Brain ageing : cognitive status and cortical synapses

Majdi, Maryam.

January 2009

This thesis focused on the spatiotemporal patterning of classical excitatory and inhibitory synaptic contacts accounting for the majority of cerebral cortical connections, in relation to ageing and cognitive status. These investigations tested the hypothesis that higher CNS functions depend on the balance between excitatory and inhibitory synaptic connections. Glutamatergic and GABAergic presynaptic bouton densities were determined in aged animals segregated according to their cognitive status into aged and cognitively unimpaired (AU) and aged and cognitively impaired (AI), using the Morris water maze. These two groups were compared in terms of behaviour and the pattern of excitatory and inhibitory synapses. It was evident that an excitatory and inhibitory presynaptic decline is associated with age-related cognitive impairments; whereby both glutamatergic and GABAergic boutons gradually diminish from young to AU to AI. Nevertheless, the balance between excitatory and inhibitory presynaptic inputs was maintained. To determine whether postsynaptic sites differed with respect to ageing and cognitive impairments, excitatory and inhibitory postsynaptic scaffold proteins were investigated in the same cohort of segregated aged animals. There was an imbalance in density ratio between immunoreactive sites of excitatory versus inhibitory postsynaptic scaffold proteins in AI animals. This resulted from a marked decrease in the density of excitatory postsynaptic sites. To further investigate ultrastructural aspects of excitatory synapses I carried out electron microscopical studies of cerebral cortex to measure the abundance of NR2 receptor subunits of the NMDA receptor- a receptor site directly associated with excitatory postsynaptic scaffold proteins. This study revealed that NR2 immunoreactive sites were largely preserved during age-related cognitive decline with an uneven profile distribution. Finally, protein expression of specific receptor subunits and key proteins representative of excitatory and inhibitory postsynaptic sites was investigated by semi-quantitative Western blot analyses in selected cortical areas. It was clear that many of these postsynaptic proteins are affected by age and cognitive status. The most striking change was a marked up-regulation in neuroligin-1 in AI animals, which may affect the delicate balance between excitatory versus inhibitory synaptic inputs. Another notable finding was the down-regulated expression of GluR2 receptor subunits in AI animals, which should have implications for neuronal Ca2+ regulation. In conclusion, we have demonstrated the greater vulnerability of excitatory postsynaptic sites in aged and cognitively impaired animals.

Aging -- physiology.

Cognition Disorders -- metabolism.

Cerebral Cortex -- metabolism.

Synapses -- metabolism.

Rats.

Implication of a novel nerve growth factor (NGF) maturation and degradation cascade in the Fischer-344 rat model of age-associated memory deficits

Bossy, Tanya.

January 2009

Despite the overwhelming evidence for atrophy of the NGF-dependant Basal Forebrain Cholinergic neurons during aging, there is no persuasive evidence towards a decrease in NGF and/or NGF mRNA content in the brain of aged animals. Previous experiments from our laboratory have shown that NGF is released as a precursor protein and cleaved into the mature form in the extracellular space under the influence of a complex protease cascade. These recent findings have lead us to propose that any alterations in levels and/or activity of this maturation/degradation cascade might affect NGF's biological activity and perhaps lead to cognitive impairments in a subset of aged rats. To investigate this possibility, we measured protein and mRNA levels of the protease cascade players (NGF, pro-NGF, tPA, plasminogen, plasmin, MMP-9, neuroserpin). We found significantly decreased levels of both pro-NGF protein and NGF mRNA, but no difference in the remaining elements of the protease cascade, when comparing aged impaired (Al) to the aged unimpaired (AU) animals. Our second objective was to investigate whether animals trained in the Morris Water Maze would preserve their cognitive status in two additional behavioral paradigms, the Novel Object Location (NOL, spatial memory) and Novel Object Recognition (NOR, nonspatial memory) tasks. We found that both AU and AI animals in the MWM were impaired in the NOL when compared to the young controls, with the AI animals performing significantly worse than the AU in this particular task. In the NOR tasks, AI animals performed significantly worse compared to both young and AU animals. In conclusion, further experiments are required to better understand the implication of the complex protease cascade involved in NGF's maturation and degradation as well as its effect on memory of aged animals. In addition, because the segregation of animals (aged impaired/unimpaired) is a crucial step in aging research, we now have additional behavioral paradigms (NOL/NOR) that confirm the cognitive status of these animals.

Aging -- metabolism.

Cognition Disorders -- metabolism.

Memory Disorders -- metabolism.

Nerve Growth Factors -- metabolism.

Rats.

Rats, Inbred F344.

Brain ageing : cognitive status and cortical synapses

Majdi, Maryam.

January 2009

No description available.

Rats.

Cerebral Cortex -- metabolism.

Cognition Disorders -- metabolism.

Aging -- physiology.

Synapses -- metabolism.

Implication of a novel nerve growth factor (NGF) maturation and degradation cascade in the Fischer-344 rat model of age-associated memory deficits

Bossy, Tanya.

January 2009

No description available.

Aging -- metabolism.

Memory Disorders -- metabolism.

Cognition Disorders -- metabolism.

Rats, Inbred F344.

Rats.

Nerve Growth Factors -- metabolism.