Your search keyword '"Learning memory"' showing total 353 results

1. A neural correlate of learning fails to predict foraging efficiency in the bumble bee Bombus terrestris

Author

Pasquier, Grégoire, Pull, Christopher D., Ott, Swidbert R., and Leadbeater, Ellouise

Published

2025

2. The effect of eye movement desensitization on neurocognitive functioning compared to retrieval-only in PTSD patients: a randomized controlled trial.

Author

Susanty, Eka, Sijbrandij, Marit, Srisayekti, Wilis, Suparman, Yusep, and Huizink, Anja C.

Subjects

*EMDR (Eye-movement desensitization & reprocessing), *COGNITIVE processing speed, *EPISODIC memory, *RECOLLECTION (Psychology), *COGNITIVE psychology, *WECHSLER Adult Intelligence Scale

Abstract

Background: There is robust evidence that posttraumatic stress disorder (PTSD) is associated with neurocognitive deficits, such as executive dysfunction or memory dysfunction. Eye Movement Desensitization and Reprocessing (EMDR) is an evidence-based treatment for PTSD, in which eye movements (EMs) are performed during traumatic memory retrieval. We examined whether Eye Movement Desensitization (EMD) improves neurocognitive functioning in PTSD patients, in comparison with a retrieval-only control condition without EMs. Methods: Adult patients with PTSD (N = 91) were randomized into EMD (N = 47) or retrieval-only (N = 44). Data were collected at baseline (T0), one-week post-treatment (T1), one-month follow-up (T2), and at three-month follow-up (T3). Outcome measures were the California Verbal Learning Test (CVLT), the Trail Making Test (TMT), and the Digit Span Subtest of the Wechsler Adult Intelligence Scale fourth edition (WAIS-IV). We conducted linear mixed model to analyse the main outcomes. Results: There was a main effect of time, indicating improvements for both the EMD and retrieval-only groups in CVLT scores, TMT A, TMT B and Digit Span score of WAIS-IV (Bonferroni-adjusted p's < 0.001) from T0 to T3. There were no effects of group (p =.64) or group by time on CVLT total trial A (T3; p =.34), delay A (T3; p =.76), TMT A (T3; p =.61), TMT B (T3: p =.58), and Digit Span scores (T3; p =.78) of the WAIS-IV, indicating no significant differences between groups on any of the outcomes. Conclusion: Comparing EMD and retrieval-only did not show evidence for additive effects of EMs on the treatment of PTSD in terms of improvements in neurocognitive functioning. Thus, treatments based on retrieval of traumatic memories may be used to improve neurocognitive functioning in patients with PTSD. Clinical trial registration: The trial was registered 19/12/2017 at ClinicalTrials.gov, identifier [ISRCTN55239132]. [ABSTRACT FROM AUTHOR]

Published

2024

3. 重复经颅磁刺激对阿尔茨海默病小鼠海马齿状回钾离子通道的影响.

Author

钱 磊, 于洪丽, 赵秀芝, and 朱俞灿

Subjects

*ACTION potentials, *NEURAL stimulation, *POTASSIUM channels, *DENTATE gyrus, *POTASSIUM ions, *TRANSCRANIAL magnetic stimulation

Abstract

BACKGROUND: Transcranial magnetic stimulation has been used in the treatment of Alzheimer’s disease, but its mechanism has not been fully clarified. OBJECTIVE: To explore the mechanism of repetitive transcranial magnetic stimulation to increase neural excitability in mice with Alzheimer’s disease. METHODS: Sixteen C57BL/6 mice were randomized into control group (n=8) and control+magnetic stimulation group (n=8). Another 16 APP/PS1 mice were randomized into dementia group (n=8) and dementia+magnetic stimulation group (n=8). Mice in the two magnetic stimulation groups were given repetitive transcranial magnetic stimulation, 2 hours daily, for 14 continuous days. The water maze was then used to detect the cognitive function of mice. Whole-cell membrane-clamp technique was used to collect action potentials and analyze the effect of Alzheimer’s disease on action potentials; and the potassium channel currents were collected and analyzed for the role of their kinetic properties on neural excitability. RESULTS AND CONCLUSION: The results of Morris water maze showed that normal mice could find and determine the original platform more accurately after receiving repetitive transcranial magnetic stimulation, while Alzheimer’s disease led to a decrease in the learning and memory ability of mice, a decrease in the number of times they found the platform, and a degeneration of neurons in the hippocampal dentate gyrus. Repetitive transcranial magnetic stimulation could improve the learning and memory ability of mice with Alzheimer’s disease. Whole-cell membrane clamp technique assay showed that repetitive transcranial magnetic stimulation could trigger neuronal depolarization and enhance neuronal excitability in Alzheimer’s disease mice. Analysis of potassium channel currents showed that Alzheimer’s disease caused an increase in the transient outward potassium channel half-activation voltage. The inactivation curve was shifted in the direction of depolarization and the resuscitation time constant was prolonged, causing the delayed rectifier potassium channel activation curve to be shifted in the direction of depolarization. Whereas repetitive transcranial magnetic stimulation delayed the opening and closing of the potassium channel and inhibit the efflux of intracellular potassium ions, which resulted in the retention of a higher intracellular potassium concentration and increased neuronal excitability. To conclude, repetitive transcranial magnetic stimulation may alleviate cognitive decline by increasing neuronal excitability in the hippocampal dentate gyrus. [ABSTRACT FROM AUTHOR]

Published

2025

4. Gestational exposure to a fluorotelomer alcohol causes behavioral abnormalities by disrupting the blood–brain barrier in offspring.

Author

Xia, Yunhui, Chen, Yi, Chen, Junhan, Han, Xiaodong, Wang, Xiaojian, and Li, Dongmei

Subjects

*BLOOD-brain barrier, *TIGHT junctions, *CARBOXYLIC acids, *METALLOPROTEINASES, *TROPANES, *THREONINE, *FLUOROALKYL compounds

Abstract

Fluorotelomer alcohols are an alternative to neurotoxic perfluoroalkyl carboxylic acids, a sub-class of per- and poly-fluoroalkyl substances (PFAS). However, the effect of the fluorotelomer alcohol in offspring is poorly known. Here pregnant mice were exposed to various doses of the 6:2 fluorotelomer alcohol through intragastric administration from gestation day 8.5 until delivery. Results show that the fluorotelomer alcohol impaired the development of the blood–brain barrier and altered brain immune microenvironment, causing anxiety-like behavior and impairments in learning memory. Mechanistic studies suggest that this is due to the activation of the serine and threonine kinase AKT/nuclear factor kappa-b/matrix metalloproteinases signaling pathway, resulting in the degradation of the tight junction protein occludin, which in turn caused disruption of endothelial barrier function. Our findings represent the first evidence that gestational exposure to the 6:2 fluorotelomer alcohol causes neurotoxicity in offspring. [ABSTRACT FROM AUTHOR]

Published

2024

5. Chronic Lead Exposure in Adult Mice: Associations with miR-671/CDR1as Regulation, NF-κB Signaling, and Alzheimer's Disease-like Pathology.

Author

Qiao, Mengyun, Yang, Haitao, Liu, Li, Yu, Tao, Wang, Haihua, Chen, Xiao, Zhang, Yi, Duan, Airu, Lyu, Shujun, Wu, Siyu, Xiao, Jingwei, and Li, Bin

Subjects

ALZHEIMER'S disease, LEAD exposure, NF-kappa B, TRANSCRIPTION factors, LINCRNA, SCOPOLAMINE

Abstract

Long-term exposure to lead (Pb) can result in chronic damage to the body through accumulation in the central nervous system (CNS) leading to neurodegenerative diseases, such as Alzheimer's disease (AD). This study delves into the intricate role of miR-671/CDR1as regulation in the etiology of AD-like lesions triggered by chronic Pb exposure in adult mice. To emulate the chronic effects of Pb, we established a rodent model spanning 10 months of controlled Pb administration, dividing 52 C57BL/6J mice into groups receiving varying concentrations of Pb (1, 2, or 4 g/L) alongside an unexposed control. Blood Pb levels were monitored using serum samples to ensure accurate dosing and to correlate with observed toxicological outcomes. Utilizing the Morris water maze, a robust behavioral assay for assessing cognitive functions, we documented a dose-dependent decline in learning and memory capabilities among the Pb-exposed mice. Histopathological examination of the hippocampal tissue revealed tell-tale signs of AD-like neurodegeneration, characterized by the accumulation of amyloid plaques and neurofibrillary tangles. At the molecular level, a significant upregulation of AD-associated genes, namely amyloid precursor protein (APP), β-secretase 1 (BACE1), and tau, was observed in the hippocampal tissue of Pb-exposed mice. This was accompanied by a corresponding surge in the protein levels of APP, BACE1, amyloid-β (Aβ), and phosphorylated tau (p-tau), further implicating Pb in the dysregulation of these key AD markers. The expression of CDR1as, a long non-coding RNA implicated in AD pathogenesis, was found to be suppressed in Pb-exposed mice. This observation suggests a potential mechanistic link between Pb-induced neurotoxicity and the dysregulation of the CDR1as/miR-671 axis, which warrants further investigation. Moreover, our study identified a dose-dependent alteration in the intracellular and extracellular levels of the transcription factor nuclear factor-kappa B (NF-κB). This finding implicates Pb in the modulation of NF-κB signaling, a pathway that plays a pivotal role in neuroinflammation and neurodegeneration. In conclusion, our findings underscored the deleterious effects of Pb exposure on the CNS, leading to the development of AD-like pathology. The observed modulation of NF-κB signaling and miR-671/CDR1as regulation provides a plausible mechanistic framework for understanding the neurotoxic effects of Pb and its potential contribution to AD pathogenesis. [ABSTRACT FROM AUTHOR]

Published

2024

6. Electroacupuncture Pretreatment Attenuates Learning Memory Impairment Induced by Repeated Propofol Exposure and Modulates Hippocampal Synaptic Plasticity in Rats

Author

Fan S, Wang X, Gao N, and Wei S

Subjects

electroacupuncture pretreatment, propofol, learning memory, synaptic plasticity, Pathology, RB1-214, Therapeutics. Pharmacology, RM1-950

Abstract

Shunqin Fan, Xijun Wang, Ning Gao, Songli Wei Department of Anesthesiology, International Zhuang Medical Hospital Affiliated to Guangxi University of Traditional Chinese Medicine, Nanning, People’s Republic of ChinaCorrespondence: Xijun Wang, Department of Anesthesiology, International Zhuang Medical Hospital affiliated to Guangxi University of Traditional Chinese Medicine, No. 8 Qiu Yue Road, Liang Qing District, Nanning, Guangxi, People’s Republic of China, Email gzmzk01@163.comBackground: Recurrent propofol anesthesia in the peak of neurodevelopment may lead to learning-memory decline. This study aimed to examine the efficacy of electroacupuncture pretreatment in ameliorating the aforementioned learning memory deficits and to explore its underlying mechanisms in a rat model of repeated propofol exposure.Methods: 10-day-old Sprague Dawley rats were randomly assigned to five groups: the control, fat emulsion, propofol, electroacupuncture pretreatment and electroacupuncture pretreatment combined with propofol groups. The electroacupuncture pretreatment involved three consecutive daily sessions, while propofol was received intraperitoneally once daily for five days. Following the modeling period, the rats’ learning-memory performance was assessed using the New Novel Arm Y-maze, New Object Recognition, and Morris Water Maze. The Nissl staining method was used to observe the development of hippocampal neurons, while Golgi staining was employed to observe hippocampal synaptic development.Results: The electroacupuncture pretreatment significantly attenuated the learning and memory impairment induced by recurring propofol exposure in rats. Additionally, it facilitated the development of hippocampal neurons and synaptic plasticity in the hippocampus. Immunofluorescence and Western Blot analyses were conducted to detect the expression of proteins related to apoptosis, learning memory, and synaptic plasticity. In the propofol group, the pro-apoptotic factors Caspase-3 and Bax was up-regulated, while the anti-apoptotic factor Bcl-2 was down-regulated, as compared to the blank group. Additionally, the phosphorylated cAMP-response element binding protein (pCREB), brain-derived neurotrophic factor (BDNF), synaptophysin, and growth associated protein-43 (GAP-43) was significantly decreased. In contrast, the electroacupuncture pretreatment combined with propofol group exhibited decreased the Caspase-3 and Bax and increased the Bcl-2, as compared to the propofol group, meanwhile, the pCREB, BDNF, Synaptophysin and GAP-43 was increased.Conclusion: Our findings indicate that electroacupuncture pretreatment can alleviate the learning and memory impairment induced by recurring propofol exposure in rats. This is achieved by enhancing hippocampal synaptic plasticity, activating the pCREB/BDNF pathway and inhibiting neuronal apoptosis.Keywords: electroacupuncture pretreatment, propofol, learning memory, synaptic plasticity

Published

2023

7. Chronic Lead Exposure in Adult Mice: Associations with miR-671/CDR1as Regulation, NF-κB Signaling, and Alzheimer’s Disease-like Pathology

Author

Mengyun Qiao, Haitao Yang, Li Liu, Tao Yu, Haihua Wang, Xiao Chen, Yi Zhang, Airu Duan, Shujun Lyu, Siyu Wu, Jingwei Xiao, and Bin Li

Subjects

lead, Alzheimer’s disease, learning memory, CDR1as, miR-671, NF-κB, Chemical technology, TP1-1185

Abstract

Long-term exposure to lead (Pb) can result in chronic damage to the body through accumulation in the central nervous system (CNS) leading to neurodegenerative diseases, such as Alzheimer’s disease (AD). This study delves into the intricate role of miR-671/CDR1as regulation in the etiology of AD-like lesions triggered by chronic Pb exposure in adult mice. To emulate the chronic effects of Pb, we established a rodent model spanning 10 months of controlled Pb administration, dividing 52 C57BL/6J mice into groups receiving varying concentrations of Pb (1, 2, or 4 g/L) alongside an unexposed control. Blood Pb levels were monitored using serum samples to ensure accurate dosing and to correlate with observed toxicological outcomes. Utilizing the Morris water maze, a robust behavioral assay for assessing cognitive functions, we documented a dose-dependent decline in learning and memory capabilities among the Pb-exposed mice. Histopathological examination of the hippocampal tissue revealed tell-tale signs of AD-like neurodegeneration, characterized by the accumulation of amyloid plaques and neurofibrillary tangles. At the molecular level, a significant upregulation of AD-associated genes, namely amyloid precursor protein (APP), β-secretase 1 (BACE1), and tau, was observed in the hippocampal tissue of Pb-exposed mice. This was accompanied by a corresponding surge in the protein levels of APP, BACE1, amyloid-β (Aβ), and phosphorylated tau (p-tau), further implicating Pb in the dysregulation of these key AD markers. The expression of CDR1as, a long non-coding RNA implicated in AD pathogenesis, was found to be suppressed in Pb-exposed mice. This observation suggests a potential mechanistic link between Pb-induced neurotoxicity and the dysregulation of the CDR1as/miR-671 axis, which warrants further investigation. Moreover, our study identified a dose-dependent alteration in the intracellular and extracellular levels of the transcription factor nuclear factor-kappa B (NF-κB). This finding implicates Pb in the modulation of NF-κB signaling, a pathway that plays a pivotal role in neuroinflammation and neurodegeneration. In conclusion, our findings underscored the deleterious effects of Pb exposure on the CNS, leading to the development of AD-like pathology. The observed modulation of NF-κB signaling and miR-671/CDR1as regulation provides a plausible mechanistic framework for understanding the neurotoxic effects of Pb and its potential contribution to AD pathogenesis.

Published

2024

8. Phosphorylated proteomics-based analysis of the effects of semaglutide on hippocampi of high-fat diet-induced-obese mice

Author

Xiaoyi Chen, Liang Ma, Kexin Gan, Xiaoyu Pan, and Shuchun Chen

Subjects

Semaglutide, Axonal growth, Learning memory, Phosphorylated proteomics, Obesity, Nutritional diseases. Deficiency diseases, RC620-627

Abstract

Abstract The aim of this paper was to investigate the effects of semaglutide on phosphorylated protein expression, and its neuroprotective mechanism in hippocampi of high-fat-diet-induced obese mice. In total, 16 obese mice were randomly divided into model group (H group) and semaglutide group (S group), with 8 mice in each group. In addition, a control group (C group) was set up comprising 8 C57BL/6J male normal mice. The Morris water maze assay was conducted to detect cognitive function changes in the mice, and to observe and compare body weight and expression levels of serological indicators between groups after the intervention. Phosphorylated proteomic analysis was performed to detect the hippocampal protein profile in mice. Proteins up-regulated twofold or down-regulated 0.5-fold in each group and with t-test p

Published

2023

9. NMN Alleviates NP-Induced Learning and Memory Impairment Through SIRT1 Pathway in PC-12 Cell.

Author

Li, Zhongyi, Liu, Huan, Han, Wenna, Zhu, Siyu, and Liu, Chunhong

Abstract

Nonylphenol (NP) is widely used in the chemical industry; it accumulates in organisms through environmental contamination and causes learning memory impairment. Nicotinamide mononucleotide (NMN) has been found to have a positive effect on the treatment of central nervous-related diseases. This study aimed to investigate the protective effect of NMN on NP-induced learning memory-related impairment in vitro and to further identify the underlying mechanisms. The results showed that NP induced oxidative stress and impaired the cholinergic system, 5-HT system in PC-12 cells. NMN alleviated NP-induced learning and memory impairment at the molecular level through alleviating oxidative stress and protective effects on the 5-HT system and cholinergic system. The 50 μM NP group significantly reduced the NAD+ content, and the relative expression of SIRT1, PGC-1α, Nrf2, MAOA, BDNF, and p-TrkB were significantly downregulated. Co-treatment of NMN with NP significantly reduced oxidative stress, improved the homeostasis of 5-HT and cholinergic system, enhanced the intracellular NAD+ content, and significantly upregulated the expression of SIRT1 pathway proteins. SIRT1 inhibitors reduced the expression of SIRT1 pathway-related proteins, which implied the impairment of learning and memory by NP and the protective effect of NMN might be achieved through the SIRT1-mediated PGC-1α/MAOA/BDNF signaling pathway. Overall, this study not only help us to understand the toxic mechanism of NP on learning memory impairment in vitro, but also have important reference significance to further explore the health care value of NMN and promote the development of related functional foods. [ABSTRACT FROM AUTHOR]

Published

2023

10. Phosphorylated proteomics-based analysis of the effects of semaglutide on hippocampi of high-fat diet-induced-obese mice.

Author

Chen, Xiaoyi, Ma, Liang, Gan, Kexin, Pan, Xiaoyu, and Chen, Shuchun

Subjects

*SEMAGLUTIDE, *HIPPOCAMPUS (Brain), *MICE, *BODY weight, *PROTEIN expression

Abstract

The aim of this paper was to investigate the effects of semaglutide on phosphorylated protein expression, and its neuroprotective mechanism in hippocampi of high-fat-diet-induced obese mice. In total, 16 obese mice were randomly divided into model group (H group) and semaglutide group (S group), with 8 mice in each group. In addition, a control group (C group) was set up comprising 8 C57BL/6J male normal mice. The Morris water maze assay was conducted to detect cognitive function changes in the mice, and to observe and compare body weight and expression levels of serological indicators between groups after the intervention. Phosphorylated proteomic analysis was performed to detect the hippocampal protein profile in mice. Proteins up-regulated twofold or down-regulated 0.5-fold in each group and with t-test p < 0.05 were defined as differentially phosphorylated proteins and were analyzed bioinformatically. The results showed that the high-fat diet-induced obese mice had reduced body weight, improved oxidative stress indexes, significantly increased the percentage of water maze trips and the number of platform crossings, and significantly shortened the water maze platform latency after semaglutide intervention. The phosphorylated proteomics results identified that 44 overlapping proteins among the three experimental groups. Most of the phosphorylated proteins identified were closely associated with pathways of neurodegeneration-multiple diseases. In addition, we identified Huntington, Neurofilament light chain, Neurofilament heavy chain as drug targets. This study demonstrates for the first time that semaglutide exerts neuroprotective effects by reducing HTT Ser1843, NEFH Ser 661 phosphorylation and increasing NEFL Ser 473 phosphorylation in hippocampal tissue of obese mice. [ABSTRACT FROM AUTHOR]

Published

2023

11. Consequences of a peroxiredoxin 4 (Prdx4) deficiency on learning and memory in mice.

Author

Homma, Takujiro, Fujiwara, Hiroki, Osaki, Tsukasa, Fujii, Satoshi, and Fujii, Junichi

Subjects

*SPATIAL memory, *ALZHEIMER'S disease, *PROTEIN folding, *SPATIAL ability, *MICE

Abstract

Peroxiredoxin 4 (Prdx4) is responsible for the oxidative folding of new proteins that are synthesized in the endoplasmic reticulum (ER). It has recently been suggested that increased ER stress is associated with neurodegenerative diseases, including Alzheimer's disease. Prdx4 is widely distributed throughout the brain, and is also expressed in hippocampal neurons and oligodendrocytes, suggesting that it is associated with learning and memory. We previously established Prdx4-knockout (KO) mice but did not examine the behavioral phenotypes. In the present study, we report on the learning and memory abilities of Prdx4-KO mice based on Morris water maze and the Y-maze tests. The findings indicate that Prdx4-KO mice showed a lower spatial memory ability in both tests. In contrast, the results of the open field test indicated that locomotor activity is significantly increased in Prdx4-KO mice. We then performed mRNA analyses of the brains of Prdx4-KO mice and found an increased expression of genes related to the ER-associated degradation (ERAD) mechanism, which is an important protein quality control system for the maintenance of ER homeostasis. Finally, proteomic analyses of the brains of Prdx4-KO mice showed an aberrant expression in the proteins, which have been suggested to be related to calcium homeostasis and synaptogenesis in neurons. Our collective results suggest that the Prdx4 ablation perturbs oxidative protein folding in the ER, thus leading to aberrant ER homeostasis in neuronal cells, ultimately leading to impaired spatial memory formation. • Prdx4 deficiency impairs spatial memory formation in mice. • Prdx4 deficiency induces no changes in brain histology. • Prdx4 deficiency causes global changes in the expression of genes and proteins in the brain. [ABSTRACT FROM AUTHOR]

Published

2022

12. The effects of vitamin D on learning and memory of hypothyroid juvenile rats and brain tissue acetylcholinesterase activity and oxidative stress indicators.

Author

Rastegar-Moghaddam, Seyed Hamidreza, Hosseini, Mahmoud, Alipour, Fatemeh, Rajabian, Arezoo, and Ebrahimzadeh Bideskan, Alireza

Subjects

VITAMIN D, OXIDATIVE stress, ACETYLCHOLINESTERASE, MEMORY disorders, NERVOUS system

Abstract

Apart from a role as a key regulator of calcium/phosphate homeostasis, vitamin D (Vit D) is suggested to be a potential player in nervous system growth and function. This study aimed to assess the impacts of Vit D administration on memory impairment, oxidative damage, and acetylcholinesterase (AchE) overactivity in hypothyroid juvenile rats. The animals were randomly grouped as (1) Control; (2) Hypothyroid; (3) Hypothyroid-Vit D100, and (4) Hypothyroid-Vit D 500. Propylthiouracil (PTU) was added to their drinking water (0.05%) for 6 weeks, and Vit D (100 or 500 IU/kg) treatment was performed daily by gavage. Morris water maze (MWM) and passive avoidance (PA) tests were performed. The brains were removed under deep anesthesia, then the hippocampal and cortical tissues were separated to assess biochemical parameters. Hypothyroidism was significantly associated with learning and memory impairment in MWM and PA tests. Hypothyroidism was also accompanied by an elevation in AChE activity and malondialdehyde (MDA) content and a reduced level of thiol content and superoxide dismutase (SOD) activity in the brain. Treatment with Vit D recovered hypothyroidism-induced cognitive impairment and improved memory performance in MWM and PA tasks. On the other hand, Vit D alleviated AChE activity and MDA level, whereas increased SOD activity and thiol content in the hippocampal and cortical tissues. In conclusion, these outcomes suggest an association between the oral administrations of Vit D and learning and memory improvement of hypothyroid rats, which was accompanied by decreasing AChE activity and brain tissue oxidative damage. [ABSTRACT FROM AUTHOR]

Published

2022

13. Complete Elimination of Peripheral Auditory Input Before Onset of Hearing Causes Long-Lasting Impaired Social Memory in Mice

Author

Rui Guo, Yang Li, Jiao Liu, Shusheng Gong, and Ke Liu

Subjects

hearing, hearing loss, congenital, learning memory, social memory, hippocampus, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Hearing is one of the most important senses needed for survival, and its loss is an independent risk factor for dementia. Hearing loss (HL) can lead to communication difficulties, social isolation, and cognitive dysfunction. The hippocampus is a critical brain region being greatly involved in the formation of learning and memory and is critical not only for declarative memory but also for social memory. However, until today, whether HL can affect learning and memory is poorly understood. This study aimed to identify the relationship between HL and hippocampal-associated cognitive function. Mice with complete auditory input elimination before the onset of hearing were used as the animal model. They were first examined via auditory brainstem response (ABR) to confirm hearing elimination, and behavior estimations were applied to detect social memory capacity. We found significant impairment of social memory in mice with HL compared with the controls (p < 0.05); however, no significant differences were seen in the tests of novel object recognition, Morris water maze (MWM), and locomotion in the open field (p > 0.05). Therefore, our study firstly demonstrates that hearing input is required for the formation of social memory, and hearing stimuli play an important role in the development of normal cognitive ability.

Published

2021

14. Acer Truncatum Seed Oil Alleviates Learning and Memory Impairments of Aging Mice

Author

Xiao Li, Ting Li, Xiao Yue Hong, Jian Jun Liu, Xi Fei Yang, and Gong Ping Liu

Subjects

aging, acer truncatum seed oil, proteomics, learning memory, BDNF, Biology (General), QH301-705.5

Abstract

Aging, characterized by a time-dependent functional decline of physiological integrity, is the major independent risk factor for many neurodegeneration diseases. Therefore, it’s necessary to look for natural food supplements to extend the healthy lifespan of aging people. We here treated normal aging mice with acer truncatum seed oil, and found that the seed oil significantly improved the learning and memory ability. Proteomics revealed that the seed oil administration changed many proteins expression involving in biological processes, including complement and coagulation cascades, inflammatory response pathway and innate immune response. BDNF/TrkB signaling pathway was also activated by acer truncatum seed oil treatment. And the seed oil administration increased the expression of postsynaptic related proteins including PSD95, GluA1, and NMDAR1, and decreased the mRNA level of inflammatory factors containing IL-1β, TNF-α, and IL-6. These findings suggest that acer truncatum seed oil holds a promise as a therapeutic food supplement for delaying aging with multiple mechanisms.

Published

2021

15. Complete Elimination of Peripheral Auditory Input Before Onset of Hearing Causes Long-Lasting Impaired Social Memory in Mice.

Author

Guo, Rui, Li, Yang, Liu, Jiao, Gong, Shusheng, and Liu, Ke

Subjects

COLLECTIVE memory, COGNITIVE ability, EXPLICIT memory, HEARING, COGNITION disorders, SOCIAL isolation

Abstract

Hearing is one of the most important senses needed for survival, and its loss is an independent risk factor for dementia. Hearing loss (HL) can lead to communication difficulties, social isolation, and cognitive dysfunction. The hippocampus is a critical brain region being greatly involved in the formation of learning and memory and is critical not only for declarative memory but also for social memory. However, until today, whether HL can affect learning and memory is poorly understood. This study aimed to identify the relationship between HL and hippocampal-associated cognitive function. Mice with complete auditory input elimination before the onset of hearing were used as the animal model. They were first examined via auditory brainstem response (ABR) to confirm hearing elimination, and behavior estimations were applied to detect social memory capacity. We found significant impairment of social memory in mice with HL compared with the controls (p < 0.05); however, no significant differences were seen in the tests of novel object recognition, Morris water maze (MWM), and locomotion in the open field (p > 0.05). Therefore, our study firstly demonstrates that hearing input is required for the formation of social memory, and hearing stimuli play an important role in the development of normal cognitive ability. [ABSTRACT FROM AUTHOR]

Published

2021

16. Efficient Feature Selection Algorithm Based on Particle Swarm Optimization With Learning Memory

Author

Bo Wei, Wensheng Zhang, Xuewen Xia, Yinglong Zhang, Fei Yu, and Zhiliang Zhu

Subjects

Combinatorial optimization, feature selection, global optimization, learning memory, particle swarm optimization, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Feature selection is an important pre-processing step in machine learning and data mining tasks, which improves the performance of the learning models by removing redundant and irrelevant features. Many feature selection algorithms have been widely studied, including greedy and random search approaches, to find a subset of the most important features for fulfilling a particular task (i.e., classification and regression). As a powerful swarm-based meta-heuristic method, particle swarm optimization (PSO) is reported to be suitable for optimization problems with continuous search space. However, the traditional PSO has rarely been applied to feature selection as a discrete space search problem. In this paper, a novel feature selection algorithm based on PSO with learning memory (PSO-LM) is proposed. The goal of the learning memory strategy is designed to inherit much more useful knowledge from those individuals who have higher fitness and offer faster progress, and the genetic operation is used to balance the local exploitation and the global exploration of the algorithm. Moreover, the k-nearest neighbor method is used as a classifier to evaluate the classification accuracy of a particle. The proposed method has been evaluated on some international standard data sets, and the results demonstrated its superiority compared with those wrapper-based feature selection methods.

Published

2019

17. Individual Subnuclei of the Rat Anterior Thalamic Nuclei Differently affect Spatial Memory and Passive Avoidance Tasks.

Author

Safari, Vajihe, Nategh, Mohsen, Dargahi, Leila, Zibaii, Mohammad Esmail, Khodagholi, Fariba, Rafiei, Shahrbanoo, Khatami, Leila, and Motamedi, Fereshteh

Subjects

*THALAMIC nuclei, *SPATIAL memory, *TASKS, *ANIMAL training, *RATS

Abstract

• AD subnucleus of anterior thalamic nuclei (ATN) has a role in retrieval of MWM task. • AM subnucleus of ATN has a role in consolidation of PAL and retrieval of MWM tasks. • AV subnucleus of ATN is involved in all phases of memory processes in PAL and MWM tasks. • Individual ATN subnuclei act differently in processing of memory information. The role of the anterior thalamic nuclei (ATN) has been proven in different learning and memory tasks. The ATN consist of three main subnuclei, the anterodorsal (AD), anteroventral (AV) and anteromedial (AM), which have different biological characteristics such as distinct circuitry, cell population and neurotransmitter content. The role of ATN subnuclei in learning and memory has been shown in several studies. However, their probable role in different phases of memory including acquisition, consolidation and retrieval are not still well-known. For this purpose, the effect of reversible inactivation of each ATN subnucleus on different memory phases in two behavioral tasks including passive avoidance (PA) and Morris water maze (MWM) was studied. Wister male rats were bilaterally implanted with cannulas above the AD, AV or AM subnucleus in separate experimental groups in order to inject lidocaine (4%) for their temporal inactivation or, equal volume of saline. Animals were trained in the behavioral tasks and different phases of memory were investigated. Our findings indicated that the AV inactivation strongly disrupts all memory phases in the MWM, and consolidation and retrieval phases in the PA tasks. The AM inactivation had no effect on acquisition of both tasks while it impaired the PA consolidation and MWM retrieval. However, the AD inactivation could not disrupt memory phases in the PA task but impaired the MWM retrieval. In conclusion, it seems that the ATN distinct subnuclei differently affect different phases of memory in these two tasks. [ABSTRACT FROM AUTHOR]

Published

2020

18. Neurotoxicity and related mechanisms of flame retardant TCEP exposure in mice.

Author

Wang, Chengqiang, Chen, Zihan, Lu, Yanmei, Wang, Lu, Zhang, Yabin, Zhu, Xiaonian, and Song, Jiale

Subjects

*FIREPROOFING agents, *NEUROTOXICOLOGY, *GLUTATHIONE transferase, *DRINKING (Physiology), *MICE, *MAZE tests, *THYROID hormone regulation

Abstract

Objective: To explore the neurotoxicity and mechanism of tris(2-chloroethyl) phosphate (TCEP) exposure in mice. Methods: Total 30 adult Kunming mice were randomly divided into normal control group (0 mg/kg·d), low-dose TCEP group (10 mg/kg·d), and high-dose TCEP group (100 mg/kg·d), and administered continuously by gavage for 30 days. Results: Compared with the control group, the water intake of high-dose TCEP group was declined significantly (p < 0.05), and the organ index of liver and spleen were increased significantly (p < 0.05). In addition, the escape latency of TCEP exposed mice were longer than that in the control group in water maze test (p < 0.05), while the total swimming course of high-dose TCEP group was elevated and the swimming time in target quadrant was obviously shortened compared with the control group (p < 0.05). The serum levels of total-triiodothyronine (TT3) and free triiodothyronine (FT3) were significantly higher in the high-dose TCEP group than in the control group (p＜0.05). Compared with the control group, the activities of glutathione transferase (GST) and super oxide dismutase (SOD) in the high-dose TCEP group were increased, and GST in the low-dose TCEP group were decreased, while the content of malonaldehyde (MDA) in both groups was increased (p＜0.05). In the CCK8 assay, the viability of PC12 cells decreased with an increase of TCEP concentration, indicating a concentration dependent neurotoxicity. Conclusion: TCEP exposure can cause neurotoxicity by increasing thyroid hormones and inducing oxidative damage in mice. [ABSTRACT FROM AUTHOR]

Published

2020

19. Verbal Memory

Author

Sumiyoshi, Tomiki, Rosenthal, Walter, Editor-in-chief, Barrett, James E., Series editor, Flockerzi, Veit, Series editor, Frohman, Michael A., Series editor, Geppetti, Pierangelo, Series editor, Hofmann, Franz B., Series editor, Michel, Martin C., Series editor, Moore, Philip, Series editor, Page, Clive P., Series editor, Thorburn, Andrew M., Series editor, Wang, KeWei, Series editor, Kantak, Kathleen M., editor, and Wettstein, Joseph G., editor

Published

2015

20. Protective effects of dopamine D2/D3 receptor agonist piribedil on learning and memory of rats exposed to global cerebral ischemia–reperfusion.

Author

Wang, Wenzhu, Liu, Lixu, Chen, Chen, Jiang, Peng, and Zhang, Tong

Subjects

*DOPAMINE receptors, *PSYCHOLOGY of learning, *MEMORY, *CEREBRAL ischemia, *REPERFUSION injury, *LABORATORY rats

Abstract

Highlights • Piribedil has beneficial and harmful effects during global cerebral ischemia-reperfusion injury. • It could improve activity, memory, and learning capacities of the rates in global cerebral ischemia-reperfusion injury. • It may be useful clinically for treating severe global cerebral ischemia-reperfusion brain injury. Abstract Global cerebral ischemia-reperfusion (GCI/R) may occur after any of several clinical conditions such as cardiac arrest and anesthetic accident. Some dopamine receptor agonists possess neuroprotective effects. However, some of them may produce side effects during treatment. Piribedil, which is a dopamine D2/D3 receptor agonist, has fewer side effects and is well tolerated. This study investigated the effects of piribedil on learning and memory of rats with GCI/R according to modified neurological severity score (mNSS) scoring and Morris water maze test (MWM). Rats with GCI/R were treated with piribedil 25 or 50 mg/kg/d, and mNSS was performed at 6 h, 1 day, 3 days, and 1 and 2 weeks after injury. The MWM test was employed to evaluate learning and memory of rats at 1 and 2 weeks after injury. The results showed treatment with piribedil reduced the mNSS score and prolonged the time in the target quadrant compared with untreated rats although no obvious differences of the 25 and 50 mg/kg/d piribedil intervention groups were observed statistically. Piribedil is effective in improving the neurological function and learning and memory of rats after GCI/R. [ABSTRACT FROM AUTHOR]

Published

2018

21. BINGO: brain-inspired learning memory

Author

Swarup Bhunia and Prabuddha Chakraborty

Subjects

Artificial Intelligence, Human–computer interaction, Computer science, Process (computing), Human memory, Network structure, Granularity, Performance improvement, Learning memory, Association (psychology), Software, Computer memory

Abstract

Storage and retrieval of data in a computer memory play a major role in system performance. Traditionally, computer memory organization is ‘static’—i.e. it does not change based on the application-specific characteristics in memory access behaviour during system operation. Specifically, in the case of a content-operated memory (COM), the association of a data block with a search pattern (or cues) and the granularity (details) of a stored data do not evolve. Such a static nature of computer memory, we observe, not only limits the amount of data we can store in a given physical storage, but it also misses the opportunity for performance improvement in various applications. On the contrary, human memory is characterized by seemingly infinite plasticity in storing and retrieving data—as well as dynamically creating/updating the associations between data and corresponding cues. In this paper, we introduce BINGO, a brain-inspired learning memory paradigm that organizes the memory as a flexible neural memory network. In BINGO, the network structure, strength of associations, and granularity of the data adjust continuously during system operation, providing unprecedented plasticity and performance benefits. We present the associated storage/retrieval/retention algorithms in BINGO, which integrate a formalized learning process. Using an operational model, we demonstrate that BINGO achieves an order of magnitude improvement in memory access times and effective storage capacity using the CIFAR-10 dataset and the wildlife surveillance dataset when compared to traditional content-operated memory.

Published

2021

22. The Effect of vitamin E and C in the Prevention of Neurotoxicity of Lead on Spatial Memory in Male Wistar rats

Author

hadeseh Gharehbaghi, eraj Salehi, and seyamak Shahidi

Subjects

lead, vitamin E, vitamin C, learning memory, rat, Medicine (General), R5-920

Abstract

Background & aim: Oxidative stress is one of the possible molecular mechanisms of light-mediated neurotoxicity of lead and on the other hand vitamin C and E have high antioxidant activity. The purpose of this study was to investigate the protective effect of these two vitamins on the effects of lead toxicity on learning ability. Methods: The present experimental study was conducted on thirty-two male Wistar rats divided in groups of 8, including a control group received no lead and vitamins, the group received water containing lead (0.2%), the group received water containing lead plus vitamin C and final group received water containing lead and vitamin E. Materials were used in mice by gavage daily for 3 months. Morris water maze device was used to assess spatial memory. Measures of spatial learning and memory were assessed using ANOVA. Result: Time for finding the platform (s) during the training phase in the lead group plus vitamin E and vitamin C was lesser than the lead group alone. Also in the retrieval and working memory tests, both groups lead plus vitamin E and lead plus vitamin C, a significant difference in the percentage of the elapsed time in the target quadrant and the average time to find the platform (s) in the fourth day of having lead was observed (p

Published

2014

23. Sex-specific behavioral effects of acute exposure to the neonicotinoid clothianidin in mice

Author

27878368 - Ikenaka, Yoshinri, Kubo, Shizuka, Hirano, Tetsushi, Miyata, Yuka, Ohno, Shuji, Onaru, Kanoko, Ikenaka, Yoshinori, Nakayama, Shouta M.M., Ishizuka, Mayumi, Mantani, Youhei, Yokoyama, Toshifumi, Hoshi, Nobuhiko, 27878368 - Ikenaka, Yoshinri, Kubo, Shizuka, Hirano, Tetsushi, Miyata, Yuka, Ohno, Shuji, Onaru, Kanoko, Ikenaka, Yoshinori, Nakayama, Shouta M.M., Ishizuka, Mayumi, Mantani, Youhei, Yokoyama, Toshifumi, and Hoshi, Nobuhiko

Abstract

Although neonicotinoids are among the major classes of pesticides that affect mammalian nervous systems, little is known about sex differences in their effects. This study aimed to examine whether the neurobehavioral effects of a neonicotinoid, clothianidin (CLO), differed between sexes. Male and female C57BL/6N mice were orally administered CLO (5 or 50 mg/kg) at or below the chronic no-observed-adverse-effect-level (NOAEL) and sub- jected to behavioral tests of emotional and learning functions. Changes in neuroactivity in several brain regions and the concentrations of CLO and its metabolites in blood and urine were measured. Acute CLO exposure caused sex-related behavioral effects; decreases in locomotor activities and elevation of anxiety-like behaviors were more apparent in males than in females. In addition, male-specific impairment of short- and long-term learning memory by CLO exposure was observed in both the novel recognition test and the Barnes maze test. Male- dominant increases in the number of c-fos positive cells were observed in the paraventricular thalamic nu- cleus in the thalamus and in the dentate gyrus in the hippocampus, which are related to the stress response and learning function, respectively. The concentrations of CLO and most metabolites in blood and urine were higher in males. These results support the notion that male mice are more vulnerable than females to the neuro- behavioral effects of CLO and provide novel insights into the risk assessment of neonicotinoids in mammalian neuronal function.

Published

2022

24. Effects of high-intensity interval training and flaxseed oil supplement on learning, memory and immobility: relationship with BDNF and TrkB genes

Author

Saleh Rahmati-Ahmadabad, Mohammad Nasehi, David Broom, and Mohammad Ali Azarbayjani

Subjects

0301 basic medicine, medicine.medical_specialty, Physiology, Veterinary (miscellaneous), Endocrinology, Diabetes and Metabolism, Biophysics, Tropomyosin receptor kinase B, Biochemistry, Interval training, 03 medical and health sciences, 0302 clinical medicine, Physiology (medical), Internal medicine, medicine, Orthopedics and Sports Medicine, Learning memory, Gene, business.industry, Cognition, Executive functions, 030104 developmental biology, Endocrinology, TYROSINE KINASE RECEPTOR B, business, High-intensity interval training, 030217 neurology & neurosurgery

Abstract

This study examined the independent and combined effects of high-intensity interval training (HIIT) and flaxseed oil supplementation on cognitive/executive functions in middle-aged rats. Hippocampal neurotropic brain factor (BDNF) and tyrosine kinase receptor B (TrkB) gene expression were also measured. Animals were randomly divided into groups including no exercise control and saline (CS), no exercise control and flaxseed oil supplement (CF), exercise training-and saline (TS) and exercise training and flaxseed oil supplement (TF). The training groups undertook a program of HIIT (10 weeks, five sessions per week) and the supplement groups received flaxseed oil supplement (300 mg/kg). The results showed that HIIT and flaxseed oil supplementation independently had positive effects on memory and learning (P

Published

2021

25. Research Progress on Acorus tatarinowii Schott and Its Active Ingre- dints Preventing and Controlling Alzheimer's Disease.

Author

Chengshu LU

Subjects

*ALZHEIMER'S disease prevention, *CHINESE medicine, *PHARMACOLOGY, *PHARMACODYNAMICS, *CENTRAL nervous system

Abstract

It is hot point of research to prevent and control Alzheimer's disease (AD) by traditional Chinese medicine. Acorus tatarinowii Schott extract and its contained chemical compositions could play multiple pharmacological effects in central nervous system, in which the reports on main active parts and chemical compositions(such as volatile oil and β-asarone) from A. tatarinowii improving learning memory and preventing AD are the most in recent years. Based on referring to related literature at home and abroad, different pharmacodynamic actions of A. tatarinowii extract and main chemical compositions on AD and action mechanism are summarized. [ABSTRACT FROM AUTHOR]

Published

2017

26. Intermittent Hypoxia and Effects on Early Learning/Memory: Exploring the Hippocampal Cellular Effects of Pediatric Obstructive Sleep Apnea

Author

Steven Roth, Russell S Ray, Mehmet Tohsun, Farrah Kheradamand, Arvind Chandrakantan, and Adam C. Adler

Subjects

Hippocampus, Hippocampal formation, Article, 03 medical and health sciences, 0302 clinical medicine, Neurocognitive Dysfunction, 030202 anesthesiology, Postnatal neurogenesis, medicine, Animals, Humans, Learning, Learning memory, Child, Hypoxia, Sleep Apnea, Obstructive, business.industry, Intermittent hypoxia, medicine.disease, respiratory tract diseases, Obstructive sleep apnea, Anesthesiology and Pain Medicine, business, Neuroscience, Neurocognitive, 030217 neurology & neurosurgery

Abstract

This review provides an update on the neurocognitive phenotype of pediatric obstructive sleep apnea (OSA). Pediatric OSA is associated with neurocognitive deficits involving memory, learning, and executive functioning. Adenotonsillectomy (AT) is presently accepted as the first line surgical treatment for pediatric OSA, but the executive function deficits do not resolve post-surgery, and the timeline for recovery remains unknown. This finding suggests that pediatric OSA potentially causes irreversible damage to multiple areas of the brain. The focus of this review is the hippocampus, one of the 2 major sites of postnatal neurogenesis, where new neurons are formed and integrated into existing circuitry and the mammalian center of learning/memory functions. Here, we review the clinical phenotype of pediatric OSA, and then discuss existing studies of OSA on different cell types in the hippocampus during critical periods of development. This will set the stage for future study using preclinical models to understand the pathogenesis of persistent neurocognitive dysfunction in pediatric OSA.

Published

2020

27. Assessment of the influence of cilostazol on learning-memory and motor co-ordination by rodent models

Author

Pravin Kumar R, B L Kudagi, N S Muthiah, and Sadgunottama goud kamparaj

Subjects

medicine.medical_specialty, Elementary cognitive task, business.industry, Cognition, Avoidance response, Cilostazol, Motor coordination, Physical medicine and rehabilitation, medicine, General Pharmacology, Toxicology and Pharmaceutics, Learning memory, Latency (engineering), business, Diazepam, medicine.drug

Abstract

Dementia is a set of symptoms that include worsening of the routine of cognitive tasks, learning, reproducibility, and gait disturbances beyond typical aging. Activated c AMP can produce anti-apoptosis activity, neuroprotective activity, motor improvement, and cognitive enhancement activity. Cilostazol can increase c AMP levels, so this study aimed to evaluate the influence of cilostazol on learning-memory and motor coordination by rodent models. The rats were divided into 5 and 6 groups with 6 rats in each to test the hypothesis respectively. Before MES seizure induction the rats were trained for conditioned avoidance response for 14 days and the best one was selected for assessment. The performance of intervention treated groups to determine the memory retention effect was measured by applying a fixed number of shocks. The intervention treated groups were tested for motor coordination performance by rotarod test (4-45 RPM accelerating speed for 5 min) after 30 and 60 min. The latency time of each rat falls off from the rod for the first time was noted. The results were presented as Mean ± SD, tested by ordinary two way ANOVA followed by Tukey's multiple comparisons test. Cilostazol 100 mg/kg p.o demonstrated a significant memory enhancement activity in the conditioned avoidance response technique. Cilostazol 20mg/kg i.p alone and along with diazepam 2 mg/kg demonstrated a significant motor coordination performance in both sessions. The present study concludes that cilostazol has improved the learning & memory and motor coordination performances.

Published

2020

28. Neurotoxicity and related mechanisms of flame retardant TCEP exposure in mice

Author

Yabin Zhang, Lu Wang, Yanmei Lu, Jiale Song, Zihan Chen, Chengqiang Wang, and Xiaonian Zhu

Subjects

Male, Tris, Thyroid Hormones, Health, Toxicology and Mutagenesis, 010501 environmental sciences, Pharmacology, Toxicology, PC12 Cells, 01 natural sciences, Mice, 03 medical and health sciences, chemistry.chemical_compound, Morris Water Maze Test, medicine, Animals, Learning memory, Normal control, Cell Proliferation, Flame Retardants, 0105 earth and related environmental sciences, Neurons, 0303 health sciences, Behavior, Animal, 030302 biochemistry & molecular biology, Neurotoxicity, Brain, Phosphate, medicine.disease, Organophosphates, Rats, Oxidative Stress, chemistry, Thyroid hormones, TCEP, Female, Neurotoxicity Syndromes, Fire retardant

Abstract

Objective: To explore the neurotoxicity and mechanism of tris(2-chloroethyl) phosphate (TCEP) exposure in mice.Methods: Total 30 adult Kunming mice were randomly divided into normal control group (...

Published

2020

29. The ameliorative effects and mechanisms of abscisic acid on learning and memory.

Author

Liao, Ping, Wu, Qing-Yun, Li, Sen, Hu, Kai-Bin, Liu, Hui-Lin, Wang, Hai-Yan, Long, Zai-Yun, Lu, Xiu-Min, and Wang, Yong-Tang

Subjects

*ABSCISIC acid, *HEBBIAN memory, *DEVELOPMENTAL neurobiology, *PLANT hormones, *ANIMAL diseases, *COGNITIVE ability, *BRAIN injuries

Abstract

Abscisic acid (ABA), a conserved hormone existing in plants and animals, not only regulates blood glucose and inflammation but also has good therapeutic effects on obesity, diabetes, atherosclerosis and inflammatory diseases in animals. Studies have shown that exogenous ABA can pass the blood-brain barrier and inhibit neuroinflammation, promote neurogenesis, enhance synaptic plasticity, improve learning, memory and cognitive ability in the central nervous system. At the same time, ABA plays a crucial role in significant improvement of Alzheimer's disease, depression, and anxiety. Here we review the previous research progress of ABA on the physiological effects and clinical application in the related diseases. By summarizing the biological functions of ABA, we aim to reveal the possible mechanisms of ameliorative function of ABA on learning and memory, to provide a theoretical basis that ABA as a novel and safe drug improves learning memory and cognitive impairment in central system diseases such as aging, neurodegenerative diseases and traumatic brain injury. • Abscisic acid is a kind of conserved hormone with extensive biological functions. • Exogenous abscisic acid can pass the blood-brain barrier, and has potential to regulate the learning and memory. • Abscisic acid improves learning and memory by anti-inflammation and promotion of synaptic plasticity. [ABSTRACT FROM AUTHOR]

Published

2023

30. Sex-specific behavioral effects of acute exposure to the neonicotinoid clothianidin in mice

Author

Shizuka, Kubo, Tetsushi, Hirano, Yuka, Miyata, Shuji, Ohno, Kanoko, Onaru, Yoshinori, Ikenaka, Shouta M M, Nakayama, Mayumi, Ishizuka, Youhei, Mantani, Toshifumi, Yokoyama, Nobuhiko, Hoshi, and 27878368 - Ikenaka, Yoshinri

Subjects

Male, Mammals, Pharmacology, Insecticides, Behavior, Toxicology, Guanidines, Mice, Inbred C57BL, Mice, Neonicotinoids, Clothianidin, Learning Memory, Animals, Neonicotinoid, Female, Sex Difference

Abstract

Although neonicotinoids are among the major classes of pesticides that affect mammalian nervous systems, little is known about sex differences in their effects. This study aimed to examine whether the neurobehavioral effects of a neonicotinoid, clothianidin (CLO), differed between sexes. Male and female C57BL/6N mice were orally administered CLO (5 or 50 mg/kg) at or below the chronic no-observed-adverse-effect-level (NOAEL) and sub- jected to behavioral tests of emotional and learning functions. Changes in neuroactivity in several brain regions and the concentrations of CLO and its metabolites in blood and urine were measured. Acute CLO exposure caused sex-related behavioral effects; decreases in locomotor activities and elevation of anxiety-like behaviors were more apparent in males than in females. In addition, male-specific impairment of short- and long-term learning memory by CLO exposure was observed in both the novel recognition test and the Barnes maze test. Male- dominant increases in the number of c-fos positive cells were observed in the paraventricular thalamic nu- cleus in the thalamus and in the dentate gyrus in the hippocampus, which are related to the stress response and learning function, respectively. The concentrations of CLO and most metabolites in blood and urine were higher in males. These results support the notion that male mice are more vulnerable than females to the neuro- behavioral effects of CLO and provide novel insights into the risk assessment of neonicotinoids in mammalian neuronal function.

Published

2022

31. Fluoride alters feeding and memory in Lymnaea stagnalis

Author

Ken Lukowiak, Bevin Wiley, and Anuradha Batabyal

Subjects

Memory, Long-Term, Physiology, 030310 physiology, education, Snails, Zoology, Lymnaea stagnalis, Snail, 03 medical and health sciences, Behavioral Neuroscience, chemistry.chemical_compound, Fluorides, 0302 clinical medicine, biology.animal, Animals, Learning, Learning memory, Ecology, Evolution, Behavior and Systematics, Black tea, Lymnaea, 0303 health sciences, biology, Long-term memory, fungi, biology.organism_classification, Associative learning, chemistry, Conditioning, Operant, Animal Science and Zoology, Fluoride, 030217 neurology & neurosurgery

Abstract

Fluoride occurs naturally in the terrestrial and aquatic environment and is a major component in tea. Prolonged fluoride exposure alters metabolic activity in several aquatic invertebrates. For the first time, we investigated the effects of fluoride on cognition in the pond snail Lymnaea stagnalis as it is capable of a higher form of associative learning called configural learning. We first showed suppressive effects of black tea and fluoride on feeding (i.e., rasping) behavior. We then investigated how fluoride may alter cognition by introducing fluoride (1.86 mg/L) before, during, after, a day before and a week before the snails underwent the configural learning training procedure. Our results show that any 45-min exposure to fluoride (before, during or after a configural learning training procedure) blocks configural learning memory formation in Lymnaea and these effects are long-lasting. One week after a fluoride exposure, snails are still unable to form a configural learning memory and this result is upheld when the snails are exposed to a lower concentration of fluoride, one which is naturally occurring in ponds that a wild strain of Lymnaea can be found (0.3 mg/L). Thus, fluoride obstructs configural learning memory formation in a fluoride-naive, inbred strain of Lymnaea.

Published

2021

32. Learning memory management with C‐Sim: A C‐based visual tool

Author

Francisco Ortin, María J. Lado, Matias Garcia Rivera, and Baltasar García Perez-Schofield

Subjects

Memory management, System programming, General Computer Science, Computer science, Programming language, General Engineering, Learning memory, computer.software_genre, computer, C programming language, Visual tool, Education

Published

2019

33. Sex-specific behavioral effects of acute exposure to the neonicotinoid clothianidin in mice.

Author

Kubo, Shizuka, Hirano, Tetsushi, Miyata, Yuka, Ohno, Shuji, Onaru, Kanoko, Ikenaka, Yoshinori, Nakayama, Shouta M.M., Ishizuka, Mayumi, Mantani, Youhei, Yokoyama, Toshifumi, and Hoshi, Nobuhiko

Subjects

*THALAMIC nuclei, *CLOTHIANIDIN, *MAZE tests, *NEONICOTINOIDS, *DENTATE gyrus, *PARAVENTRICULAR nucleus

Abstract

Although neonicotinoids are among the major classes of pesticides that affect mammalian nervous systems, little is known about sex differences in their effects. This study aimed to examine whether the neurobehavioral effects of a neonicotinoid, clothianidin (CLO), differed between sexes. Male and female C57BL/6N mice were orally administered CLO (5 or 50 mg/kg) at or below the chronic no-observed-adverse-effect-level (NOAEL) and subjected to behavioral tests of emotional and learning functions. Changes in neuroactivity in several brain regions and the concentrations of CLO and its metabolites in blood and urine were measured. Acute CLO exposure caused sex-related behavioral effects; decreases in locomotor activities and elevation of anxiety-like behaviors were more apparent in males than in females. In addition, male-specific impairment of short- and long-term learning memory by CLO exposure was observed in both the novel recognition test and the Barnes maze test. Male-dominant increases in the number of c-fos positive cells were observed in the paraventricular thalamic nucleus in the thalamus and in the dentate gyrus in the hippocampus, which are related to the stress response and learning function, respectively. The concentrations of CLO and most metabolites in blood and urine were higher in males. These results support the notion that male mice are more vulnerable than females to the neurobehavioral effects of CLO and provide novel insights into the risk assessment of neonicotinoids in mammalian neuronal function. • Sex-related differences in behavioral effects of clothianidin (CLO) were examined. • Male mice were more susceptible to behavioral effects of acute CLO than females. • Acute CLO impaired short and long term learning only in male mice. • Neuroactivities in thalamus and hippocampus increased in male-dominant manner. • Concentration of CLO and its metabolites were higher in male mice than females. [ABSTRACT FROM AUTHOR]

Published

2022

34. Impaired learning, memory, and extinction in posttraumatic stress disorder: translational meta-analysis of clinical and preclinical studies

Author

Elbert Geuze, Milou S. C. Sep, and Marian Joëls

Subjects

Posttraumatic stress, Meta-analysis, Animal studies, Extinction (psychology), Mnemonic, Learning memory, Valence (psychology), Psychology, Psychopathology, Clinical psychology

Abstract

BackgroundCurrent evidence-based treatments for post-traumatic stress disorder (PTSD) are efficacious in only part of PTSD patients. Therefore, novel neurobiologically-informed approaches are urgently needed. Clinical and translational neuroscience point to altered learning and memory processes as key in (models of) PTSD psychopathology. We extended this notion by clarifying at a meta-level i) the role of information valence, i.e. neutral versus emotional/fearful, and ii) comparability between clinical and preclinical phenotypes. We hypothesized that, cross-species, neutral versus emotional/fearful information processing is, respectively, impaired and enhanced in PTSD.MethodsThis preregistered meta-analysis involved a literature search on PTSD+Learning/Memory+Behavior, performed in PubMed. First, the effect of information valence was estimated with a random-effects meta-regression. Then sources of variation were explored with a random forest-based analysis.ResultsThe analyses included 92 clinical (N=6732 humans) and 182 preclinical (N=6834 animals) studies. A general impairment of learning, memory and extinction processes was observed in PTSD patients, regardless of information valence. Impaired neutral learning/memory and fear extinction were also present in animal models of PTSD. Yet, PTSD enhanced fear/trauma memory in preclinical studies and impaired emotional memory in patients. Clinical data on fear/trauma memory was limited. Mnemonic phase and valence explained most variation in rodents but not humans.ConclusionsImpaired neutral learning/memory and fear extinction show very stable cross-species PTSD phenotypes. These could be targeted for novel PTSD treatments, building on neurobiological animal studies. We argue that seemingly cross-species discrepancies in emotional/fearful memory deserve further study; until then animal models targeting this phenotype should be applied with care.

Published

2021

35. Complete Elimination of Peripheral Auditory Input Before Onset of Hearing Causes Long-Lasting Impaired Social Memory in Mice

Author

Shusheng Gong, Yang Li, Rui Guo, Ke Liu, and Jiao Liu

Subjects

0301 basic medicine, medicine.medical_specialty, social memory, Hearing loss, hippocampus, Hippocampus, Neurosciences. Biological psychiatry. Neuropsychiatry, Audiology, Affect (psychology), 03 medical and health sciences, 0302 clinical medicine, medicine, otorhinolaryngologic diseases, Dementia, Social isolation, Original Research, hearing loss, business.industry, General Neuroscience, congenital, Cognition, learning memory, medicine.disease, Peripheral, 030104 developmental biology, Auditory brainstem response, hearing, medicine.symptom, business, 030217 neurology & neurosurgery, RC321-571, Neuroscience

Abstract

Hearing is one of the most important senses needed for survival, and its loss is an independent risk factor for dementia. Hearing loss (HL) can lead to communication difficulties, social isolation, and cognitive dysfunction. The hippocampus is a critical brain region being greatly involved in the formation of learning and memory and is critical not only for declarative memory but also for social memory. However, until today, whether HL can affect learning and memory is poorly understood. This study aimed to identify the relationship between HL and hippocampal-associated cognitive function. Mice with complete auditory input elimination before the onset of hearing were used as the animal model. They were first examined via auditory brainstem response (ABR) to confirm hearing elimination, and behavior estimations were applied to detect social memory capacity. We found significant impairment of social memory in mice with HL compared with the controls (p < 0.05); however, no significant differences were seen in the tests of novel object recognition, Morris water maze (MWM), and locomotion in the open field (p > 0.05). Therefore, our study firstly demonstrates that hearing input is required for the formation of social memory, and hearing stimuli play an important role in the development of normal cognitive ability.

Published

2021

36. m6A Modification in Mammalian Nervous System Development, Functions, Disorders, and Injuries

Author

Jun Yu, Yuanchu She, and Sheng-Jian Ji

Subjects

Nervous system, Mammalian nervous system, QH301-705.5, nervous system, neurological disorders, Cell Biology, Biology, Mammalian brain, MRNA metabolism, m6A modification, medicine.anatomical_structure, medicine, learning and memory, Biology (General), Learning memory, development, Neuroscience, Developmental Biology

Abstract

N6-methyladenosine (m6A) modification, as the most prevalent internal modification on mRNA, has been implicated in many biological processes through regulating mRNA metabolism. Given that m6A modification is highly enriched in the mammalian brain, this dynamic modification provides a crucial new layer of epitranscriptomic regulation of the nervous system. Here, in this review, we summarize the recent progress on studies of m6A modification in the mammalian nervous system ranging from neuronal development to basic and advanced brain functions. We also highlight the detailed underlying mechanisms in each process mediated by m6A writers, erasers, and readers. Besides, the involvement of dysregulated m6A modification in neurological disorders and injuries is discussed as well.

Published

2021

37. The Preliminary Effects of Aerobic Cycling Training on Cognitive Function in People with Traumatic Brain Injury and Significant Memory Impairment: a Proof-Of-Concept Randomized Controlled Trial.

Author

Wender, Carly, Krch, Denise, and Sandroff, Brian

Abstract

To investigate effects of aerobic exercise training in persons with TBI-related memory impairment. Single-blinded randomized controlled trial. Kessler Foundation. Five participants completed the trial. All were right handed, suffered a severe TBI at least 10 years ago, were physically inactive, and were prescreened for significant memory impairment. Participants were randomly assigned to either 12-weeks of supervised moderate intensity (60% peak watts) aerobic cycling exercise training or 12-weeks of supervised stretching-and-toning as an active control condition. Both conditions took place 3x/week for 30 mins/session. Pre- and post-intervention measures included a battery of neuropsychological assessments of memory and processing speed and structural neuroimaging (MRI), administered by treatment-blinded assessors. Based on effect size estimates, the exercise group demonstrated substantially greater improvements in auditory verbal learning (RAVLT) (d=1.54), and larger increases in volumes of the left hippocampus (d=1.49), left cerebellar cortex (d=0.95), and right cerebellar cortex (d=1.40). There were large intervention effects favoring the exercise condition on processing speed (SDMT) (d=1.58) and volume of the right thalamus (d=1.44). Pilot data provide important proof-of-concept suggesting that a 12-week, moderate intensity, aerobic cycling exercise training program may specifically improve memory and more generally improve processing speed in those with TBI and impaired memory. The authors have no conflicts of interest to disclose. [ABSTRACT FROM AUTHOR]

Published

2021

38. Ibuprofen treatment ameliorates memory deficits in rats with collagen-induced arthritis by normalizing aberrant MAPK/NF-κB and glutamatergic pathways.

Author

Zhang, Nai-You, Wang, Ting-Hsuan, Chou, Ching-Hsuan, Wu, Kuo-Chen, Yang, Chia-Ron, Kung, Fan-Lu, and Lin, Chun-Jung

Subjects

*GLUTAMATE receptors, *COLLAGEN-induced arthritis, *MEMORY disorders, *NF-kappa B, *MITOGEN-activated protein kinases, *EXCITATORY amino acids

Abstract

Many studies have indicated that the risk of cognitive impairment is higher in patients with rheumatoid arthritis (RA). Additionally, patients with RA may have a lower incidence of cognitive impairment with long-term use of ibuprofen. This study was aimed at investigating the impacts of RA on memory function and the mechanisms that ibuprofen may exhibit to improve memory function in rats with collagen-induced arthritis (CIA). Ibuprofen (30 mg/kg) was given twice daily to CIA rats for two weeks starting from Day 18 following the first immunization. Memory function was measured by the Morris water maze (MWM) test and long-term potentiation (LTP). The proinflammatory cytokine levels and downstream signaling pathways, including mitogen-activated protein kinase (MAPK) and nuclear factor kappa B (NF-κB), were examined. Furthermore, the glutamatergic system, including glutamate transporters/receptors and brain extracellular levels of glutamate, was investigated. The results showed that the impaired learning memory in CIA rats, examined by the MWM test and LTP, can be ameliorated by ibuprofen treatment. Along with the improvement in memory deficits, ibuprofen attenuated both neuroinflammation and the associated elevated levels of phosphorylated p38, JNK, and p65 in the hippocampus of CIA rats. In addition, the decreased excitatory amino acid transporter 2 level, the increased extracellular glutamate, and the upregulated hippocampal NMDA receptor 2B of CIA rats were all normalized by ibuprofen treatment. These findings suggest that the effect of ibuprofen on the memory improvement in CIA rats is associated with the normalization of the activated MAPK and NF-κB pathways and the aberrant glutamatergic system. [ABSTRACT FROM AUTHOR]

Published

2022

39. Identification of potential therapeutic and diagnostic characteristics of Alzheimer disease by targeting the miR-132-3p/FOXO3a-PPM1F axis in APP/PS1 mice.

Author

Fu, Xiaofeng, Liu, Jing, Xie, Junjie, Chen, Guanhong, Zhang, Hao, Meng, Fantao, Wu, Min, Li, Qiongyu, Liu, Yong, Wang, Wentao, Dai, Juanjuan, Wang, Dan, Zhao, Di, Li, Chen, and Wang, Xuezhen

Subjects

*ALZHEIMER'S disease, *MICE, *MEMORY disorders, *NEURODEGENERATION, *EARLY diagnosis

Abstract

[Display omitted] • miR-132-3p levels in the hippocampus and blood were consistently decreased in APP/PS1 mice. • Bi-directional manipulation of miR-132-3p levels produced diverse effects on the learning memory behaviors in APP/PS1 mice. • Overexpression of PPM1F remarkably accelerated the progression of learning memory deficits in APP/PS1 mice. • miR-132-3p indirectly regulated PPM1F expression by targeting FOXO3a. • miR-132-3p and PPM1F expression levels in patients with AD were altered with prominent correlations. Alzheimer disease (AD) is a neurodegenerative disorder, which is characterized by progressive impairment of memory and cognition. Early diagnosis and treatment of AD has become a leading topic of research. In this study, we explored the effects of the miR-132-3p/FOXO3a-PPM1F axis on the onset of AD for possible early diagnosis and therapy. We found that miR-132-3p levels in the hippocampus and blood were drastically decreased in APP/PS1 mice from 9 months of age, and bi-directional manipulation of miR-132-3p levels induced magnified effects on learning memory behaviors, and manifestation of AD-related pathological characteristics and inflammatory cytokines in APP/PS1 mice of relevant ages. The hippocampal PPM1F expression levels were significantly elevated in APP/PS1 mice from 3 months of age, which was correlated with miR-132-3p levels at different ages. Overexpression of PPM1F remarkably accelerated the progression of learning memory deficits and associated pathological factors in APP/PS1 mice. Further, we showed that miR-132-3p modulated the expression of PPM1F via FOXO3a in HT22 cells. Finally, using peripheral blood samples of human study participants, we found that the miR-132-3p and PPM1F expression levels in patients with AD were also altered with prominent correlations. In conclusion, miR-132-3p indirectly regulates PPM1F expression by targeting FOXO3a, which could play an extensive role in contributing to the establishment of early diagnosis, treatment, and pathogenesis of AD. [ABSTRACT FROM AUTHOR]

Published

2022

40. Supporting beginning teachers to link learning, memory and inquiry

Author

Jonathan Firth

Subjects

Mathematics education, Learning memory, Psychology, Link (knot theory)

Published

2020

41. Ketamine Administration Leads to Learning-Memory Dysfunction and Decreases Serum Brain-Derived Neurotrophic Factor in Rats

Author

Miao Li, Aiming Xie, Ya Liu, Qian Zeng, Shucai Huang, Qiuping Huang, Tianli Shao, Xinxin Chen, Zhenjiang Liao, Yi Cai, Zhijie Xiao, Xiaojie Zhang, and Hongxian Shen

Subjects

medicine.medical_specialty, lcsh:RC435-571, medicine.medical_treatment, Morris water navigation task, ketamine administration, memory, 03 medical and health sciences, 0302 clinical medicine, Neurotrophic factors, lcsh:Psychiatry, Internal medicine, medicine, Hippocampus (mythology), Ketamine, Learning memory, Saline, Original Research, Brain-derived neurotrophic factor, Psychiatry, business.industry, spatial learning, brain-derived neurotrophic factor, 030227 psychiatry, Psychiatry and Mental health, Endocrinology, Spatial learning, business, Morris water maze, 030217 neurology & neurosurgery, medicine.drug

Abstract

ObjectiveThis study investigated the effects of acute or chronic ketamine administration on learning and memory function as well as levels of brain-derived neurotrophic factor (BDNF) in the hippocampus and blood in order to explore the potential correlation between learning-memory dysfunction and ketamine.MethodsRats were treated with 25 mg/kg ketamine for 3 d (n = 20) or 14 d (n = 20). Saline-treated rats were used as controls. The Morris water maze test was used to evaluate spatial learning and memory after 10 d of withdrawal. The level of BDNF in serum and the hippocampus were measured by ELISA.ResultsThe number of platform crossings and residence time in the target platform quadrant were significantly reduced in ketamine 3 d and 14 d groups than in the saline controls (both p < 0.05). In addition, the average escape latency of ketamine 3 d and 14 d groups were significantly longer than that of the saline 3 d and 14 d groups (p < 0.0001), respectively. Further examination found that only serum samples from ketamine 14 d group showed significantly decreased BDNF level compared to that from saline 14 d groups (p < 0.05). However, no differences were detected in hippocampus samples.ConclusionChronic ketamine exposure (25 mg/kg) causes spatial learning and memory deficits in SD rats, which may be associated with decreased serum BDNF levels.

Published

2020

42. Learning, Memory, and Training

Author

Eugene McKenna

Subjects

Computer science, Training (meteorology), Learning memory, Cognitive psychology

Published

2020

43. Efficient Feature Selection Algorithm Based on Particle Swarm Optimization With Learning Memory

Author

Xuewen Xia, Yinglong Zhang, Wensheng Zhang, Fei Yu, Bo Wei, and Zhiliang Zhu

Subjects

Optimization problem, Combinatorial optimization, General Computer Science, particle swarm optimization, Computer science, global optimization, General Engineering, Swarm behaviour, Particle swarm optimization, 020206 networking & telecommunications, Feature selection, 02 engineering and technology, learning memory, Random search, feature selection, 0202 electrical engineering, electronic engineering, information engineering, Search problem, 020201 artificial intelligence & image processing, General Materials Science, lcsh:Electrical engineering. Electronics. Nuclear engineering, Algorithm, Global optimization, lcsh:TK1-9971

Abstract

Feature selection is an important pre-processing step in machine learning and data mining tasks, which improves the performance of the learning models by removing redundant and irrelevant features. Many feature selection algorithms have been widely studied, including greedy and random search approaches, to find a subset of the most important features for fulfilling a particular task (i.e., classification and regression). As a powerful swarm-based meta-heuristic method, particle swarm optimization (PSO) is reported to be suitable for optimization problems with continuous search space. However, the traditional PSO has rarely been applied to feature selection as a discrete space search problem. In this paper, a novel feature selection algorithm based on PSO with learning memory (PSO-LM) is proposed. The goal of the learning memory strategy is designed to inherit much more useful knowledge from those individuals who have higher fitness and offer faster progress, and the genetic operation is used to balance the local exploitation and the global exploration of the algorithm. Moreover, the $k$ -nearest neighbor method is used as a classifier to evaluate the classification accuracy of a particle. The proposed method has been evaluated on some international standard data sets, and the results demonstrated its superiority compared with those wrapper-based feature selection methods.

Published

2019

44. A roadmap towards a functional paradigm for learning & memory in plants

Author

Zoe Hilioti and Dimitrios Michmizos

Subjects

0106 biological sciences, 0301 basic medicine, Cognitive science, Physiology, Computer science, Information processing, Plant Development, Plant Science, Stimulus (physiology), 01 natural sciences, 03 medical and health sciences, 030104 developmental biology, Memory, Learning, Learning memory, Agronomy and Crop Science, Plant Physiological Phenomena, 010606 plant biology & botany

Abstract

In plants, the acquisition, processing and storage of empirical information can result in the modification of their behavior according to the nature of the stimulus, and yet this area of research remained relatively understudied until recently. As the body of evidence supporting the inclusion of plants among the higher organisms demonstrating the adaptations to accomplish these tasks keeps increasing, the resistance by traditional botanists and agricultural scientists, who were at first cautious in allowing the application of animal models onto plant physiology and development, subsides. However, the debate retains much of its heat, a good part of it originating from the controversial use of nervous system terms to describe plant processes. By focusing on the latest findings on the cellular and molecular mechanisms underlying the well established processes of Learning and Memory, recognizing what has been accomplished and what remains to be explored, and without seeking to bootstrap neuronal characteristics where none are to be found, a roadmap guiding towards a comprehensive paradigm for Learning and Memory in plants begins to emerge. Meanwhile the applications of the new field of Plant Gnosophysiology look as promising as ever.

Published

2019

45. Evaluation of learning memory activity of Unmad Gaja Kesari Rasa II in Animal Models

Author

Amit P. Jain

Subjects

Cognitive science, business.industry, Medicine, Learning memory, business

Abstract

In recent era there is competition in each and every field, so there is lot of mental stress or mental disorder seen. In modern medicine there are various drugs such as antipsychotic, antiepileptic, mood stabilizer etc. which have certain adverse effect such as drowsiness, dizziness, memory loss etc. But Ayurveda certainly has an answer, there are total 112 formulations mentioned in classical text for physco neurological disorder i.e., Unmad and Apasmar, out of these there are total 25 herbo-mineral formulations and Unmad Gaja Kesari Rasa II (UGK II) is one of them. Present study was done to evaluate Learning memory effect of Unmad Gaja Kesari Rasa II a herbo-mineral compound. Cook’s and widely model was used to evaluate learning memory activity. Total 30 wistar rats were classified into 5 groups each containing 6 rats. Human dose was extrapolated with extrapolating factor 0.018 and drug dose was given to control I and II, standard, test x and 2x group, after that learning and Relearning trails were given and avoidance, escape and no response was observed. It has been established that UGK II (Rasa Kamdhenu i.e.; R.K Unmad Chikitsa/9-12) has effective role in learning and memory activity.

Published

2020

46. Changes of Synaptic Structures Associated with Learning, Memory and Diseases

Author

Yi Zuo, Ju Lu, and Yang Yang

Subjects

0301 basic medicine, Cellular basis, Polymers and Plastics, Sensory system, Biology, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Synaptic plasticity, Sensory deprivation, Learning memory, Neuroscience, 030217 neurology & neurosurgery, General Environmental Science

Abstract

Synaptic plasticity is widely believed to be the cellular basis of learning and memory. It is influenced by various factors including development, sensory experiences, and brain disorders. Long-term synaptic plasticity is accompanied by protein synthesis and trafficking, leading to structural changes of the synapse. In this review, we focus on the synaptic structural plasticity, which has mainly been studied with in vivo two-photon laser scanning microscopy. We also discuss how a special type of synapses, the multi-contact synapses (including those formed by multi-synaptic boutons and multi-synaptic spines), are associated with experience and learning.

Published

2018

47. Environmental enrichment affects the ontogeny of learning, memory, and depth perception of the pharaoh cuttlefish Sepia pharaonis

Author

Haruhiko Yasumuro and Yuzuru Ikeda

Subjects

0106 biological sciences, Cuttlefish, Sepia, Isolated environment, Ontogeny, Zoology, Environment, 010603 evolutionary biology, 01 natural sciences, Predation, 03 medical and health sciences, 0302 clinical medicine, Memory, Animals, Learning, Learning memory, Sepia pharaonis, Depth Perception, Environmental enrichment, Behavior, Animal, biology, Age Factors, biology.organism_classification, Animal Science and Zoology, Depth perception, 030217 neurology & neurosurgery

Abstract

We investigated the effects of environmental enrichment on the cognitive abilities of pharaoh cuttlefish, Sepia pharaonis, which were reared from day seven in four different environments: isolated, poor, standard, and enriched. First, we used "prawn-in-the-tube" to test whether environmental enrichment affects the ontogeny of learning and memory of S. pharaonis. The results showed that cuttlefish could usually learn the task regardless of their age and environment. At early age (74 - 81 d), cuttlefish from the isolated environment memorized the task for 24h. However, at later age (104 - 171 d), the isolated cuttlefish were unable to remember the task. In addition, cuttlefish from the poor environment could not memorize the task at all ages examined. Cuttlefish from the standard environment could memorize the task in later ages (134 - 171 d). In contrast, cuttlefish from the enriched environment could memorize the task at all ages examined. Second, we examined the effect of environmental enrichment on the ontogeny of depth perception of S. pharaonis by observing their hunting behavior. Distance from the prey during hunting was always greater in isolated cuttlefish than those from the other three environments. In addition, hunting success and number of prey captured were always lowest in the isolated cuttlefish for all ages. In contrast, hunting success was always the highest in cuttlefish from the enriched environment. These variations in behavior among cuttlefish raised in different environments suggest that the visual/tactic input derived from social and physical factors of the surrounding environment could promote maturation of learning, memory, and depth perception in S. pharaonis.

Published

2018

48. A role for tau in learning, memory and synaptic plasticity

Author

Fabrizio Biundo, Ottavio Arancio, Dolores Del Prete, Luciano D'Adamio, and Hong Zhang

Subjects

0301 basic medicine, Male, Central nervous system, Short-term memory, lcsh:Medicine, tau Proteins, Biology, Hippocampus, Article, Pathogenesis, 03 medical and health sciences, Mice, 0302 clinical medicine, Alzheimer Disease, Memory, mental disorders, medicine, Dementia, Animals, Learning, Learning memory, Phosphorylation, lcsh:Science, Mice, Knockout, Neurons, Physiological function, Memory Disorders, Multidisciplinary, Neuronal Plasticity, lcsh:R, Brain, Neurofibrillary Tangles, medicine.disease, Mice, Inbred C57BL, 030104 developmental biology, medicine.anatomical_structure, Synaptic plasticity, lcsh:Q, Alzheimer's disease, Neuroscience, 030217 neurology & neurosurgery

Abstract

Tau plays a pivotal role in the pathogenesis of neurodegenerative disorders: mutations in the gene encoding for tau (MAPT) are linked to Fronto-temporal Dementia (FTD) and hyper-phosphorylated aggregates of tau forming neurofibrillary tangles (NFTs) that constitute a pathological hallmark of Alzheimer disease (AD) and FTD. Accordingly, tau is a favored therapeutic target for the treatment of these diseases. Given the criticality of tau to dementia’s pathogenesis and therapy, it is important to understand the physiological function of tau in the central nervous system. Analysis of Mapt knock out (Mapt−/−) mice has yielded inconsistent results. Some studies have shown that tau deletion does not alter memory while others have described synaptic plasticity and memory alterations in Mapt−/− mice. To help clarifying these contrasting results, we analyzed a distinct Mapt−/− model on a B6129PF3/J genetic background. We found that tau deletion leads to aging-dependent short-term memory deficits, hyperactivity and synaptic plasticity defects. In contrast, Mapt+/− mice only showed a mild short memory deficit in the novel object recognition task. Thus, while tau is important for normal neuronal functions underlying learning and memory, partial reduction of tau expression may have fractional deleterious effects.

Published

2018

49. Effects of Aluminum and Extremely Low Frequency Electromagnetic Radiation on Oxidative Stress and Memory in Brain of Mice.

Author

Deng, Yuanxin, Zhang, Yanwen, Jia, Shujie, Liu, Junkang, Liu, Yanxia, Xu, Weiwei, and Liu, Lei

Abstract

This study was aimed to investigate the effect of aluminum and extremely low-frequency magnetic fields (ELF-MF) on oxidative stress and memory of SPF Kunming mice. Sixty male SPF Kunming mice were divided randomly into four groups: control group, ELF-MF group (2 mT, 4 h/day), load aluminum group (200 mg aluminum/kg, 0.1 ml/10 g), and ELF-MF + aluminum group (2 mT, 4 h/day, 200 mg aluminum/kg). After 8 weeks of treatment, the mice of three experiment groups (ELF-MF group, load aluminum group, and ELF-MF + aluminum group) exhibited firstly the learning memory impairment, appearing that the escaping latency to the platform was prolonged and percentage in the platform quadrant was reduced in the Morris water maze (MWM) task. Secondly are the pathologic abnormalities including neuronal cell loss and overexpression of phosphorylated tau protein in the hippocampus and cerebral cortex. On the other hand, the markers of oxidative stress were determined in mice brain and serum. The results showed a statistically significant decrease in superoxide dismutase activity and increase in the levels of malondialdehyde in the ELF-MF group ( P < 0.05 or P < 0.01), load aluminum group ( P < 0.01), and ELF-MF + aluminum group ( P < 0.01). However, the treatment with ELF-MF + aluminum induced no more damage than ELF-MF and aluminum did, respectively. In conclusion, both aluminum and ELF-MF could impact on learning memory and pro-oxidative function in Kunming mice. However, there was no evidence of any association between ELF-MF exposure with aluminum loading. [ABSTRACT FROM AUTHOR]

Published

2013

50. Evaluating cognitive ability in the domestic dog, a review of learning, memory and attention

Author

L. R. Provoost, M. Casal, and C. Siracusa

Subjects

General Veterinary, Cognition, Learning memory, General Agricultural and Biological Sciences, Psychology, Nature and Landscape Conservation, Cognitive psychology

Abstract

Behavioural changes can be caused by pathology within any body system, while cognitive changes stem from alterations within the brain. A variety of cognition tests have been used to assess cognitive abilities in canines, with most research focusing on ageing processes. Learning and memory can be evaluated using such cognitive tasks that include, delayed non-match to position, sensory discrimination tasks, attention tasks and reversal learning tasks. The way in which an individual learns, stores and recalls information depends on their capacity of perception and memory. Ageing and disease can alter memory capabilities by affecting brain structures and neuronal pathways. The impact of various disease states upon cognition in dogs is unknown. The ability to understand the cognitive deficits associated with ageing and disease processes deepens our understanding of patient needs and provides new directions to evaluate treatments.

Published

2018