Introduction: Glycogen synthase kinase-3 (GSK-3) is recognized as a crucial player in many cellular functions and its activity is tightly controlled by complex mechanisms that are each dependent upon specific signaling pathways. Furthermore, GSK-3 dysfunction has been linked to a number of pathologies, including Alzheimer's disease (AD). In particular, the involvement of GSK-3 in several key pathophysiological pathways leading to AD and neurodegenerative diseases has placed this enzyme in a central position in this disorder.
Areas covered: This article offers a review of the relationship between GSK-3 and AD with a special focus on recent evidence showing a key role of GSK-3 activity in modulating cellular pathways controlling amyloid formation, especially through the control of β-site APP-cleaving enzyme 1 gene expression, as well as its role as a key regulator of neurogenesis.
Expert opinion: GSK-3 appears to be a cellular nexus, integrating several signaling systems, including several second messengers and a wide selection of cellular stimulants. The next few years will certainly bring us further insights into the cellular functions of this fascinating enzyme and its potential as a therapeutic target in AD and other neurological disorders.