The ontogeny of cytosol and nuclear progestin receptors in male rat brain and its male-female differences

The fetal and postnatal development of the progestin receptor systems in the intact male rat brain was investigated by means of the in vitro cytosol binding and the nuclear exchange assay using [³H]R5020 ([17α-methyl-³H]17α,21-dimethyl-19-nor-4,9-pregnadiene-3,20-dione). The cortical cytosol receptors, first detectable at day 0, rapidly increased at day 7, reaching a maximum at day 10, then gradually declined thereafter. The receptors in the HPOA appeared clearly at day 1, increased during the first 10 days, then remained constant at days 14–21. The postnatal developmental patterns of cytosol brain progestin receptors in males were essentially similar to those in females, but there were some differences between both sexes. The male HPOA at days 10–14 contained more receptors than the female one. Nuclear progestin binding was low in the neonatal male brain at days 1–3. Despite the low level of serum progesterone, the cortical nuclear binding suddenly increased at days 7–10, then remained high at days 14–21. A similar, though less pronounced, pattern was seen in the HPOA. The male pattern of nuclear binding, thus, essentially resembled the female one. However, lower binding in the cortex and, possibly, HPOA was found in males than in females at days 10–21. After progesterone injection postnatal male rats accumulated a lower concentration of progestin receptors in the cortex and, possibly, HPOA than similarly-treated females.It is concluded from these results that progestin receptors in male rat brain appear immediately after birth and develop differentially in the cortex and HPOA. The sudden onset of increased nuclear translocation of endogenous progestin receptor complexes may occur in the brain at around days 7–10. There is a marked sex difference in the nuclear progestin receptor system in the postnatal brain, particularly the cortex. Moreover, the postnatal male brain has lower capacities of nuclear receptor translocation than does the female one. The progestin receptor system in the cortex and, possibly, HPOA of rats in the early postnatal life might be involved with some processes in the mechanism of sexual differentiation of the brain.     

Cholinergic enzyme activities and muscarinic binding in the cerebral cortex of rats of different age and sex

1. The choline acetyltransferase and acetylcholinesterase activities in the cerebral cortex and hippocampus and muscarinic binding in the cerebral cortex did not differ significantly between male and female Wistar rats. 2. Choline acetyltransferase activities in the cerebral cortex and hippocampus of rats were not altered during ageing. 3. Acetylcholinesterase activities in these same brain areas were markedly decreased during ageing, possibly reflecting a loss of postsynaptic enzyme activity. 4. When measured using 3H-pirenzepine, binding to the postsynaptic muscarinic receptors was slightly higher in 26-month-old rats than in 12-month-old rats; total muscarinic binding measured using 3H-quinuclidinyl benzilate did not alter during ageing. 5. The present study does not support the hypothesis that in the rat brain the number of postsynaptic muscarinic binding sites decreases during ageing.     

Profile of acetylcholinesterase in brain areas of male and female rats of adult and old age

Inhibition of acetylcholinesterase (AChE)-metabolizing enzyme of acetylcholine, is presently the most important therapeutic target for development of cognitive enhancers. However, AChE activity in brain has not been properly evaluated on the basis of age and sex. In the present study, AChE activity was investigated in different brain areas in male and female Sprague-Dawley rats of adult (3 months) and old (18-22 months) age. AChE was assayed spectrophotometrically by modified Ellman's method. Specific activity (micromoles/min/mg of protein) of AChE was assayed in salt soluble (SS) and detergent soluble (DS) fractions of various brain areas, which consists of predominantly G1 and G4 molecular isoforms of AChE respectively. The old male rats showed a decrease (40-55%) in AChE activity in frontal cortex, striatum, hypothalamus and pons in DS fraction and there was no change in SS fraction in comparison to adult rats. In the old female rats the activity was decreased (25-40%) in frontal cortex, cerebral cortex, striatum, thalamus, cerebellum and medulla in DS fraction whereas in SS fraction the activity was decreased only in hypothalamus as compared to adult. On comparing with old male rats, old female rats showed increase in AChE activity in cerebral cortex, hippocampus and hypothalamus of DS fraction and decrease in hypothalamus of SS fraction. There was a significant increase in AChE activity in DS fraction of cerebral cortex, hippocampus, hypothalamus, thalamus and cerebellum in female as compared to male adult rats. However, no significant change in AChE activity was found in the SS fraction, except hypothalamus between these groups. Thus it appears that age alters AChE activity in different brain regions predominantly in DS fraction (G4 isoform) that may vary in male and female. These observations have significant relevance to age related cognitive deficits and its pharmacotherapy.     

Discrimination of Multiple [3H]5-Hydroxytryptamine Binding Sites by the Neuroleptic Spiperone in Rat Brain

Certain neuroleptic drugs, such as spiperone and (+) butaclamol, can discriminate between two populations of [³H]5-hydroxytryptamine ([³H]5-HT) binding sites in rat brain. The butyrophenone neuroleptic spiperone shows the greatest selectivity for these two binding sites, having at least a 3000-fold difference between its dissociation constants (2-12 nM versus 35,000 nM) for the high- and low-affinity sites, respectively. Inhibition of [³H]5-HT binding by spiperone in rat frontal cortex and corpus striatum yields distinctly biphasic inhibition curves with Hill slopes significantly less than unity. Results from nonlinear regression analysis of these inhibition studies were consistent with a two-site model in each brain region. In the frontal cortex the high-affinity neuroleptic sites comprised about 60% of the total [^3/H]5-HT binding sites whereas in the corpus striatum they accounted for only 20% of the sites. Furthermore, saturation studies of [³H]5-HT binding assayed in the absence or presence of 1 μM-spiperone (a concentration that completely blocks the high-affinity site while having minimal activity at the low-affinity site) reveal a parallel shift in the Scatchard plot with no change in the dissociation constant of [³H]5-HT, but a significant decrease (64% in frontal cortex or 28% in corpus striatum) in the number of specific binding sites. These observations are consistent with the existence of at least two populations of [³H]5-HT binding sites having a differential regional distribution in rat brain.     

Studies of the immunohistochemical and biochemical localization of the cytochrome P-450scc-linked monooxygenase system in the adult rat brain

Immunohistochemical and biochemical studies were performed on the brains of adult female and male rats using a specific antibody against bovine adrenocortical cytochrome P-450scc. The results showed that in both male and female rats, the myelinated regions of the white matter are selectively immunostained throughout the brain and that even in rats pretreated with colchicine, there is never positive staining of neuronal cell bodies and their dendrites in any brain region. Western immunoblotting with the P-450scc antibody and enzymatic assays revealed that P-450scc and cholesterol side-chain cleavage activity were present in a homogenate derived from the cortical white matter, but not detectable in that from the cerebral cortex. Furthermore, quantitation of the P-450scc protein in the immunoblots indicated that the concentration of P-450scc in the cortical white matter of both female and male rat brains is approx. 3-4 pmol per mg tissue protein. Thus it could be concluded that in the adult rat brain, P-450scc and cholesterol side-chain cleavage activity are selectively localized only in the myelinated region of the white matter.     

Characterization of rat hypothalamic progestin binding by spheroidal hydroxylapatite chromatography.

The progestin-high-affinity-binding components in rat target tissues have been assayed by a simple and precise procedure by using spheroidal hydroxylapatite. The progestin 'receptors' in the uterus and hypothalamus of female rats are highly specific for progestins, which they bind with high affinity (Kd for [3H]progesterone in hypothalamus is 1.9 nM and in uterus is 3.7 nM). The dissociation of [3H]progesterone from receptor in vitro is rapid: t1/2 6 degrees C = 45 min in uterine cytosol; t1/2 6 degrees C = 160 min in hypothalamic cytosol. The binding is destroyed by proteinase. In the cytosol of hypothalamus and cortex of developing rats, progestin 'receptors' were present in both male and female rats by 2-3 days after birth; subsequent changes in concentration of these 'receptors' appeared to be independent of sex. Concentrations of progestin 'receptor' were close to adult values by 8-9 days, and thereafter changed relatively little.     

Influence of prenatal stress on the rat hypothalamic-pituitary-adrenal axis activity: the role of the brain glycocorticoid receptors

The effects of prenatal stress on the hypothalamic-pituitary-adrenal (HPA) axis activity and brain glycocorticoid receptors were studied in neonatal male and female offspring, as well as the influence of neonatal glycocorticoid receptors blockade on hormonal stress reactivity of adult rats. The results showed that there were sexual differences in plasma corticosterone level and corticosteroid binding in the cortex and hypothalamus of 5-day old control rats. Prenatal stress increased basal level of corticosterone in female rats, decreased corticosterone binding in hypothalamus and hippocampus of male and female rats, and increased corticosteroid receptor level in the male cortex. Neonatal administration of glycocorticoid receptor antagonist did not change plasma corticosterone level in 5-day old rats, but prolonged hormonal stress response of the HPA axis in adult male rats and increased hormonal stress response in female ones. The character of the IIPA axis activity of male and female rats with neonatal blockade of glycocorticoid receptors correspond to hormonal stress response of prenatal stressed rats. These data suggest that change of brain glycocorticoid receptors function in neonatal period of development might be one of the mechanisms of prenatal stress influence on the HPA axis activity in the adulthood.     

Sex-specific occurrence of androgen receptors in rat brain.

The metabolism and binding of [1, 2, 6, 7-3H] testosterone in male and female rat brain has been studied in an attempt to find an explanation for the relative androgen unresponsiveness characterizing the female hypothalamo-pituitary axis involved in regulation of hepatic steroid metabolism. The most significant sex differences in the pattern of [3H] testosterone metabolites recovered from several brain regions (including pituitary, pineal gland, and hypothalamus) after intraperitoneal administration of [3H] testosterone were the predominance of testosterone and androstenedione in male brain compared to the quantitative importance of 5alpha-androstane-3alpha, 17beta-diol, 5alpha-androstane-3beta, 17beta-diol, epitestosterone, and dihydroepitestosterone in female brain. One possible explanation for the androgen unresponsiveness of female rats is, therefore, the faster metabolism of testosterone to inactive compounds in female brain. Experiments both in vivo and in vitro showed the presence of high affinity, low capacity binding sites for [3H] testosterone in male pituitary, pineal gland, and hypothalamus (Kd values in the region of 1 X 10(-10) to 1 X 10(-9) M and number of binding sites 1.0 to 1.4 X 10(-14) mol per mg of protein). The steroid - macromolecular complexes generally had a pI of 5.1, were excluded from Sephadex G-200, were heat-labile, and were sensitive to protease. Competition experiments indicated the following order of ligand affinities: testosterone is greater than 5alpha-dihydrotestosterone and estradiol is greater than androstenedione is greater than corticosterone. No steroid-binding proteins of similar nature were found in pituitary, pineal gland, or hypothalamus from female rats. On the basis of these results it is suggested that the androgen unresponsiveness of female rats referred to above relates to the absence of receptor protein for androgens in female rat brain. In support of this hypothesis, 28-day-old female rats, which are known to be affected by androgens with regard to liver enzyme activities, were shown to contain receptor proteins for androgen in the brain. In conclusion, the relative androgen unresponsiveness of the female hypothalamo-pituitary axis is probably explained by the absence of receptor proteins for androgen in female hypothalamus and pituitary. The fast metabolism of testosterone in female rat brain also serves to decrease the availability of active androgen to potential receptor sites. It may be speculated that the presence of androgen receptors in male brain is the result of neonatal programming ("imprinting") by testicular androgen.     

Covalently linking the Escherichia coli global anaerobic regulator FNR in tandem allows it to function as an oxygen stable dimer

Glutathione (GSH) serves as an important anti-oxidant in the brain by scavenging harmful reactive oxygen species that are generated during different molecular processes. The GSH level in the brain provides indirect information on oxidative stress of the brain. We report in vivo detection of GSH non-invasively from various brain regions (frontal cortex, parietal cortex, hippocampus and cerebellum) in bilateral hemispheres of healthy male and female subjects and from bi-lateral frontal cortices in patients with mild cognitive impairment (MCI) and Alzheimer's disease (AD). All AD patients who participated in this study were on medication with cholinesterase inhibitors. Healthy young male (age 26.4±3.0) and healthy young female (age 23.6±2.1) subjects have higher amount of GSH in the parietal cortical region and a specific GSH distribution pattern (parietal cortex>frontal cortex>hippocampus ~ cerebellum) has been found. Overall mean GSH content is higher in healthy young female compared to healthy young male subjects and GSH is distributed differently in two hemispheres among male and female subjects. In both young female and male subjects, statistically significant (p=0.02 for young female and p=0.001 for young male) difference in mean GSH content is found when compared between left frontal cortex (LFC) and right frontal cortex (RFC). In healthy young female subjects, we report statistically significant positive correlation of GSH content between RFC and LFC (r=0.641, p=0.004) as well as right parietal cortex (RPC) and left parietal cortex (LPC) (r=0.797, p=0.000) regions. In healthy young male subjects, statistically significant positive correlation of GSH content was observed between LFC and LPC (r=0.481, p=0.032) regions. This statistical analysis implicates that in case of a high GSH content in LPC of a young male, his LFC region would also contain high GSH and vice versa. The difference in mean of GSH content between healthy young female control and female AD patients in RFC region (p=0.003) and difference in mean of GSH content between healthy young male control and male AD patients (p=0.05) in LFC region is found to be statistically significant. It is the first scientific report correlating alteration (in selective brain regions) of GSH level with clinical status of male and female subjects using non-invasive imaging technique.     

Characterization of N-[3H]Methylcarbamylcholine Binding Sites and Effect of N-Methylcarbamylcholine on Acetylcholine Release in Rat Brain

The present experiments show that N-[3H]-methylcarbamylcholine ([3H]MCC) binds specifically and with high affinity to rat hippocampus, frontal cortex, and striatum. The highest maximal density of binding sites was apparent in frontal cortex and the lowest in hippocampus. [3H]MCC binding was potently inhibited by nicotinic, but not muscarinic, agonists and by the nicotinic antagonist dihydro-beta-erythroidine in all three brain regions studied. The effect of unlabeled MCC on acetylcholine (ACh) release from slices of rat brain was tested. The drug significantly enhanced spontaneous ACh release from slices of hippocampus and frontal cortex, but not from striatal slices. This effect of MCC to increase ACh release from rat hippocampus and frontal cortex was antagonized by the nicotinic antagonists dihydro-beta-erythroidine and d-tubocurarine, but not by alpha-bungarotoxin or by the muscarinic antagonist atropine. The MCC-induced increase in spontaneous ACh release from hippocampal and frontal cortical slices was not affected by tetrodotoxin. The results suggest that MCC might alter cholinergic transmission in rat brain by a direct activation of presynaptic nicotinic receptors on the cholinergic terminals. That this alteration of ACh release is apparent in hippocampus and frontal cortex, but not in striatum, suggests that there may be a regional specificity in the regulation of ACh by nicotinic receptors in rat brain.     

Alterations in Dihydromorphine Binding in Cerebral Hemispheres of Aged Male Rats

Equilibrium binding of [3H]dihydromorphine was assayed in brain regions of young and aged male F344 rats. Young rats had significantly higher receptor densities than old rats in the frontal poles, anterior cortex, and striatum. In the frontal poles, the decline in receptor concentration with age was accompanied by a significant increase in the apparent affinity of dihydromorphine for receptors, which may be compensatory for the decrease in Bmax. This pattern of receptor alterations is different than that previously observed in aged female rats. Therefore, processes which underlie synaptic alterations with age may be different in males and females.     

Role of endogenous regucalcin in transgenic rats: suppression of kidney cortex cytosolic protein phosphatase activity and enhancement of heart muscle microsomal Ca2+-ATPase activity

Rats were generated by pronuclear injection of the transgene with a cDNA construct encoding rat regucalcin that is a regulatory protein of Ca2+ signaling. Transgenic (TG) founders were fertile, transmitted the transgene at the expected frequency, and bred to homozygote. Western analysis of the cytosol prepared from the tissue of TG female rats (5-week-old) showed a remarkable expression of regucalcin (3.3 kDa) protein in the liver, kidney cortex, heart, lung, stomach, brain, spleen, muscle, colon, and duodenum. Regucalcin expression of TG male rats was seen in the liver, kidney cortex, heart, and lung. In wild-type (wt) male and female rats, regucalcin was mainly present in the liver and kidney cortex. Regucalcin inhibited protein phosphatase activity in rat kidney cortex cytosol and activated Ca2+-ATPase activity in rat heart muscle microsomes. The suppressive effect of regucalcin on protein phosphatase activity was significantly enhanced in the cytosol of kidney cortex of TG male and female rats as compared with those of wt rats. Likewise, heart muscle microsomal Ca2+-ATPase activity was significantly enhanced in TG rats. The changes in their enzyme's activities in TG rats were completely abolished in the presence of anti-regucalcin monoclonal antibody (100 ng/ml) in the enzyme reaction mixture. Moreover, the body weight of TG female rats was significantly lowered as compared with that of wt rats. Serum inorganic phosphorus concentration was significantly increased in TG male and female rats, while serum calcium, glucose, triglyceride, free cholesterol, albumin, and urea nitrogen concentrations were not significantly altered in TG rats. Regucalcin TG rats should be a useful model to define a regulatory role of endogenous regucalcin in the tissues in vivo.     

Demonstration and topographical distribution of LHRH receptors in the central nervous system in the normal and castrated male rat

The topographical distribution of [125I]-LHRH binding sites was studied on brain sections of adult male rat by quantitative autoradiography. High density of sites was observed in the hippocampus, amygdala and entorhinal cortex (4-7 fmol of LHRH bound/mg protein). Lower density of sites was observed in the septum and frontal cortex. The receptor density was not significantly modified at day 5 following castration. Under the same conditions the pituitary receptors were significantly increased. The presence of specific LHRH binding sites in the limbic system may explain the behavioural effect observed following intracerebroventricular injection of LHRH. However, their functions under physiological conditions remain to be elucidated.     

Pentylenetetrazol-induced seizures and kindling: changes in free fatty acids,superoxide dismutase,and glutathione peroxidase activity

The whole brain free fatty acid (FFA) level, as well as the activities of superoxide dismutase (SOD) and glutathione peroxidase (GPX) were determined in the frontal cortex, cerebellum, hippocampus, and pons-medulla region of the single pentylenetetrazol (PZT)-treated and PZT-kindled Hannover-Wistar rats. PZT administration in the convulsive dose caused significant increase of the brain FFA content. Decreased SOD activity was detected in the frontal cortex of PZT-kindled rats, whereas decreased GPX activity was found in the frontal cortex and cerebellum of all treated rats, as well as in the hippocampus and pons-medulla of PZT-kindled rats. Kindling caused distinctive change of antioxidative defense in the frontal cortex, hippocampus, and pons-medulla region.     

Distribution of kappa opioid receptors in the brain of young and old male rats

The experiments to be described have been designed in order to: (a) provide new information on the concentrations of opioid kappa receptors in different regions of the brain of the male rats; and (b) to analyze whether the density of brain kappa receptors might be modified by the process of aging. The concentration of kappa receptors was investigated in the hypothalamus, amygdala, mesencephalon, corpus striatum, hippocampus, thalamus, frontal poles, anterior and posterior cortex collected from male rats of 2 and 19 months of age. 3H-bremazocine (BRZ) was used as the ligand of kappa receptors, after protection of mu and delta receptors respectively with dihydromorphine and d-ala-d-leu-enkephalin. The results obtained show that: (1) in young male rats, the number of kappa opioid receptors is different in the various brain areas examined: the hypothalamus and the striatum have a concentration of kappa binding sites which is significantly higher than that found in the mesencephalon and in the amygdala; much lower concentrations of kappa binding sites have been found in the thalamus, the frontal poles, the hippocampus, the anterior and posterior cerebral cortex. (2) Aging exerts little influence on the number of kappa receptors in the majority of the brain structures considered. However in the amygdala and in the thalamus the number of kappa receptors was increased in old animals. To the authors' knowledge, the data here presented are the first ones which suggest that age may increase rather than decrease the number of neurotransmitter receptors in the brain.     

3H-Dihydromorphine binding in brain regions of young and aged rats

Opiate receptor-ligand binding was investigated in brains of young and aged female F344 rats. A significant reduction in the density of binding sites for ³H-dihydromorphine was observed in the thalamus and midbrain of aged rats. Evidence of two binding sites was observed in the anterior cortex of young rats, whereas aged rats exhibited only a single site. The occurrence of pituitary tumors in the old female rats did not affect ³H-dihydromorphine binding. The highest density of dihydromorphine binding sites was found in the diencephalon, and the lowest density in the hippocampus. Receptor densities in the anterior cortex, striatum, amygdala, frontal poles and midbrain were intermediate, and few, if any, high affinity binding sites for dihydromorphine were found in the pons-medulla or posterior cortex.     

Melatonin reverses pinealectomy-induced decrease of benzodiazepine binding in rat cerebral cortex

Pinealectomy of rats resulted in significant depression of benzodiazepine receptors (assessed by [³H]flunitrazepam binding) in cerebral cortex 3–14 days after surgery without affecting their affinity significantly. A single s.c. injection of melatonin (800 μg/kg body wt) restored the depressed brain benzodiazepine receptor sites. Single melatonin injections (up to 1600 μg/kg) to intact rats did not affect brain benzodiazepine binding when injected at either morning or evening hours. Daily melatonin treatment to intact rats for 5 days augmented benzodiazepine receptor density in brain (morning injections) or its dissociation constant (evening injections). Melatonin added in vitro to rat cerebral cortex membranes only slightly depressed [³H]flunitrazepam binding at 100 μM concentrations. These results point out a link between pineal activity and benzodiazepine receptor function in rats. They also indicate that pharmacological doses of melatonin affect benzodiazepine binding sites in rat cerebral cortex.     

Presence of specific prolactin binding sites in the rabbit hypothalamus

The presence of specific prolactin binding sites in membranes obtained from rabbit brain was investigated. Among the different brain areas studied (hypothalamus, cerebral cortex, cerebellum, olfactory bulbi and ponsmedulla) only the hypothalamus showed an evident specific binding (5.34% in male and 6.64% in female rabbits), whereas in the other brain regions the binding was lower or negligible. Scatchard analysis of the binding revealed the presence of high-affinity saturable binding sites. The study on hormonal specificity showed that the binding in the hypothalamus was inhibited by ovine and rat prolactin and by human GH, but not by many other polypeptide hormones.     

Estrogenic effects of zearalenone on the expression of progestin receptors and sexual behavior in female rats

Zearalenone is a resorcylic acid lactone compound that is produced by fungal infection of edible grains and is believed to influence reproduction by binding to estrogen receptors. In order to study the potential estrogenic effects of this compound in the brain, we examined the effects of zearalenone on the expression of neuronal progestin receptors and feminine sexual behavior in female rats. Ovariectomized rats were treated with zearalenone (0.2, 1.0, or 2.0 mg), estradiol benzoate, or vehicle daily for 3 days. They were then either perfused, and progestin receptors visualized by immunocytochemistry, or injected with progesterone and tested for sexual receptivity with male rats. Progestin receptor-containing cells were counted in the medial preoptic area and ventromedial hypothalamus. The two highest doses of zearalenone increased the concentration of neuronal progestin receptors, as did 10 microg of estradiol. The highest dose of zearalenone (2 mg) also induced progestin receptor staining density comparable to that of 10 microg of estradiol benzoate. In behavioral tests, ovariectomized animals treated with 2 mg of zearalenone followed by progesterone showed levels of sexual receptivity comparable to females treated daily with estradiol benzoate (2 microg) followed by progesterone. These studies suggest that, although structurally distinct and less potent than estradiol, zearalenone can act as an estrogen agonist in the rat brain.     

丙戊酸钠活化大鼠海马和额叶ERK-1/2信号传导通路

为探讨慢性服用丙戊酸钠对中枢神经系统细胞外调控激酶 (ERK) 1/ 2信号传导通路活性的影响 ,阐明丙戊酸钠治疗躁狂抑郁症作用的可能分子机制 ,将 4 0只雄性Wistar大鼠随机分为实验组和对照组 ,每组各 2 0只 .实验组大鼠用含丙戊酸钠的饲料喂养 ,对照组大鼠用常规饲料喂养 ,4周后取大鼠海马和额叶组织制备蛋白质样本 ,蛋白质印迹方法分析海马和额叶组织丝裂原活化的蛋白激酶激酶 (MEK)、ERK 1/ 2、MAPK活化的蛋白激酶 1(RSK1)、cAMP效应元件结合因子 (CREB)的磷酸化水平以及Bcl 2的表达水平 ,电泳迁移率变动分析(EMSA)方法分析海马和额叶组织激活蛋白 1(AP 1)的DNA结合活性 .与对照组比较 ,丙戊酸钠显著增强海马和额叶MEK、ERK 1/ 2、RSK1、CREB和AP1的活性 ,上调海马和额叶Bcl 2的表达 .结果表明 :慢性服用丙戊酸钠激活中枢神经系统ERK 1/ 2信号传导通路、上调中枢神经系统Bcl 2蛋白表达 ,这些作用可能与丙戊酸钠治疗躁狂抑郁症的作用有关