神经肽甘丙肽对麻醉和清醒大鼠纹状体乙酰胆碱释放的不同影响。
Differential effects of the neuropeptide galanin on striatal acetylcholine release in anaesthetized and awake rats.
作者信息
Antoniou K, Kehr J, Snitt K, Ogren S O
机构信息
Department of Neuroscience, Karolinska Institute, Stockholm, Sweden.
出版信息
Br J Pharmacol. 1997 Jul;121(6):1180-6. doi: 10.1038/sj.bjp.0701233.
Abstract
- In the present study the mechanisms were examined by which the neuropeptide galanin modulates the extracellular concentrations of striatal acetylcholine (ACh) in enflurane anaesthetized and in freely moving male rats by use of in vivo microdialysis and high performance liquid chromatography. 2. The perfusion of galanin through the microdialysis probe (0.3 nmol microl(-1), flow rate: 2 microl min(-1)) caused a statistically significant increase in the basal striatal ACh levels in anaesthetized but a decrease in awake animals. No significant effect was revealed after a low dose (0.1 nmol microl(-1), flow rate: 2 microl min(-1)) of galanin perfusion. Both the stimulating and inhibitory effects of galanin on basal ACh release were reversible. 3. The muscarinic antagonist scopolamine (0.1 mg kg(-1), subcutaneously (s.c.)) caused a significant increase in ACh release in both anaesthetized and awake animals. 4. The combination of galanin plus scopolamine attenuated the stimulant effect on ACh release caused by scopolamine alone in awake animals. 5. The putative galanin receptor antagonist M35 at 0.3 nmol microl(-1) but not at 0.1 nmol microl(-1) caused a significant reduction (20%) in ACh release, supporting the view that M35 at higher concentrations behaves as a partial agonist at the galanin receptor. When M35 (0.1 nmol microl(-1)) was co-infused with galanin (0.3 nmol microl(-1)) the galanin-evoked decrease in ACh release was completely blocked. 6. Taken together, these results indicate that galanin affects basal ACh release via stimulation of galanin receptors within the striatum. The mechanism involved is dependent on the anaesthesia procedure which may act via enhancement of gamma-aminobutyric acidA (GABA(A)) mediated transmission within striatal and/or output neurones. In addition, anaesthesia may also decrease the activity of glutamatergic striatal afferents. The results with M35 indicate that the role of galanin perfused in striatum is permissive in the normal rat. Furthermore, galanin is a potent inhibitory modulator of basal ACh release also in the striatum, as recently was shown in the ventral hippocampus in awake animals.
摘要
- 在本研究中,通过体内微透析和高效液相色谱法,研究了神经肽甘丙肽调节恩氟烷麻醉的和自由活动的雄性大鼠纹状体乙酰胆碱(ACh)细胞外浓度的机制。2. 通过微透析探针灌注甘丙肽(0.3 nmol μl⁻¹,流速:2 μl min⁻¹)导致麻醉动物纹状体基础ACh水平有统计学意义的升高,但在清醒动物中则降低。低剂量(0.1 nmol μl⁻¹,流速:2 μl min⁻¹)灌注甘丙肽后未显示出显著影响。甘丙肽对基础ACh释放的刺激和抑制作用都是可逆的。3. 毒蕈碱拮抗剂东莨菪碱(0.1 mg kg⁻¹,皮下注射(s.c.))在麻醉和清醒动物中均导致ACh释放显著增加。4. 甘丙肽加东莨菪碱的组合减弱了东莨菪碱单独在清醒动物中引起的对ACh释放的刺激作用。5. 假定的甘丙肽受体拮抗剂M35在0.3 nmol μl⁻¹时而非0.1 nmol μl⁻¹时导致ACh释放显著降低(20%),支持了高浓度M35在甘丙肽受体上表现为部分激动剂的观点。当M35(0.1 nmol μl⁻¹)与甘丙肽(0.3 nmol μl⁻¹)共同灌注时,甘丙肽引起的ACh释放减少被完全阻断。6. 综上所述,这些结果表明甘丙肽通过刺激纹状体内的甘丙肽受体影响基础ACh释放。所涉及的机制取决于麻醉程序,麻醉程序可能通过增强纹状体和/或输出神经元内γ-氨基丁酸A(GABA(A))介导的传递起作用。此外,麻醉还可能降低谷氨酸能纹状体传入神经的活性。M35的结果表明,在正常大鼠中,灌注到纹状体中的甘丙肽起允许作用。此外,正如最近在清醒动物的腹侧海马体中所显示的那样,甘丙肽在纹状体中也是基础ACh释放的有效抑制调节剂。
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