The amyloid beta ion channel hypothesis of Alzheimer’s disease
Authors Najeeb A Shirwany, Daniel Payette, Jun Xie, Qing Guo
Published 15 November 2007 Volume 2007:3(5) Pages 597—612
Najeeb A Shirwany, Daniel Payette, Jun Xie, Qing Guo
Department of Physiology, the University of Oklahoma Health Sciences Center, Oklahoma City, OK, USA
Abstract: Alzheimer’s disease (AD) is a leading cause of chronic dementia in the US. Its incidence is increasing with an attendant increase in associated health care costs. Since its first description in a patient by Dr. Alois Alzheimer over a century ago, a large body of biomedical literature has established a detailed clinical and molecular profile of this disorder. Amyloid β peptide (Aβ; a 39–42 amino acid molecule) is the major component of senile plaques, the lesions that are one of the pathologic hallmarks of AD (Wong et al 1985). Although many aspects of the biology of amyloid β have been investigated, several fundamental questions about how this peptide causes AD neuropathology remain unanswered. The key question is: How is Aβ toxic to cerebral neurons? Because plaques are extra-neuronal deposits, it is difficult to imagine a structural basis for their toxicity. As an interesting contrast the other pathognomonic feature of AD, neurofibrillary tangles, are intra-axonal structural anomalies that are composed of the hyperphosphorylated microtubule associated (MAP) protein, tau. This review will assess the current thinking that relates to a recent hypothesis of Aβ toxicity. In 1992, Hardy and Higgins reported findings that suggested a new and intriguing possibility. These authors found that Aβ peptides disrupt Ca2+ homeostasis in neurons and increase intracellular Ca2+ [Ca2+]i. This was corroborated by Mattson and his colleagues who demonstrated that Aβ exposure to human cortical neurons raised [Ca2+]i (Mattson, Cheng et al 1992); (Hardy and Higgins 1992). Finally, Nelson Arispe’s group at the NIH specifically investigated the possibility that Aβ peptides might function like Ca2+ ion channels (Arispe et al 1993). This and several subsequent studies have laid the foundation for a novel idea: “Aβ peptides are, in part, toxic to neurons because they form aberrant ion channels in neuronal membranes and thereby disrupt neuronal homeostasis”. In this review we shall critically examine this theory in light of classic and contemporary literature.
Keywords: Alzheimer’s disease, Aβ channels, ion channel hypothesis