GABA对胚胎小鼠大脑皮质神经细胞生长的影响及其作用机制

ＧＡＢＡ对胚胎小鼠大脑皮质神经细胞生长的影响及其作用机制＊陆勤陈忠１朱剑琴（南京大学生物系,南京２１００９３;１海南师范大学）近年来研究发现γ－氨基丁酸（ＧＡＢＡ）在神经系统的发育过程中还具有营养作用,是一种潜在的神经营养因子,为了进一步研究ＧＡＢＡ...     

GABAB受体与腺苷酸环化酶偶联环节的脱敏研究

将突触体膜与佛波脂（ＰＭＡ）,ＧＡＢＡＢ受体激动剂巴氯芬（Ｂａｃｌｏｆｅｎ,ＢＡＬ）预孵育一定时间后ＢＡＬ对腺苷酸环化酶（ＡＣ）基础活性及ｆｏｒｓｋｏｌｉｎ刺激的ＡＣ活性的抑制率显著降低,而ｆｏｒｓｋｏｌｉｎ预孵育时,ＢＡＬ对基础及ｆｏｒｓｋｏｌｉｎ刺激的ＡＣ活性的抑制率不变,表明ＧＡＢＡＢ受体与ＡＣ偶联环节的脱敏机制涉及蛋白激酶激活。而与蛋白激酶Ａ无关,脱敏时ＧＡＢＡＢ受体的Ｋｄ值增加,本 实验     

鲫鱼视网膜谷氨酸受体和GABA受体在爪蟾卵母细胞中的表达

我们以两栖类卵母细胞为功能表达系统,通过注射鲫鱼（Ｃａｒａｓｓｉｕｓｃａｒａｓｓｉｕｓ）视网膜ｍＲＮＡ,利用电压箝及药物灌流手段,系统地研究了鲫鱼视网膜内氨基酸受体的类型和特征,结果如下：（１）Ｇｌｕ受体：ＫＡ可以诱发明显的去极化电流,而且Ｄｉａｚｏｘｉｄｅ能增强ＫＡ诱导的反应,这提示鲫鱼视网膜内某些Ｃｌｕ受体是ＡＭＰＡ选择性亚型（ＡＭＰＡ－ｐｒｅｆｅｒｒｉｎｇｓｕｂｔｙｐｅ）。（２）ＣＡＢＡ受体：ＧＡＢＡ能诱发一个快速、光滑的内向电流,绝大部分对ＧＡＢＡ的反应可被ｂｉｃｕｃｕｌｌｉｎｅ所压抑,而ＧＡＢＡ＿Ｂ受体的激动剂ｂａｃｌｏｆｅｎ则无任何作用,这提示,鲫鱼视网膜内大部分是ＧＡＢＡ＿Ａ受体。     

糖皮质激素对谷氨酸和GABA受体的电生理反应的快速调制作用

在大鼠下丘脑薄片和豚鼠腹腔神经节上,分别用玻璃微电极细胞外和细胞内记录方法,观察了１０＾６ｍｏｌ／Ｌ糖皮质激素（ＧＣ）对谷氨酸和ＧＡＢＡ受体分层效应的快速调制作用。结果表明,ＧＣ灌流后５ｍｉｎ,对谷氨酸受体介导的效应起抑制作用,而对ＧＡＢＡ受体介导的效应起增强作用。撤除ＧＣ后,神经元对谷氨酸和ＧＡＢＡ的反应恢复到对照水平。低钙高镁灌流液不能取消ＧＣ的调制作用。结果提示,ＧＣ在不需要突触环路条件下,     

鸡视网膜谷氨酸受体和GABA受体在两栖类卵母细胞中的表达

本工作利用两栖类卵母细胞作为功能表达系统,对鸡视网膜中的谷氨酸受体和ＧＡＢＡ受体的类型和基本性质进行了研究。在注射鸡视网膜ｍＲＮＡ的卵母细胞上,谷氨酸受体有明显的表达。Ｌ－Ｇｌｕ及其类似物ＫＡ,ＡＭＰＡ,ＱＡ都毫无例外地能诱导卵母细胞产生快速平滑的去极化电流,而ＮＭＤＡ,Ｌ－ＡＰ４,ＡＣＰＤ以及天冬氨酸不能诱导明显的电流反应。并且ＡＭＰＡ,ＱＡ对ＫＡ反应存在一定的抑制作用,提示ＡＭＰＡ,ＱＡ可能与ＫＡ作用于同一受体。抑制性氨基酸ＧＡＢＡ的受体被证明大部分为ＧＡＢＡＡ亚型,但有小部分的ＧＡＢＡ反应不能为荷包牡丹碱（ｂｉｃｕｃｕｌｌｉｎｅ）所阻断。     

GABA对鲫鱼视网膜视锥水平细胞的选择性压抑

本工作应用细胞内记录技术,在灌流的鲫鱼视网膜的标本上,研究了γ－氨基丁酸对视杆水平细胞笔视锥水平细胞的影响。结果表明,在ＧＡＢＡ的作用下,Ｌ型视锥水平细胞暗中膜电位超极化,对光反应减小;ＧＡＢＡＡ受体的特异性拮抗剂荷包牡丹碱在７０％的细胞上能阻断上述ＧＡＢＡ的效应。     

抗肿瘤药物对小鼠早期胚胎发育的影响

表观遗传修饰在基因表达和克隆胚胎的早期发育方面有重要作用.表现遗传修饰至少发生在两个关键时期--配子形成期和植入前胚胎,如果在此期间发生异常,则会导致胚胎的死亡及出生后各种疾病的发生.其中DNA的甲基化是最重要的一种表观遗传修饰类型,DNA甲基化在哺乳动物发育过程中起关键作用.综述几种类型抗肿瘤药物作用机制——其使胚胎的DNA甲基化降低,引起转录活性降低,进而导致胚胎发育停滞.     

高浓度葡萄糖对昆明小鼠早期胚胎发育的影响

建立昆明小鼠受孕模型,分离并体外培养胚胎细胞.检测了各培养浓度下的细胞增殖、分化与凋亡.胚胎细胞在0.2mmol/L和5.56mmol/L葡萄糖浓度的KSOM培养基中能正常发育和孵化;而在浓度为15.56mmol/L和25.56mmol/L葡萄糖培养基中胚胎发育和孵化均受到损害(P<0.005),且总细胞数和内细胞团细胞数也明显减少(P<0.01),但其细胞凋亡率与0.2mmol/L和5.56mmol/L葡萄糖浓度下胚胎细胞凋亡率无显著性差异(P>0.05).随着葡萄糖浓度的增高,胚泡总的表面积无明显变化,但胚胎细胞密度呈增加趋势.高血糖对早期胚胎的发育具有毒性作用,提示高糖可能导致妊娠合并糖尿病患者的流产和胎儿畸形率升高.     

四氢小檗碱的中枢抑制作用与GABA受体无关

应用蚯蚓背肌收缩反应,证实四氢小檗碱（ＴＨＢ,１０－７－１０－４ｍｏｌ／Ｌ）不能影响ＧＡＢＡ和ＡＣｈ两种受体的功能,多巴胺受体阻滞剂氟哌啶醇（ＨＡＬ）亦不能影响它们。由于异烟肼（ＩＮＨ）和氨基硫脲（ＴＳＣ）抑制ＧＡＢＡ的生物合成,印防己毒素（ＰＴ）和毕枯枯灵（Ｂｉｃ）作用于ＧＡＢＡ－ＢＺ受体复合体,它们都使小鼠产生惊厥,该作用能被氨基氧乙酸（ＡＯＡＡ）和安定（ＢＺ）所拮抗,但ＴＨＢ和ＨＡＬ却不能。由此表明前述ＴＨＢ的中枢抑制作用与ＧＡＢＡ抑制无关。     

Bicuculline- and Baclofen-Insensitive γ-Aminobutyric Acid Binding to Rat Cerebellar Membranes

Up to 60% of gamma-[3H]aminobutyric acid ([3H]GABA) bound specifically to rat cerebellar membranes in the absence of Ca2+ was insensitive to the GABAA antagonist bicuculline and to the GABAB agonist baclofen. This indicates that a significant component of specifically bound [3H]GABA is associated with non-GABAA, non-GABAB binding sites. The presence of this binding component appeared seasonal, peaking in the month of September (early spring) each year over a 4-year period. The calcium independence and bicuculline and baclofen insensitivity of the binding indicate that this binding is not to the classical GABAA and GABAB binding sites. High concentrations of muscimol and isoguvacine inhibited non-GABAA, non-GABAB binding. Scatchard analysis of the non-GABAA, non-GABAB binding sites indicated two kinetic components: KD1 = 42 nM and KD2 = 9.2 microM; Bmax1 = 1.6 pmol/mg of protein and Bmax2 = 28 pmol/mg of protein.     

Photoaffinity Labeling of the GABAA Receptor with [3H]Muscimol

Muscimol is one of the most potent agonist ligands at the gamma-aminobutyric acidA (GABAA) receptor. Analysis of its chemical structure showed it to be a candidate for photoaffinity labeling. In practice, UV irradiation at 254 nm both changed the UV spectrum of muscimol and induced an irreversible binding of [3H]-muscimol to rat cerebellar synaptosomal membrane. After 10 min of irradiation, using 10 nM [3H]muscimol, the specific portion of this binding was 270 fmol/mg protein. (Nonspecific binding was defined as that arising in the presence of 1 mM GABA.) Specific binding increased asymptotically up to 100 nM [3H]muscimol. Irradiation of the membranes themselves did not significantly alter the KD or Bmax of reversible [3H]muscimol binding. However, irradiation of [3H]muscimol reduced its capacity subsequently to photolabel the membranes by 86 +/- 3%. Dose-dependent inhibition of binding was observed with muscimol, GABA, and bicuculline methiodide; with 10 nM [3H]muscimol maximum inhibition was 70% of total labeling and the order of potencies of these three compounds was characteristic of labeling to the GABAA receptor. Baclofen, l-glutamate, and diazepam exerted no effect at high concentrations. SDS-PAGE of the photolabeled membranes indicated specific incorporation of radioactivity into two molecular-weight species. One failed to enter the separating gel, implying a molecular weight greater than 250,000 daltons (250 kD). The molecular weight of the other was identified by fluorography to be about 52,000 daltons (52 kD).     

Reaction of Muscimol with 4-Aminobutyrate Aminotransferase

Abstract: The reaction of muscimol as amino donor substrate for GABA transaminase (GABA-T) has been studied using enzyme purified from rabbit brain. Enzyme activity was assayed by measuring the glutamate produced using glutamate dehydrogenase. Kinetic parameters determined at 37°C were for GABA, K _m (app) = 1.92 ± 0.24 m M , specific activity = 7.33 ± 0.27 μmol/min/mg ( k _cat= 13.7s⁻¹), and for muscimol, K _m (app) = 1.27 ± 0.15 m M , specific activity = 0.101 ± 0.009 μmol/min/mg ( k _cat= 0.19s⁻¹). Addition of muscimol to the enzyme caused the spectral changes associated with conversion of the pyridoxaldimine form to the pyridoxamine form, and the first-order rate constant for the reaction showed a dependence on muscimol concentration that followed saturation kinetics, with a K = 1.1 ±0.18 m M and k _max= 0.065 ± 0.004 s⁻¹ (19°C). The rate of spectral change observed on addition of muscimol to ornithine transaminase was extremely slow—at least an order of magnitude slower than that seen with GABA-T.     

Role of the Conserved Lysine Residue in the Middle of the Predicted Extracellular Loop Between M2 and M3 in the GABAA Receptor

Abstract : In α1, β2, and γ2 subunits of the γ-aminobutyric acid A (GABA_A) receptor, a conserved lysine residue occupies the position in the middle of the predicted extracellular loop between the transmembrane M2 and M3 regions. In all three subunits, this residue was mutated to alanine. Whereas the mutation in α1 and β2 subunits results each in about a sixfold shift of the concentration-response curve for GABA to higher concentrations, no significant effect by mutation in the γ subunit was detected. The affinity for the competitive inhibitor bicuculline methiodide was not affected by the mutations in either the α1 subunit or the β2 subunit. Concentration-response curves for channel activation by pentobarbital were also shifted to higher concentrations by the mutation in the α and β subunits. Binding of [³H]Ro 15-1788 was unaffected by the mutation in the α subunit, whereas the binding of [³H]muscimol was shifted to lower affinity. Mutation of the residue in the α1 subunit to E, Q, or R resulted in an about eight-, 10-, or fivefold shift, respectively, to higher concentrations of the concentration-response curve for GABA. From these observations, it is concluded that the corresponding residues on the α1 and β2 subunits are involved more likely in the gating of the channel by GABA than in the binding of GABA or benzodiazepines.     

γ-Aminobutyric acid modulation of acetylcholine-induced contractions of a smooth muscle from an echinoderm (Sclerodactyla briareus)

This study provides pharmacological evidence for the presence of GABAergic neurons innervating the longitudinal muscle of the body wall (LMBW) of holothurians. γ-Aminobutyric acid (GABA) A and B receptor subtypes were both present in this system and regulated spontaneous contractions as well as responses to acetylcholine (ACh) that stimulated contraction of the LMBW. GABA dose-dependently relaxed the resting tone of the LMBW. GABA (10⁻⁵ M) inhibited ACh-induced (10⁻⁴ M) contractions by 20%. The GABA B agonist, baclofen, relaxed the LMBW, an effect potentiated by GABA. Pretreatment with baclofen (10⁻⁴ M) inhibited ACh (10⁻⁴ M) contractions of the LMBW by 50%. Phaclofen, a GABA receptor B antagonist, caused a dose-dependent increase in resting tension. Phaclofen-induced (10⁻⁵ M) contractions were reversed by the addition of GABA or baclofen (10⁻⁴ M) and potentiated by the addition of another GABA B receptor antagonist, 2-hydroxy-saclofen (10⁻⁵ M). Pretreatment with phaclofen (10⁻⁵ M) caused a marked potentiation of ACh-induced (10⁻⁴ M) contractions by 101%. 2-Hydroxy-saclofen (10⁻⁵ M) had a toxic effect on the LMBW, rendering it completely unresponsive either to ACh or to a second exposure to GABA, and so exhibiting cross-desensitization. Muscimol, a GABA A receptor agonist, had no effect on the resting tension of the LMBW. Curiously, pretreatment of the muscle with muscimol (10⁻⁵ M) potentiated ACh-evoked (10⁻⁴ M) contractions by nearly 20%. Bicuculline (10⁻⁵ M), a GABA A receptor antagonist, generated large, sustained contractions and partially blocked GABA-induced (10⁻⁴ M) relaxation. Like 2-hydroxy-saclofen, bicuculline (10⁻⁵ M) had a profound cross-desensitizing effect on the LMBW to subsequent exposures to GABA and ACh. ACh was unable to potentiate the sustained contractions induced by bicuculline. Accepted: 17 September 1998     

The effects of bicuculline and muscimol on glutamate-induced feeding behavior in broiler cockerels

This study was designed to examine the effects of intracerebroventricular (ICV) injection of bicuculline (GABA_A receptor antagonist) and muscimol (GABA_A receptor agonist) on glutamate-induced eating response in 24-h food-deprived (FD24) broiler cockerels. At first, guide cannula was surgically implanted in the right lateral ventricle of chickens. In experiment 1, birds were ICV injected with different doses of glutamate. In experiment 2, birds were administered with effective dose of glutamate after bicuculline. In experiment 3, chickens received muscimol prior to the injection of glutamate, and cumulative food intake was determined at 3-h postinjection. The results of this study showed that glutamate decreases food consumption in FD24 broiler cockerels (P ≤ 0.05), and this reduction occurs in a dose-dependent manner. Moreover, the inhibitory effect of glutamate on food intake was significantly increased with bicuculline pretreatment, and this effect was attenuated with muscimol (P ≤ 0.05). These results suggest that there is an interaction between glutamatergic and GABAergic systems (through GABA_A receptor) on food intake in broiler cockerels.     

Decreased High-Affinity Binding of [3H]Muscimol to Cerebral Synaptic Membranes of Scrapie-Infected Mice

Scrapie is a transmissible disease that results in progressive degeneration of the central nervous system and death. Although scrapie has been studied histopathologically, relatively little is known concerning neurotransmitter alterations. Specific [3H]muscimol binding to whole brain crude synaptic membranes (CSM) from mice clinically affected with scrapie was significantly (p less than 0.01) reduced, to approximately 73% of that of the controls. Of the brain regions examined, binding to only cerebral CSM was significantly (p less than 0.0001) decreased. Scatchard analyses of saturation curves revealed that the high-affinity (KD = 8 +/- 3 nM) site for muscimol was abolished in cerebral CSM from scrapie-infected mice, while the low-affinity site was unaffected. Binding of [3H]flunitrazepam to cerebral CSM was unaffected by scrapie and was stimulated by GABA to the same extent in both scrapie and control mice. These results suggest that scrapie agent 139A in C57BL/6J mice manifests a portion of its CNS pathology via a high-affinity GABA binding site that is unassociated with the benzodiazepine receptor.     

Decreased GABA<Subscript>A</Subscript> Receptor Function in the Brain Stem during Pancreatic Regeneration in Rats

Gamma amino butyric acid is a major inhibitory neurotransmitter in the central nervous system. In the present study we have investigated the alteration of GABA receptors in the brain stem of rats during pancreatic regeneration. Three groups of rats were used for the study: sham operated, 72 h and 7 days partially pancreatectomised. GABA was quantified by [³H]GABA receptor displacement method. GABA receptor kinetic parameters were studied by using the binding of [³H]GABA as ligand to the Triton X-100 treated membranes and displacement with unlabelled GABA. GABA_A receptor activity was studied by using the [³H]bicuculline and displacement with unlabelled bicuculline. GABA content significantly decreased (P < 0.001) in the brain stem during the regeneration of pancreas. The high affinity GABA receptor binding showed a significant decrease in B _max (P < 0.01) and K _d (P < 0.05) in 72 h and 7 days after partial pancreatectomy. [³H]bicuculline binding showed a significant decrease in B _max and K _d (P < 0.001) in 72 h pancreatectomised rats when compared with sham where as B _max and K _d reversed to near sham after 7 days of pancreatectomy. The results suggest that GABA through GABA receptors in brain stem has a regulatory role during active regeneration of pancreas which will have immense clinical significance in the treatment of diabetes.     

In vitro and in vivo effects of GABA, muscimol, and bicuculline on lamprey GnRH concentration in the brain of the sea lamprey (Petromyzon marinus)

gamma-Aminobutyric acid (GABA) is a neurotransmitter with a demonstrated neuroregulatory role in reproduction in most representative species of vertebrate classes via the hypothalamus. The role of GABA on the hypothalamus-pituitary axis in lampreys has not been fully elucidated. Recent immunocytochemical and in situ hybridization studies suggest that there may be a neuroregulatory role of GABA on the gonadotropin-releasing hormone (GnRH) system in lampreys. To assess possible GABA-GnRH interactions, the effects of GABA and its analogs on lamprey GnRH in vitro and in vivo were studied in adult female sea lampreys (Petromyzon marinus). In vitro perfusion of GABA and its analogs at increasing concentrations (0.1-100 microM) was performed over a 3-h time course. There was a substantial increase of GnRH-I and GnRH-III following treatment of muscimol at 100 microM. In in vivo studies, GABA or muscimol injected at 200 microg/kg significantly increased lamprey GnRH concentration in the brain 0.5 h after treatment compared to controls in female sea lampreys. No significant change in lamprey GnRH-I or GnRH-III was observed following treatment with bicuculline. These data provide novel physiological data supporting the hypothesis that GABA may influence GnRH in the brain of sea lamprey.