Effects of Lanthanum Chloride Administration on Detouring Learning in Chicks

Lanthanum cations are well known for their inhibitory actions on calcium channels, and calcium cations are indispensable for the development of brain. Lanthanum may interfere with the developing central nervous system. Detour learning task in chicks is an excellent model to study the development of central nervous system. In the present study, we examined the effects of lanthanum chloride exposure on the development of spatial cognition using the detour learning task. The data suggest that the chicks injected with lanthanum chloride (10 or 5 mM) had significantly delayed the response latency of detour learning but not the chicks injected with lanthanum chloride (1 mM). The effect of lanthanum exposure on the development of spatial cognition is dose relative.     

Effect of Passive Avoidance Training on In Vitro Protein Synthesis in Forebrain Slices of Day-Old Chicks

Slices from the forebrains of day-old chicks represent a highly active in vitro protein-synthesising system. The in vitro incorporation of L-[14C]leucine into protein of slices was estimated to be 2.5 mmol/mg protein/h. Incorporation was linear over 90 min of incubation and was suppressed by 92% by 1 mM cycloheximide. The highest incorporation was into microsomal and cell-soluble fractions. Under the electron microscope, slices appeared vacuolated near the cut surfaces, but well preserved internally (greater than 40 micron from the edge). Autoradiography showed that radioactivity was incorporated evenly across the slice with no decrease in label in the central part of the tissue. The rate of incorporation was only weakly dependent on leucine concentration in the medium (0.04-1 mM). Addition of a mixture of unlabelled amino acids (1 mM) produced a 20-50% inhibition of incorporation of radioactive L-leucine depending on the amino acids involved. In slices prepared from chicks 1 h after training on a one-trial passive avoidance paradigm, L-[14C]leucine incorporation was 23% higher (p less than 0.01) in the forebrain roof than in slices from control chicks. This figure is comparable to the one previously reported in vivo. Subcellular fractionation of incubated slices from the forebrain roof of trained and control birds revealed that the increased protein synthesis was due mainly to an elevated leucine incorporation into the soluble fraction.     

Time-Dependent Increase in Release of Arachidonic Acid Following Passive Avoidance Training in the Day-Old Chick

Abstract: We have investigated the role of arachidonic acid, a putative retrograde messenger, in a one-trial aversive learning task in the day-old chick. The left and right intermediate medial hyperstriatum ventrale (IMHV) in the chick forebrain have previously been implicated in the formation of memory for this task. Using an ex vivo technique we have determined the concentrations of various fatty acids liberated from prisms prepared from these brain regions at different time points up to 24 h following passive avoidance training. At 30, 60, and 75 min post-training the concentration of arachidonic acid, but not of other fatty acids, in prisms prepared from the left IMHV, but not the right IMHV, was enhanced compared with that in chicks trained on a nonaversive water-coated bead. To test whether arachidonic acid liberation from the left IMHV was receptor-stimulated we showed that (a) liberation of endogenous arachidonic acid from homogenate prepared from the left and right IMHV of untrained chicks was stimulated by depolarization with KCl (50 m M ) and that (b) glutamate agonists of the NMDA and metabotropic subtypes of glutamate receptor stimulated release of preloaded [¹⁴C]arachidonic acid from prisms prepared from the left IMHV but not the right IMHV. These results indicate that arachidonic acid is liberated from the left IMHV following passive avoidance training in the day-old chick and may play a role as a retrograde messenger in this memory task.     

Passive Avoidance Training Increases Fucokinase Activity in Right Forebrain Base of Day-Old Chicks

Fucokinase (EC 2.7.1.52) activity was estimated in supernatants of homogenate from day-old chick forebrain. Enzyme kinetic studies gave a Km of 4.5 X 10(-6) M and Vmax of 3.72 nmol fucose converted into fucose-1-phosphate/mg prot/h. The pH optimum was 7.5. The enzyme is thus considerably more active than was reported for other species and tissues. There were no differences in enzyme activity between the four forebrain regions studied. One hour after chicks were trained on a one-trial passive avoidance learning paradigm, enzyme activity in the right forebrain base increased 14% over control values (p less than 0.02). The 11.3% increase in activity in the left forebrain base and 10.3% increase in the left roof were not statistically significant. The relationship of this change to the increased fucose incorporation into glycoproteins known to occur over a similar time period and the significance of the lateralization of the increase are discussed.     

低温胁迫下氯丙嗪和氯化镧对水稻幼苗脯氨酸积累的影响

低温胁迫下水稻幼苗质膜透性增大、相对含水量(RWC)下降、丙二醛(MDA)含量增加,同时脯氨酸(Pro)积累。以氯丙嗪(CPZ)和氯化镧(LaCl3)对水稻幼苗预处理以阻碍Ca2+·CaM(钙调素)信使传导后,加剧了低温胁迫下水稻幼苗质膜透性的增加、RWC的下降、MDA含量的增加和Pro的积累,说明水稻幼苗受伤害程度将加重。     

Castration Eliminates the Impairment Effects of Nandrolone on Passive Avoidance Learning of Adolescent Male Rats

Neurophysiology - In recent years, the misuse of nandrolone decanoate (ND) among non-athletes, especially adolescent males, has become a growing problem due to the adverse effects of this drug. In...     

Intrahippocampal Injections of Ghrelin and Aerobic Physical Exercise: Effects on Learning and Passive Avoidance Memory in Rats

Neurophysiology - Ghrelin, an endogenous ligand for the growth hormone secretagogue receptors, plays a considerable role in important neurological effects related to food intake and energy...     

Enhancing Effects of Chronic Lithium Treatment on Detour Learning in Chicks

Lithium is the first line of therapeutic drugs used to treat both mania and depression in bipolar disorder.Although a body of research suggests that lithium acts as a cognitive enhancer, other animal studies suggest that lithium induces cognitive deficits. Comparatively, the effects of lithium on cognitive behaviour in these studies are inconsistent and contradictory. Further investigations in different species of animals and behavioural tasks are important to evaluate the possibility that lithium may act as a cognitive enhancer. In the present study, the chicks were treated intraperitoneally with lithium chloride (120 mg/kg), and the effects of chronic lithium treatment on chick cognitive behaviour were examined using a detour learning task.Additionally, the effects of chronic lithium treatment on BDNF messenger RNA (mRNA) expression were measured in RTPCR. We found that chronic lithium treatment(120 mg/kg) had no effect on spontaneous motor activity or weight gain of the chicks and that the chicks had a general healthy appearance, while chronic lithium treatment significantly promoted the response latency of detour learning and BDNF mRNA expression. These results suggest that chronic lithium treatment may improve cognitive function.     

Phosphorylation of Synaptic Proteins in Chick Forebrain: Changes with Development and Passive Avoidance Training

We have used synaptic plasma membranes (SPMs) and postsynaptic densities (PSDs) to study protein phosphorylation at the synapse in the developing chick forebrain and in 1-day-old chick forebrain following training on a passive avoidance task. Endogenous phosphorylation patterns in SPMs and PSDs prepared by extraction with n-octylglucoside isolated from chick forebrain were investigated by labelling with [32P]ATP. The phosphoprotein components of the SPM and PSD fractions were separated using sodium dodecyl sulphate gradient polyacrylamide gel electrophoresis. Autoradiography and densitometry of the Coomassie Blue protein staining pattern revealed phosphate incorporation into several SPM components including those of molecular mass 52, 37, and 29 kilodaltons (kDa). Bands of similar molecular mass were not phosphorylated in PSD fractions. This difference in phosphorylation between SPMs and PSDs was not due to the detergent n-octylglucoside. In a developmental study in which SPM and PSD fractions were prepared from 1-day-old, 14-day-old, and 21-day-old chickens, the phosphorylation patterns of SPMs were similar throughout, but striking differences occurred in PSDs, both in the level of phosphorylation and in the components phosphorylated. A time-course study was carried out in which phosphorylation of SPMs and PSDs from 1-day-old chicks trained on a passive avoidance task was compared with patterns from control chicks trained on a water-coated bead and untrained chicks. In SPMs prepared from forebrains removed 10 mins following training, a consistent but nonsignificant decrease (-21%) in phosphorylation of a 52 kDa band occurred in chicks with passive avoidance training compared with water-trained and untrained chicks.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of nutritional lithium deficiency on behavior in rats

To demonstrate whether nutritional lithium deficiency is associated with behavioral changes, male Sprague-Dawley rats were placed on a lithium-deficient diet (Li content <.01 ppm). A lithium-deprived group, receiving drinking water containing 31 μM NaCl, were compared to a control group receiving drinking water containing 31 μM LiCl. Growth and general appearance were the same in both groups. However, lithium-deficient animals demonstrated decreased aggression in social interactions with other rats and also in response to handling. The phase of wheel-running activity was delayed by 0.8 h and exhibited decreased amplitude (p<.05). Other behaviors, including acquisition and retention of a passive avoidance response, were unaffected by lithium deprivation. An erratum to this article is available at .     

Developmental Lead Exposure and Two-Way Active Avoidance Training Alter the Distribution of Protein Kinase C Activity in the Rat Hippocampus

Long-term exposure to a low level of lead is associated with learning deficits. Several types of learning have been correlated to hippocampal protein kinase C (PKC) activation. This study was designed to determine if there is a correlation between the effects of lead on hippocampal PKC activation and those on learning performance. Rats were exposed to 0.2% (w/v) lead acetate at different developmental stages including a maternally exposed group, a postweaning exposed group, and a continuously exposed group. The continuously lead exposed rats tended to avoid less frequently and not respond more frequently in two-way active avoidance training than did controls. This training process was associated with translocation of hippocampal PKC activity from cytosol to membrane. Two-way analysis of variance of data indicates that there is a significant training and lead treatment interaction in the ratio of membrane to cytosolic PKC activity (F_3,32 = 3.013; p = 0.044). The interaction is attributable to the absence of the training-induced PKC translocation in the continuously lead exposed rats. In addition, no significant changes were observed in learning performance and training-induced hippocampal PKC activation after maternal and postweaning lead exposure. Continuous and longer duration of lead exposure appears to affect the learning performance and hippocampal PKC activation. These data suggest that a change in the activation of hippocampal PKC may be involved in the lead-induced deficit in learning.     

Intraventricular Infusions of Anti-Neural Cell Adhesion Molecules in a Discrete Posttraining Period Impair Consolidation of a Passive Avoidance Response in the Rat

Intraventricular infusions of anti-neural cell adhesion molecule (anti-NCAM) are demonstrated to inhibit consolidation of a passive avoidance response when administered in the 6-8 h posttraining period. Anti-NCAM was ineffective when administered during training or at any other time up to 10 h thereafter, and no amnesic effects were observed with absorbed anti-NCAM or anti-neurofilament protein. Amnesia was observed only at the 48-h recall time, and this could not be attributed to poor antibody penetration or a prolonged residence time, as studies with 125I-labelled anti-NCAM in trained animals demonstrated a rapid accumulation into all brain regions, and this was marked in the olfactory bulb and hippocampus, areas showing an inherent and paradigm-specific increase in NCAM sialylation state, respectively. The lack of an amnesic action at the 24-h recall time is attributed to anti-NCAM-impaired synapse structuring becoming apparent following the paradigm-specific increases in NCAM sialylation state.     

Effects of Hippocampal Microinjection of Irisin,an Exercise-Induced Myokine,on Spatial and Passive Avoidance Learning and Memory in Male Rats

International Journal of Peptide Research and Therapeutics - Irisin is a soluble and exercise-induced myokine and/or adipokine hormone; generated by FNDC5 (a gene precursor) and also, it can...     

Effects of prenatal exposure to a 50‐Hz magnetic field on one‐trial passive avoidance learning in 1‐day‐old chicks

We investigated memory impairment in newly hatched chicks following in ovo exposure to a 50‐Hz magnetic field (MF) of 2 mT (60 min/day) on embryonic days 12–18. Isolated and paired chicks were used to test the effect of stress during training, and memory retention was tested at 10, 30, and 120 min, following exposure to a bitter‐tasting bead (100% methylanthranilate). Results showed that memory was intact at 10 min in both isolated and paired chicks with or without MF exposure. However, while isolated chicks had good memory retention levels at 30 and 120 min, those exposed to MF did not. The results suggest a potential disruption of memory formation following in ovo exposure to MF, with this effect only evident in the more stressed, isolated chicks. Bioelectromagnetics 31:150–155, 2010. © 2009 Wiley‐Liss, Inc.     

氯化镧对雄性小鼠精子质量及睾丸酶活力的影响

探讨氯化镧对小鼠精子质量及睾丸细胞酶的影响。40只成年昆明种雄性小鼠随机分成对照组、低(25mg·kg-1)、中(50mg·kg-1)、高(100mg·kg-1)剂量组,腹腔注射1次/4d,饲养35d。测定睾丸和附睾脏器指数,检测并计算精子数量、活精率、活动率和畸形率以及睾丸碱性磷酸酶(AKP)、酸性磷酸酶(ACP)、乳酸脱氢酶(LDH)、一氧化氮合酶(NOS)活力。结果显示,高剂量氯化镧降低了小鼠睾丸AKP活力,抑制了精子数量和质量;中剂量氯化镧能促进NOS活力,使精子数量减少,对精子质量造成损伤。     

Evaluation of long‐term effects of artificial sweeteners on rat brain: a biochemical,behavioral, and histological study

The aim of the present study was to compare the effects of artificial sweeteners (aspartame, saccharin, and sucralose) on rat brain. Twenty‐four adult male Sprague–Dawley rats were included in the study. The control group (n = 6) received regular tap water, whereas other groups received aspartame (3 mg/kg/day, n = 6,) or saccharin (3 mg/kg/day, n = 6) or sucralose (1.5 mg/kg/day, n = 6) in the drinking water. Following 6 weeks, the passive avoidance learning (PAL) test was performed to evaluate the neurobehavioral effects of sweeteners. The brains were assessed for lipid peroxides, neuron count, and Glial fibrillary acidic protein (GFAP) immunohistochemistry. Our results demonstrated that chronic intake of sweeteners significantly impaired PAL performance in all groups. Hippocampal CA1–CA3 areas revealed significantly lower neuronal count in aspartame and increased GFAP expression in all groups. Brain lipid peroxides were significantly higher in all groups. Our findings suggest that long‐term consumption of artificial sweeteners may have harmful effects on cognition and hippocampal integrity in rats.