Recognition of Alzheimer paired helical filaments by monoclonal neurofilament antibodies is due to crossreaction with tau protein.

Abstract

Neurofibrillary tangles and senile plaques are the principal pathological features of Alzheimer disease. Neurofibrillary tangles and the neurites of senile plaques contain paired helical filaments (PHF) that consist of two 10-nm filaments twisted into a double helix. The precursor proteins of PHF are not fully known. To identify these precursors, numerous immunochemical studies have been carried out during the past decade. Two apparently conflicting results have been reported. (i) Some, but not all, monoclonal antibodies to neurofilaments stained neurofibrillary tangles. (ii) Polyclonal antibodies prepared to PHF purified in NaDodSO4 because of their unusual insolubility did not recognize normal proteins, including neurofilaments, on electrophoretic transfer blots of human brain homogenates. These results have been confirmed in several laboratories, including by the use of electron microscopic labeling. Recently, we reported that polyclonal PHF antibodies include antibodies to tau proteins, a family of heat-stable microtubule-associated phosphoproteins, and that antibodies to tau stain Alzheimer neurofibrillary tangles. Those monoclonal neurofilament antibodies that recognize tangles are reported to be directed against phosphorylated epitopes. These facts prompted us to reexamine certain neurofilament monoclonal antibodies that stain neurofibrillary tangles. All monoclonal neurofilament antibodies that stain tangles that we examined, including those initially reported, reacted with tau proteins. Our results suggest that these antibodies react with phosphorylated tau proteins in PHF, not neurofilament proteins, highlighting the problem of using antibodies to phosphorylated protein epitopes in immunochemical studies. Independent evidence for the presence of neurofilament proteins in human paired helical filaments is now required.