Investigation Of The Potential Correlation Between The Cognitive Performance And Levels Of Brain Fatty Acids In Young And Aged Mice

Yetimler, Berrak

01 March 2011

The aim of the present study was to elucidate the possible relationship between the levels of various brain fatty acids and learning indices in aged and young mice classified as &ldquo / good&rdquo / or &ldquo / poor&rdquo / learners basing on their performance in a spatial learning task, the Morris Water Maze. The levels of several fatty acids including palmitic, stearic, oleic, linoleic, arachidonic acid (AA) and docosahexaenoic acid (DHA) were measured using gas chromatography separately in samples from four different brain areas: hippocampus, cortex, striatum and hypothalamus. The level of oleic acid in the cerebral cortex was significantly higher in young-good learners as compared to young-poor learners and higher in young-poor learners than in old-poor learners, with no significant difference in the concentration of this acid between old-good and old-poor learners. The most consistent correlation between animals&rsquo / learning capacity and brain fatty acid&rsquo / level was found for the arachidonic acid in the hippocampal region: AA level was significantly lower in young-good learners as compared to both young-poor learners&rdquo / and old-good learners&rdquo / with young-good learners showing significantly better performance than the two other groups. Interestingly, except hypothalamus, no significant between-group differences were recorded for the remaining fatty acids including DHA, in none of the four brain regions examined.

QH General Biology 301-705

Effects Of Prenatal Alcohol Exposure On Activity, Anxiety And Learning In Young Adult Wistar Rats

Dursun, Ilknur

01 January 2005

The objective of the present study was to examine the effects of prenatal exposure to alcohol on sensorimotor coordination, emotionality, learning and memory in young adult Wistar rats. Most of the recent reports concerning behavioral effects of fetal alcohol exposure refer to the juvenile period of life and very few studies investigated different aspects of behavior simultaneously in the same subjects. In the current study, alcohol was delivered to the pregnant dams by intragastric infusions, throughout gestation days (GD) 7-20, at the dose of 6g /kg maternal body weight /day. This dose resulted in relatively high peak blood alcohol concentration (340 mg/dl) as assessed on GD 20. A pair-fed isocaloric and untreated control groups were included. Prenatal alcohol administration retarded dams&rsquo / weight gain significantly, and had an adverse effect on pups&rsquo / weight at birth but not in adulthood. No between-group differences were observed in the litter size and in the pups&rsquo / mortality. The adult brain weight was neither affected. Pups were subjected to a series of behavioural tests as young adults (at 2.5 months of age). In adulthood, rats prenatally treated with alcohol were not impaired in sensorimotor coordination and/or did not show muscle weakness as assessed by rotarod/accelerod tests. Their behavior in the open field and plus maze suggested alcohol-induced increase in iv anxiety level and some decrease in behavioral flexibility, but hyperactivity was not observed. In cognitive tasks, alcohol treated rats showed slightly slower rate of initial place learning in the water maze. However, memory retention tested after 1 and 10-day delay, reversal learning, rate of extinction of place preference, as well as working memory capacity appeared to be the same in alcohol exposed and control rats. The possible reasons of this negative result are discussed.

QH General Biology 301-705

Exercise-induced adult hippocampal neurogenesis and the effect of exercise and adult hippocampal neurogenesis on spatial learning and memory

Sturesson, André

January 2018

It was long believed within the scientific community that the adult brain was unable to generate new neurons. In the end of the 1990s the consensus changed and it is since believed that the adult brain can and does generate new neurons after birth, a process referred to as adult neurogenesis. Adult neurogenesis takes place in two places in the adult brain: the subventricular zone (SVZ) in close proximity to the olfactory bulb and the subgranular zone (SGZ) in the hippocampus. The level of adult hippocampal neurogenesis (AHN) can be upregulated and one part of the aim was to examine the effect of voluntary chronic aerobic exercise (VCAE) on AHN. It is clear that voluntary chronic aerobic exercise reliably increases AHN. Still, the function of these new brain cells is under debate. Spatial learning and memory are among the main abilities that have been focused on. The other part of the aim was to examine the effect of VCAE and AHN on spatial learning and memory. The reviewed literature suggests that both AHN and spatial learning and memory increase together from VCAE, although it does not show causation, that an increase of AHN from VCAE causally effects spatial learning and memory. More studies are needed to investigate if a causal relationship exists.

adult hippocampal neurogenesis

AHN

exercise

exercise-induced AHN

spatial learning and memory

Other Biological Topics

Annan biologi

Visual Spatial Learning and Memory in Fragile X Syndrome and fmr1 Knockout Mice

MacLeod, Lindsey

January 2013

This dissertation describes separate but related studies that explore visual spatial learning and memory in Fragile X Syndrome. Across all studies, either the performance of individuals affected by FXS and/or fmr1 KO mice was compared to comparison controls on seven H-W mazes of increasing difficulty levels. Study one employed the traditional configuration of the H-W mazes to evaluate performance variables that include latency to complete the maze and number of the errors. The results of study 1 revealed significant differences in performance for both FXS groups as compared to mental age-matched comparison individuals and wild type mice, respectively. In contrast to the FXS group, performance of the comparison group improved as indicated by significantly fewer errors across trials. A similar pattern of results was observed when latency across trials was analyzed. Taken together, the results of study one support the hypothesis that a selective deficit in spatial learning and memory characteristic of the FXS phenotype can be observed in the murine model of FXS, if equivalent tasks are employed in testing humans and mice. Study two expanded on these findings by adding landmarks to the maze environment to evaluate how these may impact spatial learning and memory in fmr1 KO mice. Contrary to our hypotheses, landmarks significantly impaired wild type control performance. In addition, results revealed that the performance of the fmr1 KO mice generally did not differ between landmark and non-landmark tasks, indicating that the presence of landmarks neither enhanced nor hindered mouse performance. Lastly, study three entailed a more in-depth behavior analysis of maze navigation performance for FXS individuals from study 1. Consistent with the hypotheses and findings from study 1, results revealed significant differences in performance variables between individuals, with FXS participants generally performing worse than the comparison group participants. Taken together, the results of study 3 generally supported the hypothesis that there was greater impairment in performance for individuals affected by FXS as compared to controls. This impairment was evident in the pattern of pathways taken to solve H-W mazes, consistent with the notion that affected individuals employed different behavioral strategies.

Fragile X Syndrome

spatial learning and memory

fmr1 KO

hippocampus

Hebb-Williams Mazes

behavioural testing

The Relationship Between Adult Hippocampal Neurogenesis and Spatial Learning and Memory in Natural Populations of Food-storing Red Squirrels (Tamiasciurus hudsonicus).

Johnson, Kristin Margaret

24 February 2009

Previous research on the relationship between spatial memory and adult hippocampal neurogenesis has been controversial. In the present study, neurogenesis was compared between two natural populations of the same species that differ in their reliance on spatial memory to cache and retrieve stored food. Western red squirrels store food in a single site whereas eastern red squirrels store food in multiple sites. Neurogenesis was assessed using endogenous markers of the number of proliferating cells (Ki-67) and the number of immature neurons (DCX), and neuronal recruitment was determined by measuring the area of the dentate gyrus of the hippocampus. The number of proliferating cells, immature neurons and neuronal recruitment were enhanced in the eastern compared to the western red squirrels, reflecting the food storing strategies used by the squirrels. This suggests that there is a positive correlation between adult hippocampal neurogenesis and spatial learning and memory.

adult neurogenesis

hippocampus

dentate gyrus

spatial learning and memory

red squirrels

food-storing

immunohistochemistry

Ki-67

DCX

NeuN

0317

Molecular Mechanisms Of Neuroinflammation Following Global Cerebral Ischemia: The Role of Hypothermia Therapy

Nguyen, Anh Thi Ngoc

15 December 2011

Hypothermia therapy (HT) is used clinically following global cerebral ischemia (GCI) but its therapeutic mechanisms are not completely understood. An elucidation of such mechanisms may lead to novel therapeutic approaches that improve patient outcome. Using a murine model of GCI, we determined the effect of HT on the expression of inflammatory proteins in the hippocampus and serum. We also examined its effect on microglia/macrophage activation and neurodegeneration in the brain at 72 hours following ischemia, and its effect on long-term spatial memory/learning and contextual fear response. GCI led to increased neurodegeneration and microglia/macrophage activation in the hippocampus, and increased IL-1β and KC protein expression in the hippocampus at 72 hours. Hypothermia therapy attenuated these inflammatory responses. It also improved spatial learning/memory at 7 and 21 days, and preserved contextual fear response 21 days post-ischemia. Hypothermia therapy attenuated the post-ischemic inflammatory response, protected hippocampal neurons, and preserved long-term memory and learning.

hypothermia

cerebral ischemia

inflammation

neurodegeneration

cardiac arrest

cytokines

chemokines

adhesion molecules

spatial learning and memory

fear learning and memory

0317

Molecular Mechanisms Of Neuroinflammation Following Global Cerebral Ischemia: The Role of Hypothermia Therapy

Nguyen, Anh Thi Ngoc

15 December 2011

Hypothermia therapy (HT) is used clinically following global cerebral ischemia (GCI) but its therapeutic mechanisms are not completely understood. An elucidation of such mechanisms may lead to novel therapeutic approaches that improve patient outcome. Using a murine model of GCI, we determined the effect of HT on the expression of inflammatory proteins in the hippocampus and serum. We also examined its effect on microglia/macrophage activation and neurodegeneration in the brain at 72 hours following ischemia, and its effect on long-term spatial memory/learning and contextual fear response. GCI led to increased neurodegeneration and microglia/macrophage activation in the hippocampus, and increased IL-1β and KC protein expression in the hippocampus at 72 hours. Hypothermia therapy attenuated these inflammatory responses. It also improved spatial learning/memory at 7 and 21 days, and preserved contextual fear response 21 days post-ischemia. Hypothermia therapy attenuated the post-ischemic inflammatory response, protected hippocampal neurons, and preserved long-term memory and learning.

hypothermia

cerebral ischemia

inflammation

neurodegeneration

cardiac arrest

cytokines

chemokines

adhesion molecules

spatial learning and memory

fear learning and memory

0317

The Relationship Between Adult Hippocampal Neurogenesis and Spatial Learning and Memory in Natural Populations of Food-storing Red Squirrels (Tamiasciurus hudsonicus).

Johnson, Kristin Margaret

24 February 2009

Previous research on the relationship between spatial memory and adult hippocampal neurogenesis has been controversial. In the present study, neurogenesis was compared between two natural populations of the same species that differ in their reliance on spatial memory to cache and retrieve stored food. Western red squirrels store food in a single site whereas eastern red squirrels store food in multiple sites. Neurogenesis was assessed using endogenous markers of the number of proliferating cells (Ki-67) and the number of immature neurons (DCX), and neuronal recruitment was determined by measuring the area of the dentate gyrus of the hippocampus. The number of proliferating cells, immature neurons and neuronal recruitment were enhanced in the eastern compared to the western red squirrels, reflecting the food storing strategies used by the squirrels. This suggests that there is a positive correlation between adult hippocampal neurogenesis and spatial learning and memory.

adult neurogenesis

hippocampus

dentate gyrus

spatial learning and memory

red squirrels

food-storing

immunohistochemistry

Ki-67

DCX

NeuN

0317

Effects Of Chronic Ethanol Consumption On Memory And Molecular Changes In The Hippocampus Of Young Adult Wistar Rats

Elibol, Birsen

01 September 2007

The aim of the present study was to examine retention of spatial reference memory after 6 (Experiment I) and 15days (Experiment II) of binge-like drinking and during alcohol withdrawal in young adult Wistar rats. Prior to alcohol treatment, rats received Morris Water Maze (MWM) training. Afterwards, rats were intragastrically administered ethanol at the dose increasing from 4.5g-to-12g/kg. Intubation control groups (n=7 and n=10, respectively) received infusions of a sucrose solution without ethanol. Subsequently, all subjects were given a single probe trial in the MWM to test memory retention. In both experiments, there were three alcohol groups: A0 group (n=7) tested 4h after the last alcohol administration for acute effects of ethanol / A24 group (n=7) tested 24h after alcohol cessation, when acute ethanol effects disappear but withdrawal symptoms does not develop yet / A72 group (n=7) tested 72h after the last ethanol infusion for withdrawal effects. Finally, potential molecular changes in hippocampus were examined using Fourier Transform Infra-Red (FT-IR) spectroscopy. The blood alcohol concentration was 605.67&plusmn / 36mg/dl. In Experiment I, due to the low overall level of performance in the memory retention task the behavioral effects of ethanol could not be evaluated and no significant between&ndash / group differences were observed in Experiment II. In Experiment I, no significant changes in the molecular make-up of the hippocampus were noted. Conversely, in Experiment II, significant changes in protein, lipid, and nucleic acid profiles related to ethanol intake and withdrawal were found. They are linked to both development of tolerance to ethanol and adverse withdrawal effects.

確認PIAS1在促進大鼠空間學習與記憶的嶄新角色之探討 / Identification of a novel role of PIAS1 in facilitation of spatial memory formation in rats

劉彥呈

Unknown Date

本實驗室於先前利用莫氏水迷津試驗篩選學習快與學習慢的大白鼠，取出其海馬迴組織並進行聚合酶連鎖反應差異顯示(PCR differential display)，結果顯示學習快與學習慢的大白鼠背側海馬迴之間共有98個cDNA片段有差異表現。把這些cDNA片段進行定序並利用BLAST資料庫比對，其中一個cDNA片段為大白鼠的pias1 [protein inhibitor of activated STAT1 (signal transducer and activator of transcription 1)] 基因。為了瞭解pias1基因的表現是否和空間學習有所關聯，隨機把大白鼠分成兩組，一組為有訓練組別(有空間線索與隱藏式平台)，另一組為無訓練的組別(沒有平台，作為游泳的控制組)同時進行莫氏水迷津學習試驗。試驗完畢，取出海馬迴組織進行即時定量聚合酶連鎖反應與西方墨點法來分析PIAS1的mRNA與蛋白質的表現。結果顯示有水迷津訓練的大白鼠，其PIAS1的mRNA與蛋白質表現皆明顯的高於無訓練的組別。為了更進一步確認PIAS1在空間學習中所扮演的角色，我們利用基因轉染的技術，轉染PIAS1 siRNA至大白鼠海馬迴CA1區域抑制PIAS1的表現。我們發現轉染PIAS1 siRNA至CA1區域會抑制大白鼠在水迷津的行為表現，然而轉染野生型的PIAS1質體基因至CA1區域卻會增進水迷津試驗的學習能力，同時我們也以西方墨點法發現，當轉染PIAS1 siRNA會增加STAT1 Tyr701的磷酸化，而轉染PIAS1 WT則會抑制STAT1 Tyr701的磷酸化。為了探討PIAS1促進記憶形成的分子機制，我們發現當轉染突變型的STAT1 Y701F質體基因至CA1區域，會抑制PIAS1 siRNA所造成記憶的損害。這些實驗結果代表著PIAS1會抑制STAT1 Tyr701的磷酸化，而PIAS1促進記憶的形成可能是藉由抑制STAT1 Tyr701的磷酸化而達成。另外，我們也單獨轉染突變型的STAT1 Y701F質體基因至CA1區域，水迷津實驗結果顯示會促進空間記憶的形成。目前PIAS1在免疫的角色已有許多研究證實，但是本篇研究是第一個提出PIAS1會參與哺乳類動物學習與記憶形成探討。 / Our laboratory has previously identified 98 cDNA fragments by using PCR differential display from rat dorsal hippocampus that are differentially expressed between fast learners and slow learners from the water maze learning task. After sequencing and BLAST analysis, one of these cDNA fragments encodes the rat pias1 [protein inhibitor of activated STAT1 (signal transducer and activator of transcription 1)] gene. In order to determine whether pias1 gene expression is associated with spatial learning, naïve rats were randomly assigned to the trained group (with visual cues and platform been present) and the non-trained group (without the platform as the swimming control). The dorsal hippocampus from these animals was dissected out at the end of the training and was subjected to RNA and protein extraction for real-time PCR and Western blot analysis of PIAS1 expression, respectively. Results revealed that the pias1 mRNA level and protein level was both higher in the hippocampus of trained rats than non-trained rats. To further examine the role of PIAS1 involved in spatial learning and memory, the specific PIAS1 siRNA was used to knockdown the expression of PIAS1 in rat hippocampal CA1 region. We found that transfection of PIAS1 siRNA to the CA1 area impaired water maze performance, whereas transfection of the wild-type PIAS1 DNA plasmid to the CA1 area facilitated water maze performance in rats. Meanwhile, PIAS1 siRNA increased STAT1 phosphorylation at Tyr701 whereas PIAS1 WT decreased STAT1 phosphorylation at this residue. In the examination of molecular mechanism underlying PIAS1-mediated memory facilitation, we have found that transfection of the STAT1 Y701F mutant plasmid antagonized the memory-impairing effect of PIAS1 siRNA, whereas transfection of STAT1 Y701F alone facilitated spatial memory formation. These results together suggest that one of the molecular mechanisms underlying PIAS1-mediated memory facilitation is through decreased STAT1 phosphorylation at Tyr701. All these manipulations did not affect visible platform learning in rats. In addition to the well documented role of PIAS1 in the immune system, here we have been the first to demonstrate a novel role of PIAS1 involved in spatial memory formation in rats.

空間學習與記憶

莫氏水迷津試驗

西方墨點法

海馬迴

Spatial learning and memory

Morris water maze

Western blot

Hippocampus

PIAS1

STAT1