Impact of epigallo catechin-3-gallate on acetylcholine-acetylcholine esterase cycle in aged rat brain

Neurotransmission plays an important role in communication of messages in brain. Cholinergic alterations during aging are associated with learning and memory. Neurotransmitters and enzymes that influence these neurotransmitters are significant in age-associated memory. Neurotransmitters like acetylcholine, serotonin and dopamine levels were studied. Kinetics of acetylcholine esterase was studied. There was an alteration in km and Vm values which was brought back to near-normalcy by EGCG. Behavioural changes were assessed by radial maze experiment. EGCG, a good neuroprotective drug proved to alleviate the behavioural alterations in aged rat brain. Acetylcholine esterase was partially purified from rat brain and assayed in vitro. Several modifiers like EGCG and donepezil were added in silico and the activity of the enzyme was calculated. EGCG increased the activity when compared to negative control, donepezil. Using bioinformatics tools EGCG, acetylcholine and donepezil were docked with acetylcholine esterase. EGCG formed a good docking-complex with the enzyme. Thus, it shall be hypothesized that the neuroprotective activity of EGCG might be due to its influence on cholinergic neurotransmission thereby improving the cognitive functions of the brain.     

右美托咪定对慢性应激抑郁妊娠大鼠子代发育及空间学习记忆能力的影响

妊娠期抑郁症可以通过影响孕妇的生理和心理变化,进而影响新生儿的正常生长发育,右美托咪定(dexmedetomidine,Dex)可以有效缓解抑郁情绪,降低产后抑郁症的发生。为探讨Dex对慢性应激抑郁妊娠大鼠子代发育及空间学习记忆能力的影响,将60只妊娠大鼠随机分为对照组、模型组、低剂量右美托咪定组和高剂量右美托咪定组,统计各组大鼠孕育率、平均产仔率和平均仔鼠成活率,并记录子代大鼠出生后体质量变化及学习记忆能力;检测子鼠脑组织乙酰胆碱(acetylcholine,Ach)、5-HT含量、TChE活力及海马组织CREB、p-CREB及BDNF的表达。结果显示,Dex可以以剂量依赖的方式提高慢性应激抑郁妊娠大鼠子代的平均成活率,调节脑组织Ach、5-HT、CREB、p-CREB和BDNF的水平,改善子鼠的学习记忆能力。结果表明,Dex可能通过调控神经递质和促进CREB信号传导,改善慢性应激抑郁妊娠大鼠的子代鼠学习记忆能力。研究探究了 Dex对妊娠期抑郁症大鼠子代生长发育和空间学习记忆能力的影响,以期指导临床治疗。     

健脾消瘿汤联合优甲乐对脾气亏虚型桥本甲状腺炎患者甲状腺激素、甲状腺自身抗体和CD4+CD45RO+记忆性T细胞的影响

摘要 目的：探讨健脾消瘿汤联合优甲乐对脾气亏虚型桥本甲状腺炎（HT）患者甲状腺激素、甲状腺自身抗体和CD4+CD45RO+记忆性T细胞的影响。方法：选择2020年5月~2021年11月期间我院收治的HT患者60例，采用随机数字表法分为对照组（优甲乐治疗，30例）和研究组（健脾消瘿汤联合优甲乐治疗，30例），两组均治疗12周后观察临床疗效，并对比两组治疗前后中医证候积分、甲状腺激素、甲状腺自身抗体和CD4+CD45RO+记忆性T细胞的变化。结果：研究组临床总有效率较对照组高（P<0.05）。研究组治疗后促甲状腺激素（TSH）水平、中医证候总积分、CD4+CD45RO+记忆性T细胞在外周血单个核细胞（PBMC）中的百分比、甲状腺球蛋白抗体（TGAb）、甲状腺过氧化物酶抗体（TPOAb）均低于对照组（P<0.05），游离三碘甲状腺原氨酸（FT3）、游离甲状腺素（FT4）水平高于对照组（P<0.05）。结论：脾气亏虚型HT患者采用健脾消瘿汤联合优甲乐治疗，可改善其甲状腺激素水平，调节甲状腺自身抗体水平和CD4+CD45RO+记忆性T细胞在PBMC中的百分比，进一步提高临床疗效。     

Brain biogenic amines and altered thyroid function.

Evidence has been presented that alterations in thyroidal status produce marked changes in the metabolism of several biogenic amines in developing brain. Neonatal hypothyroidism induced either by ¹³¹I or by an anti-thyroid agent, methimazole, markedly decreased the concentrations of norepinephrine, dopamine and 5-hydroxytryptamine and the activity of their rate-limiting enzymes, tyrosine hydroxylase and tryptophan hydroxylase. However, the levels of 5-hydroxyindoleacetic acid, the chief metabolite of 5-hydroxytryptamine were elevated in several regions of the brain. Whereas thyroid deficiency in early life produced no appreciable change in whole brain monoamine oxidase activity, it was increased in mid brain and decreased in the hypothalamus. Brain acetylcholine levels were significantly elevated and the activity of acetylcholinesterase remained unchanged in rats made hypothyroid at 1 day of age. Delaying thyroidectomy for 20 days after birth produced less appreciable changes in norepinephrine and 5-hydroxytryptamine metabolism. Thyroid deficiency suppressed the ontogenesis of behavioural arousal and spontaneous locomotor activity. The administration of L-triiodothyronine to hypothyroid animals in early life restored the metabolism of various neurohumors virtually to the normal limits. However, when the replacement therapy was postponed until adulthood, L-triiodothyronine failed to produce any restorative effects, suggesting that a critical period exists in early life during which thyroid hormone must be present to permit normal developmental pattern of central amines. Data also have been obtained demonstrating that neonatal hyperthyroidism induced by daily administration of L-triiodothyronine results in an increased turnover of norepinephrine and 5-hydroxytryptamine. These amine changes were accompanied by a marked rise in the spontaneous locomotor activity in hyperthyroid rats. Finally, chronic treatment with lithium, an antimanic drug, also known to suppress thyroid hormone production, significantly decreased not only the spontaneous locomotor activity, but also changes in the turnover of 5-hydroxytryptamine and norepinephrine in neonatally hyperthyroid rats.     

Oxidative stress and thyroid impairment after gibberellic acid treatment in pregnant and lactating rats and their offspring

Gibberellic acid (GA?) has been worldwide used in agriculture as a plant growth regulator. The purpose of this study is to assess the effects of GA? on the morphology and the thyroid hormone levels in adult rats and their suckling pups. Animals were given daily 200 ppm GA? in drinking water from the 14th day of pregnancy until day 14 after delivery. Compared with a control group, GA?-treated mothers and pups showed an increase in body and thyroid weights, a decrease in plasma FT? and FT? levels, which were more pronounced in pups than in their mothers. Thyroid iodine content was also decreased in pups. These biochemical modifications corresponded histologically; the majority of follicles had cubical epithelial cells, which surrounded empty vesicular cavities. Toxicity was objectified by a significant increase in plasma malondialdehyde, protein carbonyls, and advanced oxidation protein products levels in GA?-treated dams and their suckling pups; while, the activities of superoxide dismutase, catalase, and glutathione peroxidase were decreased in plasma of both dams and their pups. Moreover, a significant decline was observed in plasma glutathione, nonprotein thiols, and vitamin C levels. We conclude that GA? treatment affects thyroid function and plasma antioxidant status in adult rats and their progeny.     

Effect of perinatal thyroid hormone deficiency on expression of rat hippocampal conventional protein kinase C isozymes

Thyroid hormone (TH) is essential for the proper development of mammalian central nervous system. TH deficiency during critical period of brain development results in permanent cognitive and neurological impairments. Hippocampus is a structure involved in various memory processes that are essential for creating new memories, and lesions to hippocampus result in impaired learning and memory. Protein kinase C (PKC) isoforms play an important role in many types of learning and memory, and deletion of specific PKC genes results in deficits in learning. In the present study, we used real-time PCR and Western blot to investigate the conventional PKC expression in developing rat hippocampus with different thyroid status, trying to establish a correlation between TH deficiency and conventional PKC expression in developing rat hippocampus. We found that PKCβI and PKCγ expression decreased significantly both in mRNA and protein levels in hypothyroid group compared with the normal controls, and thyroxine replacement could restore it. As for PKCα, we did not find any difference between different thyroid status. Though the expression of PKCβII also decreased in the TH deficiency group, the change was not significant. Taken together, our data indicate TH deficiency can cause hippocampal PKCβ1 and PKCγ downregulation during rat brain development. Since there are other PKC isoforms in the rat brain, whether these change is related to impaired learning and memory of perinatal hypothyroid rats requires further researches.     

Degradation and biological inactivation of thyrotropin releasing hormone (TRH): regulation of the membrane-bound TRH-degrading enzyme from rat anterior pituitary by estrogens and thyroid hormones

Thyrotropin releasing hormone (TRH, pyroGlu-His-Pro-NH2) is important in the regulation of adenohypophyseal hormone secretion and also serves important functions in extrahypothalamic brain areas, indicating that it is involved in neurotransmission and other forms of cellular communication. This hypothesis is strengthened by the observation that TRH is rapidly inactivated by a heterogeneously distributed ecto-enzyme which exhibits a high degree of substrate specificity. Moreover, in the rat, the activity of the membrane-bound TRH-degrading enzyme of the anterior pituitary is found to be stringently controlled by thyroid hormones and estrogens. In contrast, the activity of the TRH-degrading brain enzyme is neither influenced by thyroid hormones nor estrogens. These data indicate that the TRH-degrading brain enzyme serves specialized functions for the transmission of TRH signals and apparently represents the peptidergic equivalent to acetylcholine esterase, whereas the membrane-bound adenohypophyseal TRH-degrading enzyme itself fulfills a biologically important control function within feedback-regulatory mechanisms.     

Food restriction induced thyroid changes and their reversal after refeeding in female rats and their pups

In the present study, two groups of pregnant female rats were submitted to food restriction (24 h fast versus 24 h diet intake) from the 14th day of pregnancy until either the 14th day (group B) or the 4th day after parturition (group C). All pups and their mothers were sacrificed on day 14 after delivery. The body weight of the 14-day-old pups (group B) was 46% less than the controls (group A). Free thyroxine and free triiodothyronine levels in the plasma were reduced by 44 and 16% in pups and by 20 and 36% in their mothers, respectively. These reductions were correlated with a decrease in thyroid iodine content of the pups (-50%) and their mothers (-24%). Radioiodine uptake (131I) by the thyroid gland of pups was significantly increased by 27%. Plasma TSH levels were decreased by 38% in pups and by 44% in dams. Morphological changes in thyroid glands were observed in energy restricted dams and in their pups. Some of follicles in pups were empty. Moroever in dams, we noted the presence of peripheral resorbed vacuoles, sign of thyroid hyperactivity. After a refeeding (group C) period of ten days, total recovery occurred in plasma thyroid hormone levels (FT4 and FT3) and in thyroid iodine contents of pups in spite of a partial recovery of body weights and plasma TSH levels. In dams, a partial recovery occurred in plasma thyroid hormone levels in spite of total recovery in thyroid iodine contents, while plasma TSH levels exceeded control values. A significant amelioration in thyroid histological aspects was observed in pups and their dams.     

A comparative study on the effects of amiridin on learning and memory of old rats during passive avoidance test]

18-month rats showed much less learning ability in comparison with that of 3-month rats. 20-days treatment of old rats with amiridin, tacrine, and piracetam improved latency in passive avoidance test to the level of 3-month rats. The activity of acetylcholine esterase (AChE) from homogenates of old rat cortex was reduced as compared with that of young rats. After treatment with amiridin the activity of the enzyme remained unchanged, tacrine stimulate the decrease of activity of AChE while piracetam increased activity of AChE to the level of 3-month rats. The aging of rats is followed by the reduction of unsaturated fatty acids, the increase of cholesterol content and the increase of microviscosity of membranes of brain synaptosomes. Multiple treatment with amiridin, piracetam and tacrine normalized these indices.     

Developmental Exposure to Polychlorinated Biphenyls or Dioxin: Do Changes in Thyroid Function Mediate Effects on Spatial Learning?

Polychlorinated biphenyls (PCBs) and dioxins are widespreadenvironmental contaminants that are suspected of causing cognitivedeficits in children exposed in utero. Very little is knownabout which of the PCB and dioxin congeners present in the environmentare responsible for the changes in cognitive function or aboutthe mechanisms through which these chemicals affect the centralnervous system (CNS). Because both PCBs and dioxins reduce circulatingthyroid hormone levels, it has been proposed that these chemicalsmay affect CNS function indirectly by reducing the availabilityof thyroid hormone to the brain during development. Thyroidhormones play a critical role in brain development, and spatiallearning and memory is one of the behavioral functions mostseverely affected by neonatal hypothyroidism. In the studiesreviewed here, we investigated the effects of three ortho-substitutedPCBs, two coplanar PCBs and 2,3,7,8-tetrachlorodibenzo-p-dioxin(TCDD) on spatial learning and memory in the rat. Pups exposedto PCBs or TCDD in utero and during lactation were tested whenthey reached adulthood. All three ortho-substituted PCBs causeddeficits in spatial learning, but only two of the three reducedcirculating thyroid hormone concentrations. Furthermore, thelearning deficit was observed only in females, but thyroid hormoneswere equally depressed in males and females. Thus, the PCB-induceddeficit in spatial learning did not appear to be mediated bythe decreased thyroid hormone levels. TCDD and coplanar PCBscaused moderate reductions in thyroid hormone, but facilitatedrather than impaired spatial learning, an effect that has beenreported in neonatally hyperthyroid rats. The possibility thatTCDD and coplanar PCBs may act as "mixed" thyroid agonists/antagonistscausing hypothyroid-like effects in some tissues and hyperthyroid-likeeffects in other tissues is discussed.     

Spontaneous autoimmune thyroiditis in Bio Breeding/Worcester (BB/W) rat

We investigated the serial changes in the plasma levels of anti-thyroglobulin antibody (ATA) by solid-phase enzyme immunoassay, thyroid hormones and blood glucose, since spontaneous occurring lymphocytic thyroiditis (LT) has been found in spontaneously diabetic Bio Breeding/Worcester (BB/W) rat. We also observed the correlation between these levels and histological findings in the thyroid gland. The incidence of diabetes was 0% in 5 week old rats (group A), 70% in 11 week old rats (group B), and 86% in 20 week old rats (group C), while LT was observed in 0% in group A, 20% in group B and 48% in group C. Although the incidence of both increased with age, there was no link between LT and diabetes. Plasma ATA levels were 91.4 +/- 28.5 (OD492 X 1,000, mean +/- SEM) in the control (14 week old Wistar Furth) rats. 49.5 +/- 15.4 in group A, 197.8 +/- 41.5 in group B, and 376.7 +/- 48.7 in group C, again showing a clear increase with age. In group C, the plasma levels of ATA in rats with LT were significantly higher than those without LT. In addition, 6 out of 11 rats without LT had abnormaly high ATA levels. In group C, the plasma levels of free 3,5,3'-triiodothyronine (FT3) and total thyroxine (TT4), and also the FT3/TT4 ratio were significantly lower and the plasma levels of blood glucose were higher than in the other groups. There was no difference between the plasma thyroid hormone levels in rats with LT and those without LT. These studies suggest that LT may occur independently of insulitis, namely diabetes, ATA levels and the incidence of LT increase with age, the site of ATA production may not be confined to the thyroid gland, and the derangement of glucose metabolism may be one of the factors in the decrease in plasma thyroid hormone. The BB/W rat is not only a useful animal model to use in exploring the pathogenesis of human insulin-dependent diabetes mellitus, but also spontaneous autoimmune thyroiditis.     

Ontogenic pattern of dopamine, acetylcholine, and acetylcholinesterase in the brains of normal and hypothyroid rats.

The influence of neonatal thyroidectomy (Tx) on developmental changes in dopamine (DA), acetylcholine (ACh), and acetylcholinesterase (AChE) was studied in the whole brain of rats. In control animals, brain levels of ACh gradually increased and attained adult values at the 70th day. In contrast, AChE activity showed a rapid increase between the 7th and 30th days. Levels of DA were low during the early postnatal life but markedly increased to reach adult values of 1.47 mug/g at the 30th day, after which no further enhancement was noted. Neonatal Tx interfered with the normal growth of the animals, decreased brain weights, and markedly influenced the developmental pattern of both DA and ACh in the brain. The concentration of DA in 30-day-old hypothyroid rats was 46% of the control values. In contrast, brain ACh levels in Tx rats were consistently above those seen in controls, being significantly higher, by 49 and 64%, at 15 and 30 days, respectively. Activity of AChE in brains of hypothyroid animals was not significantly different from that in controls. Treatment of Tx rats with thyroid hormone virtually restored the levels of DA and ACh to values in control animals.     

Long-term tryptophan administration enhances cognitive performance and increases 5HT metabolism in the hippocampus of female rats

Summary. It has been shown in various studies that increase in serotonergic neurotransmission is associated with increased memory consolidation whereas low brain 5HT impairs memory performance. In the first phase of our study we found that tryptophan (TRP) administration for 6 weeks increased plasma TRP and whole brain TRP, 5HT and 5HIAA levels. Many brain regions are involved in the learning process but particularly the hippocampus is known to have key role in learning and memory. The present study was therefore designed to investigate the effects of TRP loading particularly on hippocampal 5HT metabolism and cognitive performance in rats. TRP-treated rats demonstrated spatial enhancement as evidenced by a significant decrease in time to find the hidden food reward in radial arm maze test (RAM). The important finding of the present study was the greater increase in the 5HT metabolism in hippocampus than in any other brain region of the TRP-treated rats. This increased 5HT metabolism in the hippocampus emphasizes the involvement of this region in memory process.     

Metabolic and endocrine effects of water and/or food deprivation in rats

Metabolic and endocrine effects of water and/or food deprivation in rats. We aim at studying the effect of water deprivation, food deprivation and their combination for three days on adrenal cortex, pituitary-thyroid axis and vasopressinergic system activity in rats. Corticosterone level was determined by fluorimetric method. The levels of free thyroxine (FT4) and thyroid stimulating hormone (TSH) were determined by immunoenzymatic assay and vasopressin (AVP) level was determined by radio-immunoassay. In all three groups, basal levels of plasma corticosterone were increased. A thyroid dysfunction was shown after water deprivation, food deprivation and their combination reflected by a significant decrease in FT4 levels. Paradoxically, a significant decrease in TSH level was observed in food-deprived rats and in rats subjected to simultaneous food and water deprivation, while a slight and not significant decrease in TSH level was shown in water-deprived rats. A significant increase in plasma AVP level was observed after water deprivation and simultaneous water and food deprivation, while no change was found after food deprivation. The data indicated that water deprivation, food deprivation and their combination stimulated the adrenal cortex, thereby suggesting a stress state. On the other hand, it seems that nutritional stress modifies the pituitary-thyroid axis through mechanisms different from those of osmotic stress. Moreover, it seems that food deprivation partially prevented the stimulatory effect of water deprivation on vasopressinergic system.     

芸香苷对慢性脑低灌注大鼠认知功能障碍和脑损伤的神经保护作用

目的:研究芸香苷对慢性脑低灌注导致大鼠认知功能障碍和脑损伤的影响。方法:采用双侧颈总动脉结扎法(bilateral common carotid artery occlusion,BCCAO)建立慢性脑低灌注大鼠模型,随机分为4组(n=10):生理盐水治疗模型组、芸香苷治疗模型组、生理盐水治疗假手术组、芸香苷治疗假手术组;连续腹腔注射芸香苷和生理盐水共12周。采用Morris水迷宫评定大鼠学习和记忆能力。采用分光光度法检测脑组织中枢胆碱能相关指标和氧化应激指标。应用免疫组织化学和El ISA方法检测脑组织炎症反应。采用Nissl染色法检测脑组织神经元缺失。结果:芸香苷治疗模型组大鼠的逃脱潜伏期较生理盐水治疗模型组明显减少(P0.01)。与生理盐水治疗模型组相比,芸香苷治疗后显著提高了BCCAO大鼠脑组织中ACh水平(P0.01)和Ch AT活性(P0.01),并降低了ACh E活性(P0.01)。与生理盐水治疗模型组相比,芸香苷治疗模型组显著增加了大鼠脑组织中SOD活性(P0.01)和GPX活性(P0.01),降低了MDA水平(P0.01)和蛋白质羰基化合物水平(P0.01)。芸香苷治疗模型组大鼠海马区GFAP-免疫阳性星型胶质细胞(P0.01)和Iba1-免疫阳性小胶质细胞(P0.01)面积百分比较生理盐水治疗模型组显著减少。芸香苷治疗模型组大鼠海马区正常神经元的数量较生理盐水治疗模型组大鼠显著增加(P0.01)。结论:芸香苷可改善慢性脑低灌注引起的大鼠认知功能障碍和脑损伤。     

氨曲南联合恩替卡韦对肝硬化原发性腹膜炎患者血清甲状腺激素水平及临床疗效的影响

目的:探讨氨曲南联合恩替卡韦对乙肝肝硬化原发性腹膜炎患者血清甲状腺激素水平及临床疗效的影响。方法:选择于我院就诊的乙肝肝硬化原发性腹膜炎患者60例,根据电脑生成的随机数字表将所有患者随机分为实验组和对照组,每组各30例,对照组患者给予氨曲南进行治疗,实验组患者在对照组的基础上联合应用恩替卡韦进行治疗。比较治疗前后两组患者血清甲状腺激素、中性粒细胞比例、血白细胞及腹水细胞水平,并对治疗前后两组患者的体重、腹围及24 h尿量进行记录。结果:与治疗前相比,两组患者血清TSH水平、体重、腹围均降低,FT3、FT4、T3、T4水平及24 h尿量升高(P0.05);与对照组相比,实验组患者血清TSH水平、体重、腹围较低,FT3、FT4、T3、T4水平及24h尿量较高(P0.05);临床总有效率较高(P0.05)。结论:氨曲南联合恩替卡韦对乙肝肝硬化原发性腹膜炎具有较好的临床疗效,推测其机制与改善甲状腺激素水平,降低炎症反应有关。     

Enhanced muscarinic M1 receptor gene expression in the corpus striatum of streptozotocin-induced diabetic rats

Acetylcholine (ACh), the first neurotransmitter to be identified, regulate the activities of central and peripheral functions through interactions with muscarinic receptors. Changes in muscarinic acetylcholine receptor (mAChR) have been implicated in the pathophysiology of many major diseases of the central nervous system (CNS). Previous reports from our laboratory on streptozotocin (STZ) induced diabetic rats showed down regulation of muscarinic M1 receptors in the brainstem, hypothalamus, cerebral cortex and pancreatic islets. In this study, we have investigated the changes of acetylcholine esterase (AChE) enzyme activity, total muscarinic and muscarinic M1 receptor binding and gene expression in the corpus striatum of STZ – diabetic rats and the insulin treated diabetic rats. The striatum, a neuronal nucleus intimately involved in motor behaviour, is one of the brain regions with the highest acetylcholine content. ACh has complex and clinically important actions in the striatum that are mediated predominantly by muscarinic receptors. We observed that insulin treatment brought back the decreased maximal velocity (V_max) of acetylcholine esterase in the corpus striatum during diabetes to near control state. In diabetic rats there was a decrease in maximal number (B_max) and affinity (K_d) of total muscarinic receptors whereas muscarinic M1 receptors were increased with decrease in affinity in diabetic rats. We observed that, in all cases, the binding parameters were reversed to near control by the treatment of diabetic rats with insulin. Real-time PCR experiment confirmed the increase in muscarinic M1 receptor gene expression and a similar reversal with insulin treatment. These results suggest the diabetes-induced changes of the cholinergic activity in the corpus striatum and the regulatory role of insulin on binding parameters and gene expression of total and muscarinic M1 receptors.     

THE EFFECT OF THIAMINE DEFICIENCY ON THE ACETYLCOENZYMEA AND ACETYLCHOLINE LEVELS IN THE RAT BRAIN

Abstract— It is shown that transketolase activities in red blood cells and whole brain of normal and thiamine-deficient rats correlate well with heart frequencies.
The effect of thiamine depletion on the levels of acetylcoenzyme A (acetyl-CoA) and acetylcholine (ACh), and on the activities of pyruvate dehydrogenase, choline acetyl-transferase and acetylcholine esterase was studied in whole brains of thiamine-deficient, thiamine-supplemented ad libitum and pair-fed rats. The concentrations of acetyl-CoA and ACh decreased in thiamine-deficient brains by 42 and 35 per cent, respectively.
Total pyruvate dehydrogenase activity did not change during vitamin B₁ deficiency. The 'resolved' enzyme, reconstituted with thiamine diphosphate, had an association constant of 5.4 × 10⁻⁶ m . Choline acetyltransferase and acetylcholine esterase activities remained unchanged in thiamine deficiency.
Possible mechanisms which could explain the reduced Ach levels in vitamin B₁ deficiency are discussed.