The chemistry of aluminum and silicon in relation to Alzheimer's disease

Abstract

Aluminosilicates have been identified at the core of senile plaque in Alzheimer's disease, and aluminum has been found within neurons bearing neurofibrillary tangles. Here we show that aluminum species interact with silicic acid, Si(OH)4 - a normal component of plasma - to form aluminosilicate species solubilized by citrate. A switch in the binding of aluminum from silicate to phosphate at pH < 6.6 calls attention to the strong binding of cationic aluminum species to proximate phosphate groups, as in the inositol phosphates, and to the potential effect on the activity of the phosphoinositide-derived intracellular messenger system. The chemistry may throw light on the debated relationship between aluminum and Alzheimer's disease.