Control of ornithine decarboxylase activity in jute seeds by antizyme

The control of ornithine decarboxylase activity by antizyme was studied during early germination of jute seeds(Corchorus olitorius). When 2 mM of putrescine and spermidine were applied to the germinating medium, the enzyme activity was markedly inhibited (1.7-fold) during 16 h imbibition. This inhibition could be attributed to the formation of an inhibitory protein termed antizyme. The antizyme was partially purified from jute and barley seedlings. The activity of jute ornithine decarboxylase antizyme was weaker than that of barley.     

Matrix-mediated gene transfer to brain cortex and dorsal root ganglion neurones by retrograde axonal transport after dorsal column lesion

BACKGROUND: In previous studies, we showed that the immobilisation of DNAs encoding basic fibroblast growth factor, neurotrophin-3 and brain-derived neurotrophic factor in a gene-activated matrix (GAM) promotes sustained survival of axotomised retinal ganglion cells after optic nerve injury. Here, we evaluated if the immobilisation of DNAs in a GAM could be an effective approach to deliver genes to axotomised dorsal root ganglion (DRG) neurones after spinal cord injury and if the matrix component of the GAM would modulate the deposition of a dense scar at the injury site. METHODS: We evaluated the expression of the thymidine kinase (TK) reporter gene in brain cortex and DRG after a bilateral T8 dorsal column (DC) lesion using PCR, RT-PCR and in situ hybridisation analyses. Collagen-based GAMs were implanted at the lesion site and the cellular response to the GAM was assessed using cell-specific markers. RESULTS: At 1 week post-injury, PCR analyses confirmed that DNATK was retrogradely transported from the DC lesion where the GAM was implanted to the brain cortex and to caudal DRG neurones, and RT-PCR analyses showed expression of mRNATK. At 7 weeks post-injury, DNATK was still be detected in the GAM and DRG. In situ hybridisation localised DNATK and mRNATK within fibroblasts, glia, endothelial and inflammatory cells invading the GAM and in DRG neurones. Interestingly, the presence of a GAM also reduced secondary cavitation and scar deposition at the lesion site. CONCLUSIONS: These results establish that GAMs act as bridging scaffolds in DC lesions limiting cavitation and scarring and delivering genes both locally to injury-reactive cells and distally to the cerebral cortex and to DRG neuronal somata through retrograde axonal transport.     

Inhibition of the rat adrenal ornithine decarboxylase activity by immobilization stress and/or dexamethasone

The effects of immobilization stress and/or dexamethasone (DEX) on the adrenal ornithine decarboxylase (ODC) activities of sham-operated and adrenal-medulloectomized (enucleated) male Sprague-Dawley rats were investigated. On day 11 after surgery, rats were injected with saline or DEX (1 mg/kg), 3 h before the time of sacrifice (0600 h or 1800 h). Four groups, from sham-operated and enucleated rats (ENU) treated with saline or DEX were subjected to immobilization stress for 1 h prior to sacrifice. Groups of rats from stress-sham-DEX, non stress-sham-DEX, stress-sham, non stress-sham, stress-ENU-DEX, non stress-ENU-DEX, stress-ENU, and non stress-ENU were sacrificed at 0600 h or 1800 h on day 11 after surgery. Adrenal glands were excised and later analyzed for ODC activities. Results indicated that DEX and/or immobilization stress inhibited ODC activities (p < 0.05) in normal and regenerating adrenal glands at 1800 h and ODC activity varies diurnally, the activity being greater at 1800 h than at 0600 hours (p < 0.001).     

Inhibition of polyamine biosynthesis in Acanthamoeba castellanii and 12-O-tetradecanoylphorbol-13-acetate-induced ornithine decarboxylase activity by chitosanoligosaccharide

Growth of Acanthamoeba castellaniiwas inhibited by chitosanoligosaccharide (up to 20 mg ml^–1) from the shells of crabs but was reversed by the polyamines, putrescine or spermidine, at 0.8 mM. Chitosanoligosaccharide strongly inhibited the induction of ornithine decarboxylase by 12-O-tetradecanoylphorbol-13-acetate, a key enzyme of polyamine biosynthesis, which is enhanced in tumour promotion.     

Retinol-induced elevation of ornithine decarboxylase activity in cultured rat Sertoli cells is attenuated by free radical scavenger and by iron chelator

We investigated retinol effects in ornithine decarboxylase activity in Sertoli cells. We also tested the hypothesis that free radical scavengers and iron chelators may attenuate the effect of retinol. Sertoli cells isolated from 15-day-old Wistar rats were previously cultured for 48 h and then treated with retinol by 24 h with or without mannitol (1 mM) or 1,10 phenanthroline (100 M). We measured ornithine decarboxylase and catalase activities and malondialdehyde concentrations in response to retinol treatment. In response to 7 M retinol treatment ornithine decarboxylase activity increased 30%. Retinol-induced ornithine decarboxylase activity was significantly decreased by addition of free radical scavenger (mannitol) or iron chelator (1,10 phenanthroline). In addition the same effect was observed in catalase increased activity and in malondialdehyde concentrations. These results suggest that retinol treatment induced ornithine decarboxylase and catalase activity and increased malondialdehyde concentration. These effects appear to be mediate by ROS.     

The role of coherence time in the effect of microwaves on ornithine decarboxylase activity

Previously, we demonstrated the requirement for a minimum coherence time of an applied, small amplitude (10 μT) ELF magnetic field if the field were to produce an enhancement of ornithine decarboxylase activity in L929 fibroblasts. Further investigation has revealed a remarkably similar coherence time phenomenon for enhancement of ornithine decarboxylase activity by amplitude-modulated 915 MHz microwaves of large amplitude (SAR 2.5 W/kg). Microwave fields modulated at 55, 60, or 65 Hz approximately doubled ornithine decarboxylase activity after 8 h. Switching modulation frequencies from 55 to 65 Hz at coherence times of 1.0 s or less abolished enhancement, while times of 10 s or longer provided full enhancement. Our results show that the microwave coherence effects are remarkably similar to those observed with ELF fields. © 1993 Wiley-Liss. Inc.     

GPR35 is a functional receptor in rat dorsal root ganglion neurons

GPR35, previously an orphan G-protein coupled receptor, is a receptor for kynurenic acid. Here we examine the distribution of GPR35 in the rat dorsal root ganglion (DRG) and the effects of its selective activation. GPR35 was expressed predominantly by small- to medium-diameter neurons of the DRG. Many of these same neurons also expressed the transient receptor potential vanilloid 1 channel, a nociceptive neuronal marker. The GPR35 agonists kynurenic acid and zaprinast inhibited forskolin-stimulated cAMP production by cultured rat DRG neurons. Inhibition required G_i/o proteins as the effect was completely abolished by pretreatment with pertussis toxin. This is the first study to report the expression and function of GPR35 in rat nociceptive DRG neurons. We propose that GPR35 modulates nociception and that continued study of this receptor will provide additional insight into the role of kynurenic acid in pain perception.     

Localization of ornithine decarboxylase and changes in polyamine content in root meristems of Zea mays

Polyamine content and the activity of arginine decarboxylase (EC 4.1.1.19) and ornithine decarboxylase (EC 4.1.1.17) were studied with respect to meristematic activity in primary roots and in developing lateral roots of Zea mays L. (cv. Neve Ya'ar 170) seedlings. Comparative localization of active ornithine decarboxylase and of meristematic activity were determined by labelling roots either with α-[5-¹⁴C]-difluoromethyl ornithine or with [³H]-thymidine, respectively.
Lateral roots were formed during the 72 h post-decapitation period, accompanied by an initial decline in putrescine content and by a significant increase in spennidine con-tent at 48–72 h. High levels of spermidine and lower levels of putrescine were found in the primary root apex as well. A marked increase in ornithine and arginine decarboxylase activity, as measured by ¹⁴CO₂ release, was found during the 72 h post-decapitation period of lateral root development. This increase in ornithine decarboxylase activity was confirmed also by a parallel rise in the incorporation of α-[5-¹⁴C]-difluoromethyl ornithine into trichloroacetic acid-insoluble fractions. Microautoradiographs of longitudinal and cross sections of roots, labelled with α-[5-¹⁴C]-difluoromethyl ornithine, showed that ornithine decarboxylase is localized mainly in the meristematic zones, as evidenced by [³H]-thymidine incorporation. A close correlation between meristematic activity and polyamines was demonstrated in situ , suggesting that polyamine content and biosynthesis may have a role in meristematic activity in corn roots.     

Effects of levobupivacaine and bupivacaine on intracellular calcium signaling in cultured rat dorsal root ganglion neurons

Bupivacaine and levobupivacaine have been shown to be effective in the treatment of pain as local anesthetics, although the mechanisms mediating their antinociceptive actions are still not well understood. The aim of this study was to investigate the effects of bupivacaine and levobupivacaine on intracellular calcium ([Ca²⁺]_i) signaling in cultured rat dorsal root ganglion (DRG) neurons. DRG neuronal cultures loaded with 5?μM Fura-2/AM and [Ca²⁺]_i transients for stimulation with 30?mM KCl (Hi K⁺) were assessed by using fluorescent ratiometry. DRGs were excited at 340 and 380?nm, emission was recorded at 510?nm, and responses were determined from the change in the 340/380 ratio (basal-peak) for individual DRG neurons. Data were analyzed by using Student’s t-test. Levobupivacaine and bupivacaine attenuated the KCl-evoked [Ca²⁺]_i transients in a reversible manner. [Ca²⁺]_i increase evoked by Hi K⁺ was significantly reduced to 99.9?±?5.1% (n?=?18) and 62.5?±?4.2% (n?=?15, P?<?0.05) after the application of 5 and 50?µM levobupivacaine, respectively. Bupivacaine also inhibited Hi K⁺-induced [Ca²⁺]_i responses, reduced to 98.7?±?4.8% (n?=?10) and 69.5?±?4.5% (n?=?9, P?<?0.05) inhibition of fluorescence ratio values of Hi K⁺-induced responses at 5 and 50?μM, respectively. Our results indicate that bupivacaine and levobupivacaine, with no significant differences between both agents, attenuated KCl-evoked calcium transients in a reversible manner. The inhibition of calcium signals in DRG neurons by levobupivacaine and bupivacaine might contribute to the antinociceptive effects of these local anesthetics.     

Adenoviral vector-directed expression of neurotrophin-3 in rat dorsal root ganglion explants results in a robust neurite outgrowth response

The neurotrophins are a family of proteins that promote neuronal survival and neurite outgrowth during development and can also enhance the regeneration of injured adult neurons. The local and continuous delivery of these proteins at the site of injury is problematic, since this requires repeated intraparenchymal injections or the use of invasive canula-micropump devices. In the present study we report the generation and characterization of an adenoviral vector for a member of the neurotrophins, neurotrophin-3 (Ad-NT-3). Using Ad-NT-3, we examined the expression and biological activity of NT-3 in dorsal root ganglia (DRG) explant cultures. Gene transfer with Ad-NT-3 results in the synthesis of genuine NT-3 and in a dosage-dependent neurite outgrowth response in DRG explants. Transduction of DRG explants with a viral vector dosage of 5 × 10⁵ to 5 × 10⁶ plaque-forming units induced the formation of a dense halo of neurites comparable to outgrowth observed following the addition of 100 ng/mL exogenous NT-3. In addition, a single infection with Ad-NT-3 produced biologically active NT-3 for at least 20 days in culture, as evidenced by continued neurite extension. This indicates that adenoviral vector-mediated expression of NT-3 results in high-level production of biologically active NT-3 and could therefore be used as a strategy to promote the regeneration of injured peripheral and central nerve projections. © 1997 John Wiley & Sons, Inc. J Neurobiol 33: 172–184, 1997     

Androgen and estrogen stimulation of ornithine decarboxylase activity in mouse kidney

In the present work, the activity of mouse renal ornithine decarboxylase (ODC) from CBA female mice was used as a biological marker to detect (anti)androgenic activity of different groups of endocrine disruptors and steroids. Daily injections of testosterone or dihydrotestosterone (DHT) into 60 day old female mice for 4 days increased renal ODC activity in a dose-dependent manner that reached up to 100-fold (testosterone) or 250-fold (DHT) above the baseline when the highest dose, 200 microg/mouse, was used. Administration of flutamide concurrently with testosterone (75 microg/mouse) caused a potent decrease of ODC induction in a dose-dependent manner, suppressing the enzyme activity at the doses of 0.1 and 0.5 mg/mouse by about 88 and 95%, respectively. In contrast, estradiol at the doses of 0.5 and 1 mg/mouse induced a significant stimulation of renal ODC activity in a dose-dependent manner when it was given alone or in combination with testosterone. Using a sensitive increase in ODC activity in response to androgens as an end point, we did not detect an antiandrogenic effect of several antiandrogens, such as cyproterone acetate, spironolactone, p,p'DDE and vinclozolin. Also, none of these antiandrogens were able to change the basal level of renal ODC activity, with the exception of cyproterone acetate that at a dose of 0.1 mg/mouse stimulated ODC activity. The data obtained suggest that mouse renal ODC from CBA females is not strictly androgen-specific and cannot be used for estimation of antiandrogenic effects of compounds having an affinity to different types of receptors.     

藜芦碱致使大鼠背根神经节A类神经元产生触发性振荡

在大鼠L5背根节浸浴钠通道失活门阻断剂藜芦碱（veratridine),记录该背根节神经元A类单纤维传入放电。发现：浸浴藜芦碱（1．8－3μmol/L）10min后,触压皮肤感受野或刺激坐骨神经引起部分静息纤维产生高频放电,其放电峰峰间期（interspike interval,ISI)形成U字形等型式的振荡,称之为触发性振荡。刺激脉冲的间隔越大,触发该振荡所需要的刺激脉冲数也就越多;不同时程和形式的刺激引起触发性振荡的形式无明显差异;触发性振荡的后抑制时期一般为30－90s。另外,实验还观察到该触发性振荡可由同一神经刺激引起的传入冲动触发。上述结果表明,用黎芦碱处理可使初级感觉神经元产生一种触发性振荡,该振荡机制可能与触发病的发作有关。     

催产素对大鼠背根神经节分离细胞GABA激活电流的调制作用

在急性分离的大鼠背根神经节（ｄｏｒｓａｌ ｒｏｏｔ ｇａｎｇｌｉｏｎ,ＤＲＧ）细胞上,应用全细胞膜片箝技术观察了预知催产素（ｏｘｙｔｏｃｉｎ,ＯＴ）对ＧＡＢＡ激活电流的调制作用。结果如下：（１）大多数细胞（４８／５２,９０．５％）对ＧＡＢＡ敏感。（２）ＯＴ可引起５１．３％（２０／３９）的受检细胞出现外向膜电流;４３．６％（１７／３９）无明显膜反应;５．１％（２／３９）出现内向膜电流。（３）预加ＯＴ     

藜芦碱和乌头碱在受损背根节神经元诱发不同的放电模式

为了研究钠通道失活门阻断后受损背根节神经元放电模式的变化特征,在大鼠背根节慢性压迫模型上采用单纤维技术记录A类神经元的自发放电。藜芦碱和乌头碱是钠通道失活门的抑制剂,但二者作用于不同的位点,前者结合于D2-S6,后者结合于D3-S6。我们比较了这两种试剂引发的放电模式。结果发现,在同一神经元,藜芦碱(1．5～5．0μmol／L)可以引起放电峰峰间期的慢波振荡,即峰峰间期由大逐渐减小,然后又逐渐增大,形成重复的振荡波形,每个振荡持续约数十秒至数分钟：而乌头碱(10～200μmol／L)则引起强直性放电,即峰峰间期逐渐减小,然后维持在一个稳定的水平。这两种不同的放电模式不因背景放电或试剂浓度的不同而发生明显的改变。实验结果表明,藜芦碱和乌头碱在受损的背根节神经元可以引发不同的放电模式,这可能与它们结合于钠通道上不同位点的抑制作用有关。     

缓激肽对背根节神经元钠通道电流的作用

目的：观察缓激肽(bradykinin,BK)对大鼠背根节神经元电压依赖性钠通道电流的作用。方法：采用全细胞膜片钳技术,记录钠通道电流。结果：缓激肽剂量依赖性(0．01～10μmol／L)增高小细胞背根节神经元诱发放电频率;缓激肽剂量依赖性(O．01～10μmol／L)增加小细胞背根节神经元的河豚毒素不敏感(TTX—resistant,TTX—R)钠电流,对TTX敏感(TTX—sensitive,TTX-S)钠电流无明显影响。结论：缓激肽引起炎性痛的机制可能与TTX-R钠通道电流有关。     

The tetrodotoxin-insensitive sodium current in rat dorsal root ganglia is unlikely to involve the expression of the tetrodotoxin-resistant sodium channel,SkM2

Tetrodotoxin-insensitive (TTX-I) sodium currents have been recorded from newborn and adult rat sensory neurons, but the sodium channel gene(s) responsible for the TTX-I current are unknown. Because SkM2, one of six voltage-sensitive sodium channel genes cloned from rat, encodes the only cloned channel that is relatively resistant to tetrodotoxin, we sought to test whether the TTX-I current in rat sensory neurons is due to the SkM2 channel. We hypothesized that the TTX-I current might be generated from (1) an RNA splicing variant of SkM2, (2) post-translational modification of the SkM2 protein, or (3) interaction with altenate additional channel subunits. SkM2 mRNA expression was examined in newborn rat dorsal root ganglia (DRG) by RNase arotection assay. No SkM2 expression was detected. Therefore, we conclude that the TTX-I sodium current in DRG is unlikely to result from the expression of the SkM2 gene.     

低浓度神经生长因子存在下GPI-1046刺激鸡胚神经节突起生长

对GPI-1046是否具有神经营养作用目前有两种不同的认识。Steiner等认为GPI-1046能促进体外培养的感觉神经节神经元突起生长。但Harper等却没能证明GPI-1046有这样的作用。由于GPI-1046在临床上具有重要应用价值和前景,我们重新评价了GPI-1046对体外培养鸡胚神经节的神经营养作用,发现在低浓度神经生长因子（nerve growth factor,NGF）存在下,GPI-1046能明显促进鸡背根神经节神经突起的生长。     

Dopamine as trace amine in the dorsal root ganglia

It has been shown that in the chick dorsal root ganglion (DRG) about 8% of neurons, belonging to both the A and B classes of sensory neurons exhibit a clear dopamine immunoreactivity. In the present study are reported the results of measurements, by mean of HPLC-electrochemical detection (HPLC-ED), of DA and of the DA metabolites dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA) in the rat DRG and their central nerves. Very low levels of DA, about 10 folds lower than the levels found in the dorsal horn of the spinal cord, were found in the DRG. However the levels of DOPAC and HVA were approximately equivalent to the levels found in the cord. The immunocytochemical study performed in parallel has shown that some dopaminergic-immunoreactive fibers in the DRG are located around the blood vessels. Few dopamine-immunoreactive sensory neurons were identified in the DRG and immunoreactive fibers, not linked to blood vessels, were identified in the dorsal root nerves. The present work indicates that there is a dopaminergic innervation of the blood vessels in the rat DRG but that dopamine may also be, as in the chick, a transmitter of primary afferent fibers.