Abstract
AbstractLoss of smell is an early indicator of Alzheimer’s disease (AD), making the olfactory system an accessible model to study the effect of AD related proteins such as Amyloid Precursor Protein (APP). The regenerative capacity of the system further enables studies of circuit recovery after APP-induced degeneration. While the cellular effects of APP are well documented, little is known about its effects on brain circuits at the ultrastructural level. To study circuitry changes, we overexpressed humanized APP with familial AD mutations (hAPP) in olfactory sensory neurons and performed serial electron microscopy on olfactory bulb glomeruli from both control and hAPP expressing mice. We found that hAPP-expressing mice showed a striking decrease in glomerular connectivity along with widespread changes of subcellular structures. By then turning off hAPP expression for 6 weeks we tested the capacity of glomerular circuits to recover and found clear restoration of both connectivity and subcellular features, including an increase in post-synaptic density to above the control level. These data provide an important ultrastructural view of olfactory regions associated with AD and suggest that circuit recovery is possible in brain tissue that has experienced APP-induced neurodegeneration.
Publisher
Cold Spring Harbor Laboratory