Progesterone, administered before kainic acid, prevents decrements in cognitive performance in the Morris Water Maze

Sialic acids are postulated to improve cognitive abilities. This study aimed to evaluate the effects of sialic acid on behavior when administered in a free form as N-acetylneuraminic acid (Neu5Ac) to pregnant mothers or rat pups. The experiment involved 40 male 21-day-old rat pups and 20 15-day-pregnant rats that were randomized into four Neu5Ac treated groups: 0 (control), or 10, 20, and 40 mg/kg. Morris water maze test and shuttle box test were performed on the rat pups and maternal Neu5Ac-supplemented offspring on day 100 to evaluate their cognitive performance. The Neu5Ac levels in the cerebral cortex and hippocampus were tested with high-performance liquid chromatography-fluorescence detection (HPLC-FLD). We found that the maternal Neu5Ac-supplemented offspring showed better cognitive performance, less escape latency in the Morris water maze test, and less electric shock time shuttle box test, compared with the untreated control. In the meantime, the Neu5Ac level in the cerebral cortex and hippocampus of the offspring was higher in the Neu5Ac treatment group than that in the untreated control group. However, no significant differences were observed between rat pups in the treated and the untreated control groups in terms of cognitive performance and Neu5Ac content in the cerebral cortex and hippocampus. Maternal Neu5Ac supplementation during pregnancy could effectively promote the brain Neu5Ac content of the offspring and enhance their cognitive performance, but Neu5Ac had no such effect on rat pups while directly supplemented with Neu5Ac.

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The Effect of Omega-lycotoxin on the Cognitive Impairment Induced by Kainic Acid in Rats

Iranian Jornal of Toxicology ◽

10.32598/ijt.15.1.740.1 ◽

2021 ◽

Vol 15 (1) ◽

pp. 49-56

Author(s):

Ali Hosseini-Sharifabad ◽

◽

Mohammad Reza Mofid ◽

Majid Moradmand ◽

Mohammad Keimasi ◽

...

Keyword(s):

Cognitive Impairment ◽

Passive Avoidance ◽

Kainic Acid ◽

Morris Water Maze ◽

Water Maze ◽

Pathological Process ◽

Post Treatment ◽

Morris Water Maze Test ◽

Target Area ◽

Pre Treatment

Background: Excitotoxicity is a common pathological process in neurodegenerative diseases associated with overactivity of N-methyl-D-aspartate (NMDA) and P/Q type voltage-gated calcium (Cav2.1) channels. Omega-lycotoxin-Gsp2671g is a therapeutic tool to modulate overactive Cav2.1 (P/Q type) channels. Omega-lycotoxin binds to Cav2.1 channels with high affinity and selectivity. This study aimed to investigate the effects of Omega-lycotoxin on the cognitive impairment induced by kainic acid in rats. Methods: The effect of pre-treatment and post-treatment trials of intra-hippocampal Cornu Ammonis-3 administration of omega-lycotoxin (0.5, 1 or 2µg) was studied on the cognitive impairment induced by kainic acid in rats. The rats’ learning and memory were assessed by the passive avoidance and a single-day testing version of the Morris water maze method. Results: Omega-lycotoxin caused a significant increase in the latency of the passive avoidance test and the duration of their presence in the target area of the Morris water maze test compared to the groups treated with kainic acid (P<0.0001). There were statistically significant differences for the effects of various doses of omega-lycotoxin. The post-treatment groups showed a greater improvement than those in the pretreatment groups. Conclusion: The findings demonstrated that a single dose of omega-lycotoxin can prevent or revert the memory impairment caused by kainic acid in rats.

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P.1.g.001 Enhancement of cognitive performance by gabapentin in Morris water maze, elevated plus maze and passive avoidance tasks in naive mice

European Neuropsychopharmacology ◽

10.1016/s0924-977x(11)70522-3 ◽

2011 ◽

Vol 21 ◽

pp. S329

Author(s):

I. Komsuoglu Celikyurt ◽

O. Mutlu ◽

G. Ulak ◽

F. Akar ◽

F. Erden

Keyword(s):

Passive Avoidance ◽

Cognitive Performance ◽

Morris Water Maze ◽

Water Maze ◽

Elevated Plus Maze ◽

Plus Maze

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Genes associated with cognitive performance in the Morris water maze: an RNA-seq study

Scientific Reports ◽

10.1038/s41598-020-78997-6 ◽

2020 ◽

Vol 10 (1) ◽

Author(s):

Vasiliy V. Reshetnikov ◽

Polina E. Kisaretova ◽

Nikita I. Ershov ◽

Anastasia S. Shulyupova ◽

Dmitry Yu. Oshchepkov ◽

...

Keyword(s):

Cognitive Performance ◽

Morris Water Maze ◽

Ampa Receptor ◽

Water Maze ◽

Long Term Potentiation ◽

Rna Seq ◽

Glutamatergic Transmission ◽

Term Potentiation ◽

Alternatively Spliced

AbstractLearning and memory are among higher-order cognitive functions that are based on numerous molecular processes including changes in the expression of genes. To identify genes associated with learning and memory formation, here, we used the RNA-seq (high-throughput mRNA sequencing) technology to compare hippocampal transcriptomes between mice with high and low Morris water maze (MWM) cognitive performance. We identified 88 differentially expressed genes (DEGs) and 24 differentially alternatively spliced transcripts between the high- and low-MWM-performance mice. Although the sets of DEGs and differentially alternatively spliced transcripts did not overlap, both were found to be enriched with genes related to the same type of biological processes: trans-synaptic signaling, cognition, and glutamatergic transmission. These findings were supported by the results of weighted-gene co-expression network analysis (WGCNA) revealing the enrichment of MWM-cognitive-performance-correlating gene modules with very similar Gene Ontology terms. High-MWM-performance mice manifested mostly higher expression of the genes associated with glutamatergic transmission and long-term potentiation implementation, which are processes necessary for memory acquisition and consolidation. In this set, there were genes participating in the regulation of trans-synaptic signaling, primarily AMPA receptor signaling (Nrn1, Nptx1, Homer3, Prkce, Napa, Camk2b, Syt7, and Nrgn) and calcium turnover (Hpca, Caln1, Orai2, Cpne4, and Cpne9). In high-MWM-performance mice, we also demonstrated significant upregulation of the “flip” splice variant of Gria1 and Gria2 transcripts encoding subunits of AMPA receptor. Altogether, our data helped to identify specific genes in the hippocampus that are associated with learning and long-term memory. We hypothesized that the differences in MWM cognitive performance between the mouse groups are linked with increased long-term potentiation, which is mainly mediated by increased glutamatergic transmission, primarily AMPA receptor signaling.

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