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Moloney, AM; Griffin, RJ; Timmons, S; O'Connor, R; Ravid, R; O'Neill, C;
2010
January
Neurobiology of Aging
Defects in IGF-1 receptor, insulin receptor and IRS-1/2 in Alzheimer's disease indicate possible resistance to IGF-1 and insulin signalling
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Alzheimer's disease Insulin like growth factor-1 receptor Insulin receptor Insulin receptor substrate proteins Signalling GROWTH-FACTOR-I PROMOTES TAU-PHOSPHORYLATION FIBRILLARY ACIDIC PROTEIN CENTRAL-NERVOUS-SYSTEM TRANSGENIC MICE LIFE-SPAN MULTIPLE-SCLEROSIS FACTOR EXPRESSION DEGRADING ENZYME IRS PROTEINS
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Insulin like growth factor-I receptor (IGF-1R) and insulin receptor (IR) signalling control vital growth, survival and metabolic functions in the brain. Here we describe specific and significant alterations in IGF-1R, IR, and their key substrate adaptor proteins IRS-1 and IRS-2 in Alzheimer's disease (AD). Western immunoblot analysis detected increased IGF-1R levels, and decreased levels of IGF-1-binding protein-2 (IGFBP-2), a major IGF-1-binding protein, in AD temporal cortex. Increased IGF-1R was observed surrounding and within amyloid-beta (A beta)-containing plaques, also evident in an animal model of AD, and in astrocytes in AD. However, despite the overall increase in IGF-1R levels, a significantly lower number of neurons expressed IGF-1R in AD, and IGF-1R was aberrantly distributed in AD neurons especially evident in those with neurofibrillary tangles (NFTs). IR protein levels were similar in AD and control cases, however, the IR was concentrated intracellularly in AD neurons, unlike its distribution throughout the neuronal cell soma and in dendrites in control brain. Significant decreases in IRS-1 and IRS-2 levels were identified in AD neurons, in association with increased levels of inactivated phospho(Ser312)IRS-1 and phospho(Ser616)IRS-1, where increased levels of these phosphoserine epitopes colocalised strongly with NFTs. Our results show that IGF-1R and IR signalling is compromised in AD neurons and suggest that neurons that degenerate in AD may be resistant to IGF-1R/IR signalling. (C) 2008 Elsevier Inc. All rights reserved.
DOI 10.1016/j.neurobiolaging.2008.04.002
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