown products of cellular lipid peroxidation. Its effects on proliferation, ornithine decarboxylase (ODC) activity and DNA synthesis have been investigated in leukemic cell lines. The cells were incubated for 1 hour with different aldehyde concentrations, then washed and resuspended in medium with fresh foetal calf serum. HNE concentrations ranging from 10^-5 to 10^-6 M significantly inhibited ODC activity when induced by addition of fresh foetal calf serum both in K562 and HL-60 cells. ³H-Thymidine incorporation in K562 cells was also inhibited from 6 to 12 hours after the treatment. The same HNE concentrations did not inhibit ODC activity when added to cytosol, thus a direct action on the enzyme can be excluded. Moreover, HNE did not affect the half-life of ODC, so that a specific effect on ODC synthesis may be supposed. These data indicate a reduction of proliferative capacity of the cells and are consistent with the possibility that HNE, at concentrations close to those found in normal cells, plays a role in the control of cell proliferation.     

Effects of 4-Hydroxynonenal, A Product of Lipid Peroxidation, on Cell Proliferation and Ornithine Decarboxylase Activity

4-hydroxynonenal (HNE) is one of the major breakdown products of cellular lipid peroxidation. Its effects on proliferation, ornithine decarboxylase (ODC) activity and DNA synthesis have been investigated in leukemic cell lines. The cells were incubated for 1 hour with different aldehyde concentrations, then washed and resuspended in medium with fresh foetal calf serum. HNE concentrations ranging from 10^-5 to 10^-6 M significantly inhibited ODC activity when induced by addition of fresh foetal calf serum both in K562 and HL-60 cells. ³H-Thymidine incorporation in K562 cells was also inhibited from 6 to 12 hours after the treatment. The same HNE concentrations did not inhibit ODC activity when added to cytosol, thus a direct action on the enzyme can be excluded. Moreover, HNE did not affect the half-life of ODC, so that a specific effect on ODC synthesis may be supposed. These data indicate a reduction of proliferative capacity of the cells and are consistent with the possibility that HNE, at concentrations close to those found in normal cells, plays a role in the control of cell proliferation.     

鸟氨酸脱羧酶基因反义RNA对前列腺癌细胞生长的抑制作用

为研究鸟氨酸脱羧酶 (ODC)基因反义RNA对前列腺癌细胞的生长抑制作用 ,将表达ODC第 3外显子反义RNA的重组腺病毒rAd ODC Ex3as分别感染前列腺癌细胞株PC 3和LNCap .通过MTT法观察其对前列腺癌细胞增殖的影响 ,并确定不同细胞合适的感染滴度 ,再采用Western印迹和流式细胞术检测rAd ODC Ex3as对细胞中ODC表达的抑制作用、对细胞周期和凋亡的影响以及与CDK抑制物p2 1的关系 .实验显示 ,rAd ODC Ex3as分别以 5 0MOI、2 5MOI感染PC 3和LNCap细胞可明显抑制其生长增殖 ,而不引起细胞毒性作用 ;其对两种细胞中ODC表达的抑制作用分别为4 5 %和 5 9% .流式细胞DNA含量分析证实 ,rAd ODC Ex3as可引起PC 3和LNCap细胞周期G1期阻滞 ,但并未引起凋亡 .通过Western印迹发现 ,细胞中ODC表达的降低可诱导p2 1蛋白的过表达 .结果表明 ,rAd ODC Ex3as在体外能有效地干扰ODC基因的表达 ,并通过诱导p2 1的过表达使其细胞周期停于G1期 ,从而抑制前列腺癌细胞PC 3和LNCap的增殖 ,为其进一步基因治疗的研究打下基础 .     

Lipopolysaccharide and Interleukin-1β Augmented Histidine Decarboxylase Activity in Cultured Cells of the Rat Embryonic Brain

Abstract: We investigated the effect of lipopolysaccharide (LPS) and various inflammatory cytokines on the histidine decarboxylase (HDC) activity in cultured cells of the rat embryonic brain. Histaminergic neuronal cell bodies were supposed to exist in cultured cells of the diencephalon but not in those of the cortex. The HDC activity was elevated by adding LPS and interleukin-1 β (IL-1β) but not by tumor necrosis factor-α (TNF-α) and IL-6 to the mixed primary cultures of diencephalon. In the adherent cell fraction of the cultured diencephalon cells, HDC activity was also enhanced by LPS and IL-1β. In a similar manner, LPS augmented HDC activity in the mixed primary culture of cerebral cortical cells and in its adherent cell fraction. The effects of IL-1β but not LPS in the mixed primary culture of diencephalon were canceled by a prior exposure to cytosine-β- d -arabinofuranoside. The changes in HDC activity after exposure to LPS for 12 h were not accompanied by increased mRNA levels. In these cell cultures, mast cells were not detected by Alcian Blue staining. These results indicated the presence of the third type of HDC-bearing cell besides neurons and mast cells in the brain. The increase of HDC activity by IL-1β might be due to cell proliferation.     

Detection of Ornithine Decarboxylase Antizyme in Mouse Brain

Ornithine decarboxylase, the rate-limiting enzyme in polyamine synthesis, is known to be regulated by a macromolecular inhibitor, termed antizyme, in a number of cellular systems. The present results show that the antizyme is also a functional component of polyamine metabolism in the brain. It could be demonstrated both in normal randomly selected mice and in animals which had been subjected either to intracerebroventricular injection of saline, which is known to cause a transient activation of ornithine decarboxylase, or to 1,3-diamino-2-propanol, an antizyme-inducing agent. When compared to tissues or cell systems studied so far, the cytosol fraction from mouse brain homogenate appeared to contain an exceptionally high amount of antizyme, that was bound to some material other than active ornithine decarboxylase. This feature was seen in all the animal groups studied, being most prominent after saline injection, when the amount of dissociable antizyme exceeded 14-fold the corresponding released ornithine decarboxylase activity. In untreated animals the excess was about eightfold and after 1,3-diamino-2-propanol about fivefold.     

Effect of Oxotremorine on Ornithine Decarboxylase Activity of the Adrenal Gland in Rat

Abstract: In this work we have studied the mechanism for the increase of adrenal ODC (ornithine decarboxylase, EC 4.1.1.17) activity provoked by oxotremorine, a muscarinic agonist. 1. Oxotremorine increased medullary ODC activity maximally at 2 h. Cortical enzyme responded much more slowly. 2. Blockade of peripheral muscarinic receptors with methylatropine partially reduced the response to oxotremorine in the medulla, but not cortex. 3. Hy-pophysectomy abolished the cortical, but not the medullary, responses to oxotremorine. Methylatropine reduced the effect of oxotremorine on medullary ODC in hypophysectomized rats. 4. In unilaterally splanchnicotomized rats oxotremorine caused an increase of ODC activity of the denervated adrenal gland relative to control value; activities in both medulla and cortex were significantly lower than those observed in the innervated gland. Evidence was obtained for a compensatory increase of ODC activity of the adrenal cortex (but not medulla) on the intact side of unilaterally operated rats. 5. Surgical intervention, in the form of a sham operation for transection of the spinal cord, leads to an increase of ODC activity in both parts of the adrenal gland. Transection of the cord attenuates these increases. 6. The additional increase of medullary ODC activity owing to the administration of oxotremorine to sham-operated rats is partially reduced in the adrenal medulla by muscarinic blockade, and completely in the cortex. This effect of methylatropine in regard to cortical ODC activity was not apparent in the other experiments with intact or unilaterally splanchnicotomized (unoperated side) rats. The results with unilaterally splanchnicotomized rats and those with transected spinal cord suggest that oxotremorine-induced modifications of adrenal ODC activity are centrally mediated, above the level of origin of the splanchnic nerves in the spinal cord (T_8–10). Experiments with hypophysectomized rats show that the response of the adrenal cortex to oxotremorine is entirely mediated by the hypophysis.     

Transcription-Independent Activation of Ornithine Decarboxylase Activity by Heparin in Cloned Cerebral Endothelial Cells

Abstract: Heparin, a highly sulfated glycosaminoglycan, is known to be obligatory for long-term endothelial cell cultures; it potentiates the mitogenic activities of endothelial cell growth factors and prolongs the replicative life span of the cells. Here we have shown that besides its growth factor-supportive role, heparin exerts a specific action on cerebral capillary endothelial cells (cECs), unrelated to serum or growth factors, by increasing activity of ornithine decarboxylase (ODC; EC 4.1.1.17) in these cells. For our experiments we have used two different types of cloned cECs: type I cECs, grown in the presence of endothelial cell growth factor and heparin, and type II cECs, usually cultivated without growth factors. Heparin action on ODC activity was shown to be dose dependent within the range of 1–100 μg/ml. Increasing concentrations of or depletion of endothelial cell growth factor from type I cultures had no effect on ODC activity. The increase in enzyme activity was highest after 30 min to 1 h of heparin treatment. As evidenced by northern analysis, the heparin-mediated enhancement of ODC activity was not accompanied by changes of ODC mRNA levels. Studies of DNA replication revealed that in the absence of heparin-binding growth factors, heparin did not affect the proliferative activity of cloned cECs.     

Ornithine Decarboxylase Activity in Brain Regulated by a Specific Macromolecul, the Antizyme

Mouse brain ornithine decarboxylase activity is about 70-fold higher at the time of birth compared with that of adult mice. Enzyme activity declines rapidly after birth and reaches the adult level by 3 weeks. Immunoreactive enzyme concentration parallels very closely the decrease of enzyme activity during the first postnatal week, remaining constant thereafter. The content of brain antizyme, the macromolecular inhibitor to ornithine decarboxylase, in turn is very low during the first 7 days and starts then to increase and at the age of 3 weeks it is about six times the level of that in newborn mice. This may explain the decrease in enzyme activity during brain maturation, and suggests the regulation of polyamine biosynthesis by an antizyme-mediated mechanism in adult brain.     

ODC,AdoMetDC双反义腺病毒对肺癌增殖和侵袭制作用的体外和体内研究

鸟氨酸脱羧酶(ODC)和S-甲硫氨酸脱羧酶(AdoMetDC)是多胺体内合成的2个关键酶.研究腺病毒Ad-ODC-AdoMetDCas介导的ODC和AdoMetDC反义RNA对肺癌多胺合成,细胞增殖以及侵袭的抑制作用.用活细胞计数和流式细胞术分别检测Ad-ODCas和Ad-ODC-AdoMetDCas对肺癌A-549细胞增殖的影响,蛋白质印迹和HPLC方法分别检测腺病毒对肺癌A-549细胞中ODC和AdoMetDC蛋白表达以及胞内多胺含量的抑制作用,TUNEL标记检测法观察Ad-ODC-AdoMetDCas对肺癌细胞凋亡的影响,Matrigel侵袭实验分析腺病毒对肺癌A-549细胞侵袭活性的改变,裸鼠皮下移植瘤模型研究Ad-ODC-AdoMetDCas对体内肺癌生长的抑制作用.实验结果显示,Ad-ODC-AdoMetDCas明显抑制肺癌A-549细胞的增殖,导致细胞凋亡,显著降低肺癌A-549细胞的体外侵袭能力,肺癌A-549细胞感染Ad-ODC-AdoMetDCas后细胞内3种多胺含量都明显降低,Ad-ODC-AdoMetDCas对已形成的裸鼠皮下移植瘤具有明显的抑制作用.实验表明,ODC和AdoMetDC双反义腺病毒具有显著抑制肺癌增殖和侵袭的作用,对于肺癌的防治研究具有一定的前景.     

Calcium Effects on the Solubilization of Membrane-Bound Histidine Decarboxylase in the Rat Brain

In a previous work we have shown that histidine decarboxylase (HD) activity is found in a soluble and a membrane-bound form. A major part (82%) of the membrane-bound HD activity in the crude mitochondrial fraction (P2) was present in the synaptic plasma membrane-containing subfraction. Physiological concentrations of Ca2+ had no direct effect on HD activity but caused a solubilization of approximately 50% of membrane-bound HD in the P2 fraction. Mg2+ had similar but lower effects (20% solubilization) than Ca2+. Incubation with depolarizing concentrations of K+ in the presence of 1 mM CaCl2 caused a significant (30%) solubilization of HD.     

Regulation of DOPA Decarboxylase Activity in Brain of Living Rat

Abstract: To test the hypothesis that l -DOPA decarboxylase (DDC) is a regulated enzyme in the synthesis of dopamine (DA), we developed a model of the cerebral uptake and metabolism of [³H]DOPA. The unidirectional blood-brain clearance of [³H]DOPA ( K ^D₁) was 0.049 ml g⁻¹ min⁻¹. The relative DDC activity ( k ^D₃) was 0.26 min⁻¹ in striatum, 0.04 min⁻¹ in hypothalamus, and 0.02 min⁻¹ in hippocampus. In striatum, 3,4-[³H]dihydroxyphenylacetic acid ([³H]DOPAC) was formed from [³H]DA with a rate constant of 0.013 min⁻¹, [³H]homovanillic acid ([³H]HVA) was formed from [³H]DOPAC at a rate constant of 0.020 min⁻¹, and [³H]HVA was eliminated from brain at a rate constant of 0.037 min⁻¹. Together, these rate constants predicted the ratios of endogenous DOPAC and HVA to DA in rat striatum. Pargyline, an inhibitor of DA catabolism, substantially reduced the contrast between striatum and cortex, in comparison with the contrast seen in autoradiograms of control rats. At 30 min and at 4 h after pargyline, k ^D₃ was reduced by 50% in striatum and olfactory tubercle but was unaffected in hypothalamus, indicating that DDC activity is reduced in specific brain regions after monoamine oxidase inhibition. Thus, DDC activity may be a regulated step in the synthesis of DA.     

雄激素对人前列腺细胞中鸟氨酸脱羧酶基因表达的调节作用

 为探讨雄激素对人前列腺中鸟氨酸脱羧酶（ Ｏ Ｄ Ｃ）基因表达的调节作用,以研究雄激素诱导前列腺良性增生的分子机理,分离培养了人胎儿前列腺间质细胞,以 Ｍ Ｔ Ｔ 法测定不同浓度 Ｄ Ｈ Ｔ对细胞的促增殖作用;以最适浓度的 Ｄ Ｈ Ｔ（１ ０００ μｇ／ Ｌ）刺激该细胞,分别于 ０,３,６,１２,２４,３０ ｈ 提取总 Ｒ Ｎ Ａ,用斑点杂交及 Ｎｏｒｔｈｅｒｎ ｂｌｏｔ 法分析测定各组细胞中 Ｏ Ｄ Ｃ ｍ Ｒ Ｎ Ａ 的丰度,并对杂交膜进行薄层扫描定量．结果显示：（１） Ｄ Ｈ Ｔ 对前列腺间质细胞的增殖呈双相调节作用,即在低浓度时随着 Ｄ Ｈ Ｔ 浓度的增加,对该细胞的促增殖作用增强,１ ０００ μｇ／ Ｌ时刺激活性最强,高浓度 Ｄ Ｈ Ｔ 对该细胞的刺激作用降低．（２）斑点杂交显示,在 １ ０００ μｇ／ Ｌ Ｄ Ｈ Ｔ 刺激细胞后 ６ ｈ 时, Ｏ Ｄ Ｃ ｍ Ｒ Ｎ Ａ开始明显升高,２４ ｈ 达高峰（约为 ０ ｈ 的 ４８ 倍）,至 ３０ ｈ 有所降低．（３） Ｎｏｒｔｈｅｒｎ ｂｌｏｔ 结果显示,人胎儿前列腺间质细胞中有两种 Ｏ Ｄ Ｃ ｍ Ｒ Ｎ Ａ,分别为 ２０ ｋｂ 和 ２６ ｋｂ,经扫描定量结果显示：１ ０００μｇ／ Ｌ Ｄ Ｈ Ｔ 对两种 Ｏ Ｄ Ｃ ｍ Ｒ Ｎ Ａ     

ODC, AdoMetDC双反义腺病毒对肺癌增殖和侵袭抑制作用的体外和体内研究

鸟氨酸脱羧酶(ODC)和S-甲硫氨酸脱羧酶(AdoMetDC)是多胺体内合成的2个关键酶.研究腺病毒Ad-ODC-AdoMetDCas介导的ODC和AdoMetDC反义RNA对肺癌多胺合成,细胞增殖以及侵袭的抑制作用.用活细胞计数和流式细胞术分别检测Ad-ODCas和Ad-ODC-AdoMetDCas对肺癌A-549细胞增殖的影响,蛋白质印迹和HPLC方法分别检测腺病毒对肺癌A-549细胞中ODC和AdoMetDC蛋白表达以及胞内多胺含量的抑制作用,TUNEL标记检测法观察Ad-ODC-AdoMetDCas对肺癌细胞凋亡的影响,Matrigel侵袭实验分析腺病毒对肺癌A-549细胞侵袭活性的改变,裸鼠皮下移植瘤模型研究Ad-ODC-AdoMetDCas对体内肺癌生长的抑制作用.实验结果显示,Ad-ODC-AdoMetDCas明显抑制肺癌A-549细胞的增殖,导致细胞凋亡,显著降低肺癌A-549细胞的体外侵袭能力,肺癌A-549细胞感染Ad-ODC-AdoMetDCas后细胞内3种多胺含量都明显降低,Ad-ODC-AdoMetDCas对已形成的裸鼠皮下移植瘤具有明显的抑制作用.实验表明,ODC和AdoMetDC双反义腺病毒具有显著抑制肺癌增殖和侵袭的作用,对于肺癌的防治研究具有一定的前景.     

S-Adenosylmethionine Decarboxylase Activity Is Decreased in the Rat Cortex After Traumatic Brain Injury

Abstract: S -Adenosyl- l -methionine decarboxylase (SAMdc) and l -ornithine decarboxylase (ODC) are major enzymes regulating polyamine synthesis. Following ischemia, putrescine content increases as a result of post-traumatic activation of ODC and inhibition of SAMdc. These alterations are thought to mediate edema and cell death. The purpose of this study was to quantify SAMdc activity and edema in the brain following controlled cortical impact injury. Anesthetized adult male rats underwent a right parietal craniectomy and were subjected to cortical impact injury. Tissues were obtained from three bilateral regions: parietal cortex, motor area (CPm); parietal cortex, somatosensory area (CPs); and the pyriform cortex (CPF). SAMdc activity was determined in the postmitochondrial fraction from homogenates of fresh, unfrozen tissues by measuring the decarboxylation of S -adenosyl- l -[ carboxyl -¹⁴C]methionine. Basal SAMdc activity was determined in unoperated rats, and regional differences were noted: Activity was lower in the CPF than in the CPm and CPs. SAMdc activity decreased to the greatest extent in the ipsilateral CPm (impact site) from 1 to 72 h following traumatic brain injury. Significant edema was found in the ipsilateral CPm 1, 8, 16, 24, and 48 h after injury. Decreased SAMdc activity impairs the conversion of putrescine to polyamines and may contribute to delayed pathological changes in the brain after traumatic injury.     

Ornithine Decarboxylase Activity During Development of Cerebellar Granule Neurons

Abstract: Ornithine decarboxylase (ODC), the key enzyme for polyamine biosynthesis, dramatically decreases in activity during normal cerebellar development, in parallel with the progressive differentiation of granule neurons. We have studied whether a similar pattern is displayed by cerebellar granule neurons during survival and differentiation in culture. We report that when granule cells were kept in vitro under trophic conditions (high K⁺ concentration), ODC activity progressively decreased in parallel with neuronal differentiation. Under nontrophic conditions (cultures kept in low K⁺ concentration), the enzymatic activity dropped quickly in parallel with an increased apoptotic elimination of cells. Cultures kept in high K⁺ but chronically exposed to 10 m M lithium showed both an increased rate of apoptotic cell death at 2 and 4 days in vitro and a quicker drop of ODC activity and immunocytochemical staining. A short chronic treatment of rat pups with lithium also resulted in transient decrease of cerebellar ODC activity and increased programmed cell death, as revealed by in situ detection of apoptotic granule neurons. The present data indicate that a sustained ODC activity is associated with the phase of survival and differentiation of granule neurons and that, conversely, conditions that favor their apoptotic elimination are accompanied by a down-regulation of the enzymatic activity.     

Differential Effects of Insulin on Choline Acetyltransferase and Glutamic Acid Decarboxylase Activities in Neuron-Rich Striatal Cultures

We studied the effects of insulin, nerve growth factor (NGF), and tetrodotoxin (TTX) on cellular metabolism and the activity of glutamic acid decarboxylase (GAD) and choline acetyltransferase (ChAT) in neuron-rich cultures prepared from embryonic day 15 rat striatum. Insulin (5 micrograms/ml) increased glucose utilization, protein synthesis, and GAD activity in cultures plated over a range of cell densities (2,800-8,400 cells/mm2). TTX reduced GAD activity; NGF had no effect on GAD activity. Insulin treatment reversibly reduced ChAT activity in cultures plated at densities of greater than 4,000 cells/mm2, and the extent of this reduction increased with increasing cell density. The number of acetylcholinesterase-positive neurons was not reduced by insulin, suggesting that insulin acts by down-regulating ChAT rather than by killing cholinergic neurons. Insulin-like growth factor-1 (IGF-1) reduced ChAT activity at concentrations 10-fold lower than insulin, suggesting that insulin's effect on ChAT may involve the IGF-1 receptor. NGF increased ChAT activity; TTX had no effect on ChAT activity. These results suggest that striatal cholinergic and GABAergic neurons are subject to differential trophic control.     

OAZ1基因诱导慢粒白血病K562细胞向成熟红系方向分化

近年来,鸟氨酸脱羧酶抗酶(OAZ)作为肿瘤治疗的潜在靶点备受关注.本文研究了OAZ1基因过表达对慢粒白血病K562细胞红系分化的作用.构建框移位点突变的OAZ1 过表达慢病毒载体pLVX-Neo-OAZ1-IRES-ZsGreen,包装病毒并感染K562细胞, Western 印迹验证其过表达效果.FACS检测细胞分化标志物CD71和GPA,结合联苯胺染色分析细胞红系分化情况.对比氯化高铁血红素(hemin)诱导组,实时RT-PCR检测与K562细胞红系分化、癌变的关键基因(GATA1、BCR/ABL、TGFβ)转录水平,对OAZ1 诱导分化的机制进行初步探索.结果表明,慢病毒过表达载体及K562细胞过表达体系构建成功.OAZ1过表达后细胞红系分化标志物CD71+/GPA+为(11.22±2.09)%,与对照组(4.07±1.04)%、空病毒组(1.79±2.36)%相比差异极显著(P<0.01);联苯胺蓝染阳性率为(14.037±0.083)%,与对照组、空病毒组比较,差异也极显著(P<0.01).定 量分析结果提示,相对于GATA1、BCR/ABL 基因mRNA转录水平的影响,OAZ1对TGFβ 基因的作用更为明显.为此推断,OAZ1基因可诱导白血病K562细胞向成熟红系方向分化,其作用机制可能与TGFβ信号转导通路相关.     

Ornithine Decarboxylase Induction by Glucocorticoids in Brain and Liver of Adrenalectomized Rats

Abstract: Ornithine decarboxylase (ODC), the rate-limiting enzyme in the biosynthesis of polyamines, was measured in the brain and the liver of adrenalectomized rats after an acute S.C. treatment with glucocorticoids. The effects of corticosterone and dexamethasone were compared in three brain areas, the cerebral cortex, hippocampus, and cerebellum. These structures have similar concentrations of cytosolic glucocorticoid receptor, as measured by an in vitro exchange assay using a specific glucocorticoid ligand, [³H]RU 26988, but contain different amounts of mineralocorticoid receptor. Corticosterone and dexamethasone increased ODC activity in the liver and brain areas in a dose dependent manner, dexamethasone being more active than corticosterone in all tissues. Moreover, estradiol, progesterone, and testosterone were inactive. Aldosterone, at high doses, increased brain ODC activity. Glucocorticoids, selected for their weak binding, or lack of binding to the mineralocorticoid receptor, were tested and found to be highly active in inducing brain and liver ODC, thus showing that ODC induction by steroids is specific for glucocorticoids. These results are among the first to suggest biochemically a central action of glucocorticoids following an acute treatment and confirm that the brain is a glucocorticoid target organ.     

Induction of N-Glycosylation Activity in Cultured Embryonic Rat Brain Cells

Developmental changes in protein N-glycosylation activity have been studied using cultures of dissociated fetal rat brain cells as an in vitro model system. These cultures undergo an initial phase of neurite outgrowth and cell proliferation (4-6 days in culture), followed by a period of cellular differentiation. N-Glycosylation activity has been measured by assaying the incorporation of [2-3H]mannose into dolichol-linked oligosaccharides and glycoprotein over a period of 1-25 days in culture. This study revealed a marked induction of N-glycosylation activity beginning at approximately 1 week of culture. [2-3H]Mannose incorporation into the oligosaccharide-lipid intermediate fraction and glycoprotein reached maximal values between 12 and 16 days of culture and declined thereafter. The major dolichol-linked oligosaccharide labeled by the brain cell cultures was shown to be Glc3Man9GlcNAc2 by HPLC analysis. Parallel incorporation studies with [3H]leucine showed that the increase in protein N-glycosylation was relatively higher than a concurrent increase in cellular protein synthesis observed during the induction period. Maximal labeling of glycoprotein corresponded to the period of glial differentiation, as indicated by a sharp rise in the marker enzymes, 2',3'-cyclic nucleotide 3'-phosphohydrolase (an oligodendroglial marker) and glutamine synthetase (an astroglial marker). The results describe a developmental activation of the N-glycosylation pathway and suggest a possible relationship between N-linked glycoprotein assembly and the growth and differentiation of glial cells.