Neurobiological Mechanisms of Memory Loss in Alzhe.. (MEMOLOAD)
Neurobiological Mechanisms of Memory Loss in Alzheimer's Disease
Start date: Feb 1, 2008,
End date: Jul 31, 2013
"The MEMOLOAD project will focus on the molecular and biological mechanisms underlying memory loss that occurs in Alzheimer’s disease, the leading cause of dementia and an enormous medical, social and economic challenge to Europe. Several lines of evidence point to accumulation of beta-amyloid peptide (Aß) in the brain as the key pathologic event in the disease. There is growing evidence that Aß causes memory loss by directly or directly interacting with the known key signalling pathways involved in memory consolidation. However, at present the data is fragmentary and consists mainly of single observations in particular models (cell culture, brain slice, in vivo). In most cases, we still lack the evidence that a clear molecular level interaction translates into memory impairment in vivo. The objective of this proposal is to elucidate the molecular level mechanisms by which accumulation of Aß in the brain results in impaired synaptic plasticity and memory loss. The MEMOLOAD consortium consists of a well-balanced mixture of the seven best available European research groups in terms of research experience on both the mechanisms of memory consolidation and the pathophysiology of Alzheimer’s disease. The current research topic is thus the primary research interest of all partners. MEMOLOAD will significantly contribute to a better understanding of brain memory mechanisms at the behavioural, network, synaptic and molecular levels and of dysfunction at all these levels in Alzheimer’s disease (AD). The knowledge acquired during the course of MEMOLOAD will translate into new validated in vitro and in vivo models for the memory impairing effect of Aß and will feed into industrial development leading to new therapies. The output of MEMOLOAD will include both identification of new drug targets and development of novel peptidomimetic compounds that neutralize the deleterious effects of most harmful Aß species."
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