Gunnar K Gouras1, Katarina Willén, Davide Tampellini. 1. Experimental Dementia Research Unit, BMC-B12, Wallenberg Neuroscience Center, Department of Experimental Medical Science, Lund University, Sölvegatan 19, 221 84 Lund, Sweden. gunnar.gouras@med.lu.se
Abstract
AIMS: Multiple lines of evidence have implicated β-amyloid (Aβ) in the pathogenesis of Alzheimer's disease (AD). However, the mechanism(s) whereby Aβ is involved in the disease process remains unclear. The dominant hypothesis in AD has been that Aβ initiates the disease via toxicity from secreted, extracellular Aβ aggregates. More recently, an alternative hypothesis has emerged focusing on a pool of Aβ that accumulates early on within AD vulnerable neurons of the brain. Although the topic of intraneuronal Aβ has been of major interest in the field, technical difficulties in detecting intraneuronal Aβ have also made this topic remarkably controversial. Here we review evidence pointing to the critical role of intraneuronal Aβ in AD and provide insights both into challenges faced in detecting intracellular Aβ and the prion-like properties of Aβ. MAIN METHODS: Immunoprecipitation and Western blot are used for Aβ detection. KEY FINDINGS: We highlight that a standard biochemical method can underestimate intraneuronal Aβ and that extracellular Aβ can up-regulate intracellular Aβ. We also show that detergent can remove intraneuronal Aβ. SIGNIFICANCE: There is a growing awareness that intraneuronal Aβ is a key pathogenic pool of Aβ involved in causing synapse dysfunction. Difficulties in detecting intraneuronal Aβ are an insufficient reason for ignoring this critical pool of Aβ.
AIMS: Multiple lines of evidence have implicated β-amyloid (Aβ) in the pathogenesis of Alzheimer's disease (AD). However, the mechanism(s) whereby Aβ is involved in the disease process remains unclear. The dominant hypothesis in AD has been that Aβ initiates the disease via toxicity from secreted, extracellular Aβ aggregates. More recently, an alternative hypothesis has emerged focusing on a pool of Aβ that accumulates early on within AD vulnerable neurons of the brain. Although the topic of intraneuronal Aβ has been of major interest in the field, technical difficulties in detecting intraneuronal Aβ have also made this topic remarkably controversial. Here we review evidence pointing to the critical role of intraneuronal Aβ in AD and provide insights both into challenges faced in detecting intracellular Aβ and the prion-like properties of Aβ. MAIN METHODS: Immunoprecipitation and Western blot are used for Aβ detection. KEY FINDINGS: We highlight that a standard biochemical method can underestimate intraneuronal Aβ and that extracellular Aβ can up-regulate intracellular Aβ. We also show that detergent can remove intraneuronal Aβ. SIGNIFICANCE: There is a growing awareness that intraneuronal Aβ is a key pathogenic pool of Aβ involved in causing synapse dysfunction. Difficulties in detecting intraneuronal Aβ are an insufficient reason for ignoring this critical pool of Aβ.
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