ALZHEIMER'S DISEASE AND BRAIN DEVELOPMENT: COMMON MOLECULAR PATHWAYS

Kelly Jordan-Sciutto and Robert Bowser

Department of Pathology, University of Pittsburgh School of Medicine. Pittsburgh, PA 15261

Received 11/9/97 Accepted 11/15/97

1. ABSTRACT

Research on the causes and treatments of Alzheimer's disease (AD) has led investigators down numerous avenues. Although many models have been proposed, no single model of AD satisfactorily accounts for all neuropathologic findings as well as the requirement of aging for disease onset. The mechanisms of disease progression are equally unclear. We hypothesize that alternative gene expression during AD plays a critical role in disease progression. Numerous developmentally regulated genes and cell cycle proteins have been shown to be re-expressed or activated during AD. These proteins include transcription factors, members of the cell cycle regulatory machinery, and programmed cell death genes. Such proteins play an important role during brain development and would likely exert powerful effects if re-expressed in the adult brain. We propose that the re-expression or activation of developmentally regulated genes define molecular mechanisms active both during brain development and in AD.