鞘内注射NOS反义寡核苷酸抑制吗啡戒断大鼠脊髓和脑干NMDA1A受体mRNA表达的影响

运用逆转录－多聚酶联反应（RT－PCR）、鞘内注射和反义技术,研究脊髓水平一氧化氮（NO）对大鼠吗啡戒断反应和脊髓及脑干NMDA1A受体mRNA(NMDA1AR mRNA)表达的影响。结果表明,鞘内注射NOS反义寡核苷酸能明显减轻吗啡戒断反应,且脑型NOS（nNOS）反义寡苷酸的作用强于内皮型NOS(eNOS）反义寡核苷酸,吗啡依赖大鼠脊髓和脑干NMDA1AR mRNA表达增加,纳洛酮催促戒断,使其进一步增加;鞘内注射nNOS反义寡核苷酸,能明显抑制吗啡戒断大鼠脊髓和脑干NMDA1AR mRNA表达的增加;eNOS反义寡核苷酸也可抑制吗戒断大鼠脊髓NMDA1AR mRNA表达的增加,但作用弱于nNOS反义寡核苷酸,对脑干NMDA1AR mRNA表达无明显影响,上述结果提示：脊髓水平NO参与介导吗啡戒断反庆和NMDA受体表达的调控。     

中枢应用外源性cAMP和ATP对大鼠睡眠的影响

很多与睡眠有关的神经递质和调质可影响脑内cAMP的代谢与含量,而在觉醒-睡眠周期中脑内cAMP含量亦发生相应变化,但未见应用多导睡眠描记术(PSG)研究中枢cAMP对睡眠影响的报道。本研究运用PSG方法观察了大鼠侧脑室注射外源性cAMP及其前体ATP对大鼠睡眠和觉醒的影响,以探讨中枢cAMP和ATP在睡眠和觉醒机制调节中的作用。1 材料和方法 实验选用9只体重200～260g雄性Wistar大鼠。动物饲养条件及记录电极安装同前。右侧脑室插     

脑室注射氨茶碱或咪唑对大鼠电针镇痛的影响

我们曾经报道,给大鼠脑室注射 cAMP,外源性地提高脑内 cAMP 水平,引起大鼠的电针镇痛效应显著减弱,并有明显的剂量效应关系。已知裂解 cAMP 的磷酸二酯酶(PDE)抑制剂茶碱能提高脑内 cAMP 含量,而 PDE 激活剂咪唑则能降低脑内 cAMP 水平。因此本文用脑室注射 PDE 抑制剂氨茶碱或 PDE 激活剂咪唑的方法以图改变中枢内源性 cAMP 的水平时对电针镇痛的影响。结果表明氨茶碱能拮抗电针镇痛,而咪唑则对电针镇痛有加强作用。这与外源性注射 cAMP 的结果一致,说明脑内 cAMP 可能是对抗电针镇痛的一个重要因素。     

鞘内注射U0126对吗啡戒断大鼠脊髓神经元磷酸化CREB表达的影响

目的：研究鞘内注射细胞外信号调节激酶（ERK）抑制剂U0126对吗啡依赖大鼠纳洛酮催促戒断反应、脊髓磷酸化cAMP反应元件结合蛋白（p-CREB）表达的影响。方法：建立大鼠吗啡依赖和戒断模型,分为正常对照组、吗啡依赖组、吗啡戒断组、U0126组、溶媒（DMSO）组,采用行为学（n=8）、免疫组织化学（n=6）和Western blot（n=4）方法观察鞘内应用U0126对吗啡依赖大鼠纳洛酮催促戒断反应、脊髓p-CREB表达的影响。结果：①鞘内注射u0126可明显减轻吗啡依赖大鼠戒断症状,戒断组戒断症状评分为28．6±4．89,U0126组为22．5±4．09（P〈0．05）;戒断组促诱发痛评分（TEAscore）为13．5±2．55,U0126组为10．0±2．76（P〈0．05）。②鞘内注射U0126可明显减少胸腰段脊髓背角p-CREB阳性神经元的数目,U0126组为287±54,低于戒断组（380±71,P〈0．05）。 ③westem blot结果显示：鞘内注射U0126明显抑制吗啡戒断期间脊髓p-CREB表达的增加。结论：鞘内注射U0126能明显抑制吗啡戒断大鼠脊髓神经元p-CREB的表达。     

惊厥和抗癫痫药对中枢神经系统内环核苷酸的影响

3′,5′-环-磷酸腺苷(cAMP)是细胞内的一种“第二信使”,许多激素、神经递质等“第一信使”的作用均通过它实现。3′,5′-环-磷酸鸟苷(cGMP)也是一种“第二信使”;但对其生理功能的研究比cAMP少。近年来认为,以上两种环核苷酸(CN)在某些神经病中(包括癫痫)可能起着重要作用。许多实验材料证明,动物脑内的CN与惊厥,癫痫和抗癲痫药物的作用有密切关系。一、惊厥和癫痫对脑内环核苷酸的影响许多实验材料证明,多种方法引起的动物惊厥和人类癫痫活动可明显影响脑内CN的水平。Sattin首先报道超强电休克惊厥(MES)可使小鼠前脑cAMP含量明显升高,以后许多报告也证明,以多种方法引起动物惊厥时,均可使其脑内CN含量升高。如Lust证     

NO参与介导吗啡戒断大鼠脊髓神经元敏感化

运用Fos免疫组织化学、NADPH－d组织化学、F/NADPH－d双标、鞘内注射和反义寡核苷酸技术,观察吗啡戒断大鼠脊髓神经元活动变化及NO在其中的作用,结果发现：非吗啡依赖大鼠急性应用纳洛酮和吗啡依赖大鼠脊髓水平Fos-LI和NADPH－d阳性神经元表达与对照组相比无明显变化,二者也无Fos／NADPH－d双标神经元表达;吗啡依赖纳洛酮催促戒断大鼠脊髓Fos-LI、NADPH－d阳性神经元、纤维和终末表达明显增加,且出现Fos／NADPH－d双标神经元表达。Fos-LI和Fos／NADPH－d双标神经元呈现双侧脊髓全层分布,NADPH－d阳性神经元、纤维和终末主要位于双侧脊髓背角浅层。鞘内注射NOS抑制剂L－NA和nNOS反义寡核苷酸均明显降低吗啡依赖大鼠纳洛酮催促戒断症状评分,减少吗啡戒断大鼠脊髓Fos-LI表达。上述结果提示：NO参与介导吗啡戒断大鼠脊髓神经元敏感化。     

前列腺素E_2对四氧嘧啶处理的新生大鼠离体胰岛细胞内环核苷酸含量变化的影响

将分离的新生大鼠胰岛细胞,分别置入四氧嘧啶,PGE_2,PGE_2和四氧嘧啶以及高浓度葡萄糖和四氧嘧啶液进行孵育,用RIA 法测细胞内cAMP和cGMP的含量。结果表明,四氧嘧啶使胰岛细胞内 cAMP含量明显降低 cGMP含量升高cAMP/cGMP 比值比正常鼠低2.79倍,但 PGE_2预处理可以防止由四氧嘧啶引起的cAMP 的降低和 cGMP升高,使胰岛细胞内cAMP/cGMP 比值维持在接近正常水平。高浓度葡萄糖预处理虽不能防止由四氧嘧啶引起的cAMP 降低,但因能使cGMP 和cAMP 值均降低,故cAMP/cGMP 比值仍接近正常水平。单纯 PCE_2可使胰岛细胞内 cAMP含量轻度升高cGMP值略下降,cAMP/cGMP比值比正常值外高1.49倍。上述结果提示PGE_2可能是通过调节胰岛细胞内环核苷酸水平,实现其对胰岛B细胞的细胞保护作用的。     

热习服对家兔血浆、脑脊液和视前区-下丘脑前区环核苷酸含量的影响

William等认为,cAMP和cGMP对体温起对立平衡的调节作用。本实验通过洲定家兔热习服期间血、脑环核苷酸含量的变化,以观察在环境高温作用下,cAMP和cGMP对机体体温调节功能的影响。 材料和方法 青紫蓝雄性家兔,体重1.68～2.92kg,随机分为     

脊髓水平细胞外信号调节激酶激活参与吗啡依赖的形成及戒断反应的表达

在大鼠吗啡依赖和戒断模型上,采用行为学、免疫组织化学和Western blot方法观察吗啡依赖及戒断大鼠脊髓神经元磷酸化细胞外信号调节激酶（phospho-extracellular signal-regulated kinase,pERK）表达的变化,及鞘内注射促分裂原活化蛋白激酶激酶（mitogen-activated protein kinase kinase,MEK）抑制剂U0126或ERK反义寡核苷酸对吗啡依赖大鼠纳洛酮催促戒断反应、触诱发痛及脊髓神经元pERK表达的影响,探讨脊髓水平pERK在介导吗啡依赖和戒断过程中的作用。结果显示：（1）在吗啡依赖形成过程中,大鼠脊髓胞浆与胞核非磷酸化ERK表达没有改变,但pERK表达逐渐增加,纳洛酮催促戒断后,仍有进一步增加的趋势,戒断1h后,其表达量明显下降,但仍高于对照组。（2）鞘内预先注射MEK抑制剂U0126或ERK反义寡核苷酸能明显抑制吗啡戒断反应和戒断引起的痛觉异常;与行为学结果一致,脊髓背角pERK阳性神经元表达与脊髓胞浆和胞核pERK表达也明显降低。上述结果提示,脊髓水平ERK激活和核转位参与吗啡依赖的形成及戒断反应的表达。     

cGMP、cAMP及两种cAMP衍生物对大鼠肝细胞核体外转录系统的影响

 本文介绍了以α-鹅膏蕈碱和低浓度KCl为手段建立了RNA聚合酶Ⅰ、RNA聚合酶Ⅱ活性的细胞核转录系统进而研究了cGMP、cAMP、cAMP丁酯及cAMP硫代环磷酰二乙胺对大鼠肝细胞核中RNA聚合酶Ⅰ与Ⅱ活性的影响。结果显示cGMP可以提高RNA聚合酶Ⅰ的活性;cAMP主要提高RNA聚合酶Ⅱ的活极,而cAMP分子结构变化产生的丁酯及硫代环磷酰二乙胺衍生物可增强cAMP的这种作用,为深入研究cAMP的构效关系提供了实验依据。     

Forskolin and phosphodiesterase inhibitors release adenosine but inhibit morphine-evoked release of adenosine from spinal cord synaptosomes.

The effects of forskolin, Ro 20-1724, rolipram, and 3-isobutyl-1-methylxanthine (IBMX) on morphine-evoked release of adenosine from dorsal spinal cord synaptosomes were evaluated to examine the potential involvement of cyclic AMP in this action of morphine. Ro 20-1724 (1-100 microM), rolipram (1-100 microM), and forskolin (1-10 microM) increased basal release of adenosine, and at 1 microM inhibited morphine-evoked release of adenosine. Release of adenosine by Ro 20-1724, rolipram, and forskolin was reduced 42-77% in the presence of alpha,beta-methylene ADP and GMP, which inhibits ecto-5'-nucleotidase activity by 81%, indicating that this adenosine originated predominantly as nucleotide(s). Significant amounts of adenosine also were released from the ventral spinal cord by these agents. Ro 20-1724 and rolipram did not significantly alter the uptake of adenosine into synaptosomes. Although Ro 20-1724 and rolipram had only limited effects on the extrasynaptosomal conversion of added cyclic AMP to adenosine, IBMX, a phosphodiesterase inhibitor with a broader spectrum of inhibitory activity for phosphodiesterase isoenzymes, significantly inhibited the conversion of cyclic AMP to adenosine and resulted in recovery of a substantial amount of cyclic AMP. As with the non-xanthine phosphodiesterase inhibitors, IBMX increased basal release of adenosine and reduced morphine-evoked release of adenosine. Adenosine released by IBMX was reduced 70% in the presence of alpha,beta-methylene ADP and GMP, and release from the ventral spinal cord was 61% of that from the dorsal spinal cord. Collectively, these results indicate that forskolin and phosphodiesterase inhibitors release nucleotide(s) which is (are) converted extrasynaptosomally to adenosine.(ABSTRACT TRUNCATED AT 250 WORDS)     

Nitric Oxide Regulates Substance P Release from Rat Spinal Cord Synaptosomes

Abstract: In order to determine whether nitric oxide (NO) acts directly upon nerve terminals to regulate the synaptic transmission at the level of spinal cord, effects of NO-donors on release of substance P (SP) and glutamic acid (Glu) were investigated by superfusion of synaptosomes prepared from the rat spinal cord. Basal levels of endogenous SP and Glu release were 5.99 ± 2.50 fmol/min/mg of protein and 26.2 ± 4.8 pmol/min/mg of protein, respectively. Exposure to a depolarizing concentration of KCI evoked 2.7- and 3.8-fold increases in SP and Glu release in a calcium-dependent manner, respectively. Sodium nitroprusside (NP) caused a reduction in the depolarization-evoked overflow of SP in a concentration-dependent manner without affecting its basal release, although it failed to affect either basal or evoked release of Glu. The reduction in SP overflow was also observed by the perfusion with S -nitroso- N -acetyl-penicillamine or membrane-permeable cyclic GMP, but not with cyclic AMP. NP caused the concentration-dependent increases in cyclic GMP levels in synaptosomes. Together with reports that excitatory amino acids stimulate NO synthase and release NO in the spinal cord, these data suggest that there may be an interaction between nerve terminals containing Glu and SP, and that NO may directly participate in the regulation of synaptic transmission in SP-containing nerve terminals, which may be mediated through the activation of guanylate cyclase and the increase in cyclic GMP levels.     

Depolarizing agent-induced cyclic AMP accumulation in isolated rat spinal cord

The stimulation of cyclic adenosine 3',5'-monophosphate (cyclic AMP) accumulation by the depolarizing agents K+, ouabain and veratridine, was studied in rat and guinea pig spinal cord tissue slices. Significantly increased accumulation of cyclic AMP was produced by each of the agents in a concentration-dependent manner. Veratridine and ouabain were equipotent (EC50 = 5 x 10(-5)M) and approximately 500 fold more potent than K+ (EC50 = 10(-2)M). Depolarizing agent-induced cyclic AMP accumulation in slices from guinea pig spinal cord was approximately double the response in rat spinal cord. Maximum stimulation occurred within 2.5 min of incubation with these agents and lasted for at least 30 min. Regional studies demonstrated that the maximal accumulation of cyclic AMP occurred to a greater degree in tissue slices from the dorsal section of spinal cord from both rat and guinea pig. Whereas the ouabain and veratridine stimulatory responses are completely dependent on extracellular Ca++, the K+ response is only partially dependent. Stimulation due to ouabain and veratridine is dependent, and K+ is independent, of release of neurohumoral substances such as norepinephrine or adenosine from spinal neurons. These experiments indicate the possible modulatory role of depolarization-linked events in regulating the spinal cord cyclic AMP system.     

Comparison of capsaicin and substance P induced cyclic AMP accumulation in spinal cord tissue slices

Capsaicin (CAP) caused a time, concentration and Ca++ dependent increase in cyclic AMP accumulation in tissue slices from rat and guinea pig spinal cord. The CAP-induced increase occurred uniquely in slices from dorsal cord of both rat and guinea pig and the increase was significantly greater in dorsal cord slices from guinea pig vs rat spinal cord. CAP mediated release of substance P does not appear to mediate the CAP-induced increase in cyclic AMP accumulation since the increase in cyclic AMP is significantly less with substance P and the substance P antagonist [D-Pro2, D-Trp7,9]-substance P does not antagonize the CAP-induced increase. The CAP-induced increase in cyclic AMP accumulation appears to be a direct effect. Structural requirements for this effect are both the substituted aromatic and alkyl side chain portion of the CAP molecule. The present results suggest that CAP has the ability to interact with sites in dorsal spinal cord which are linked to the synthesis of cyclic AMP, which could modulate spinal processing of nociceptive information.     

Effect of high level section of the spinal cord on the cyclic AMP system in rat liver

The effect of high level section of the spinal cord upon the hepatic cyclic AMP system was investigated in the rat. We report that transection of the spinal cord dramatically decreases the basal level of cyclic AMP from 0.88 nmol/g liver to 0.36 nmol/g at 1 h and to 0.20 nmol/g at 4 h. This was not due to increased activity of cyclic AMP phosphodiesterase or to decreased activity of basal adenylate cyclase. The sensitivity of adenylate cyclase to its usual effectors in vitro was not impaired. It is proposed that the lowering of liver cyclic AMP below its basal level after high level section of the spinal cord is due to decreased levels of hepatic catecholamines and/or plasma glucagon.     

Effect of high level section of the spinal cord on the cyclic AMP system in rat liver.

The effect of high level section of the spinal cord upon the hepatic cyclic AMP system was investigated in the rat. We report that transection of the spinal cord dramatically decreases the basal level of cyclic AMP from 0.88 nmol/g liver to 0.36 nmol/g at 1 h and to 0.20 nmol/g at 4 h. This was not due to increased activity of cyclic AMP phosphodiesterase or to decreased activity of basal adenylate cyclase. The sensitivity of adenylate cyclase to its usual effectors in vitro was not impaired. It is proposed that the lowering of liver cyclic AMP below its basal level after high level section of the spinal cord is due to decreased levels of hepatic catecholamines and/or plasma glucagon.     

REGULATION OF GUANOSINE 3'',5'' CYCLIC MONOPHOSPHATE IN THE RAT PINEAL AND POSTERIOR PITUITARY GLANDS

Potassium and norepinephrine stimulate the accumulation of cyclic AMP and cyclic GMP in rat pineal glands and their efflux into the medium. The efflux of both cyclic nucleotides was blocked by probenecid. The accumulation and efflux of cyclic GMP, but not of cyclic AMP, depends upon the presence of intact nerve endings and extracellular calcium. The calcium-dependent release of norepinephrine caused by veratridine was accompanied by the efflux of both cyclic AMP and cyclic GMP. In contrast, the calcium-independent release of norepinephrine caused by tyramine was accompanied by the efflux of cyclic AMP but not cyclic GMP. Changes in cyclic GMP therefore, may be related to exocytosis from the sympathetic nerve endings in the gland. High concentrations of potassium also increased tissue levels of cyclic GMP in the posterior pituitary gland. Veratridine and potassium, but not norepinephrine, stimulated the efflux of cyclic GMP from this neurosecretory gland. Thus, the relationship between cyclic GMP and exocytosis may extend beyond sympathetic nerve endings. The enhanced accumulation of cyclic GMP in the pineal gland after potassium does not appear to be mediated by extracellular (released) norepinephrine. Desmethylimipramine blocked the norepinephrine-stimulated changes in cyclic GMP, but not those caused by potassium. Investigation of the possible relationship between cyclic GMP and release of neurotransmitters is complicated by the apparent seasonal variation in the response of pineal cyclic GMP to potassium or norepinephrine.     

Purification, characterization and production of rabbit antibodies to rat liver particulate, high-affinity, cyclic AMP phosphodiesterase

The cyclic nucleotide phosphodiesterase (EC 3.4.16) activities of a rat liver particulate fraction were analyzed after solubilization by detergent or by freeze-thawing. Analysis of the two extracts by DEAE-cellulose chromatography revealed that they contain different complements of phosphodiesterase activities. The detergent-solubilized extract contained a cyclic GMP phosphodiesterase, a low affinity cyclic nucleotide phosphodiesterase whose hydrolysis of cyclic AMP was activated by cyclic GMP and a high affinity cyclic AMP phosphodiesterase. The freeze-thaw extract contained a cyclic GMP phosphodiesterase and two high affinity cyclic AMP phosphodiesterase, but no low affinity cyclic nucleotide phosphodiesterase. The cyclic AMP phosphodiesterase activities from the freeze-thaw extract and from the detergent extract all had negatively cooperative kinetics. One of the cyclic AMP phosphodiesterases from the freeze-thaw extract (form A) was insensitive to inhibition by cyclic GMP; the other freeze-thaw solubilized cyclic AMP phosphodiesterase (form B) and the detergent-solubilized cyclic AMP phosphodiesterase were strongly inhibited by cyclic GMP. The B enzyme appeared to be converted into the A enzyme when the particulate fraction was stored for prolonged periods at -20 degrees C. The B form was purified extensively, using DEAE-cellulose, a guanine-Sepharose column and gel filtration. The enzyme retained its negatively cooperative kinetics and high affinity for both cyclic AMP and cyclic GMP throughout the purification, although catalytic activity was always much greater for cyclic AMP. Rabbit antiserum was raised against the purified B enzyme and tested via a precipitin reaction against other forms of phosphodiesterase. The antiserum cross-reacted with the A enzyme and the detergent-solubilized cyclic AMP phosphodiesterase from rat liver. It did not react with the calmodulin-activated cyclic GMP phosphodiesterase of rat brain, the soluble low affinity cyclic nucleotide phosphodiesterase of rat liver or a commercial phosphodiesterase preparation from bovine heart. These results suggest a possible interrelationship between the high affinity cyclic nucleotide phosphodiesterase of rat liver.     

In vitro studies of the testis: the effect of LH on cyclic nucleotides.

This study evaluated the relationship between LH, cyclic AMP, cyclic GMP, and testosterone using in vitro incubation of decapsulated rat testes and sampling incubation medium. With added LH (1.0, 5.0, 100, and 500 mIU/ml) there were statistically significant increases in cyclic AMP at 5 mIU/ml or more LH, and progressively greater titers of this nucleotide were produced as LH was increased. For cyclic GMP all levels of added LH caused significant increments in titers of nucleotide; however, peak cyclic GMP concentrations occurred with 5 mIU/ml of LH. The addition of 10(-3) and 10-(4)M 8-bromo-cyclic AMP caused significant increases in testosterone production, while no changes in production of this androgen were found with 10(-3), 10(-4), or 10(-5)M 8-bromo-cyclic GMP. Neither cyclic AMP nor cyclic GMP titers were altered by the addition of 1 to 50 micrograms/ml of testosterone to medium bathing the rat testes. The dose response curves of cyclic AMP and cyclic GMP to LH are different. Progressive increments in added LH cause parallel increases of cyclic AMP and a biphasic change of cyclic GMP, 8-bromo-cyclic GMP does not cause testosterone generation, suggesting that cyclic GMP does not result in androgen synthesis. However, cyclic GMP may be involved in other Leydig cell functions.     

Changes in rat adrenal cyclic nucleotides during normal and neoplastic growth

In an attempt to correlate changes in cyclic nucleotide levels with in vivo growth of the rat adrenal gland we have measured adrenal cyclic AMP and cyclic GMP in normal, hyperplastic, and neoplastic rat adrenals. The first group of animals were subject to either unilateral adrenalectomy (ADX) or acute hypophysectomy 1 h prior to unilateral adrenalectomy (HADX). Cyclic nucleotides were measured in the contralateral adrenal post-operatively. In HADX rats cyclic GMP rose steadily throughout the 7 day study period, while ADX rats exhibited significant decreases in adrenal cyclic GMP. Cyclic AMP remained approximately 1.5 pm/mg tissue in HADX rats, while in ADX rats there was significant elevation of adrenal cyclic AMP at all time points. Cyclic GMP/cyclic AMP ratios remained constant in HADX animals; however, the growing adrenals of ADX animals exhibited depressed cyclic GMP/cyclic AMP ratios at all time periods.Adrenal hyperplasia was induced in a seond group of animals by a transplantable, corticotropin-secreting, pituitary tumor. Adrenals from age-matched animals served as controls. Adrenal cyclic AMP was significantly elevated in tumor-bearers at a time correspinding to the peak accumulation of adrenal weight, protein and DNA in these animals. In contrast, adrenal cyclic GMP in both tumor-beares and control animals fell steadily throughout the study period. Cyclic GMP/cyclic AMP ratios of control animals decreased from 2 to 3 weeks post-transplant remaining at the 3 week value during the period corresponding to rapid adrenal growth in tumor-bearers. The cyclic GMP/cyclic AMP ratio in the hyperplastic adrenals of tumor-bearers decreased steadily throughout their rapid growth period, suggesting a positive correlation between adrenal growth and depression of the cyclic GMP/cyclic AMP ratio.Cyclic nucleotide levels in neoplastic adrenals of rats bearing the transplantable adrenocortical carcinoma 494 were compared with cyclic nucleotides in normal rat adrenal glands. Cyclic AMP was not different in the two groups. However, the cyclic GMP content of neoplastic adrenals was significantly lower than that of normal adrenal tissue, causing a suppression of the cyclic GMP/cyclic AMP ratio in the neoplastic tissue. Thus, measurement of adrenal cyclic nucleotides in both hyperplastic and neoplastic rat adrenal glands suggests that adrenal growth in vivo may be characterized by a depression of the cyclic GMP/cyclic AMP ratio.