Alzheimer's β-Amyloid Protein Is Covalently Modified when Dissolved in Formic Acid

beta-Amyloid protein is a major protein component of neuritic plaques in the brain of Alzheimer's disease patients. A major advance in understanding the molecular biology of Alzheimer's disease came with the purification and sequencing of this protein. Because beta-amyloid protein is very insoluble, extreme conditions such as 88% formic acid were commonly used to dissolve its fibrils. We now report that 88% formic acid covalently modifies beta-amyloid protein fragments, probably by the formation of a formate ester to a serine in the protein. The t1/2 of the formylation is approximately 3.5 h, and the t1/2 for hydrolysis of the formylated peptide is much longer, being 9.9 h in water and 66 h in HPLC eluant. This suggests that if formic acid is used in the purification of beta-amyloid protein or peptide fragments of this protein, it is likely that some formylated peptide will be present in subsequent studies. Although unrecognized modification of a protein is inherently undesirable, it is uncertain what effects this formylation will have on ensuing studies. Certainly, investigations into the immunologic, physical, and physiologic properties of beta-amyloid protein could be influenced.