Alzheimer’s disease is the most common neurodegenerative disease in people over 65 and affects more than 50 million people worldwide — a number that is expected to double in 20 years. University of Minnesota scientists are examining how specific cellular activity in the brain may increase vulnerability to Alzheimer’s, with findings that could offer new avenues for early detection and treatment.
In a study recently published in Alzheimer's & Dementia , College of Veterinary Medicine researchers Manci Li and Assistant Professor Peter Larsen looked at existing data from both Alzheimer’s brains and healthy brains to identify the key neuropeptides — the chemical messengers that are released by neurons — involved in Alzheimer’s. They also examined the relationship between neuropeptide activity and aging.
The study found:
“In a healthy brain, there are cells that can handle the demands of day-to-day life. But with Alzheimer’s, these cells have either died or the connections are lost, and the cells that are left behind are struggling to keep up with the demand,” said Li. “It’s akin to an engine that is overworked — when the power demands are too large the engine cannot sustain the demand and beaks down.”
The researchers believe this cycle of neurons overworking and breaking down contributes to the onset and progression of Alzheimer’s. While further research is needed, understanding the involvement of neuropeptides in Alzheimer’s offers promising avenues for early diagnosis by measuring neuropeptide activity. The study also suggests treatment possibilities that could prevent cognitive decline by simulating the effects of neuropeptides.
Upcoming research will focus on investigating neuropeptide disruption during the earliest stages of the disease, an effort that could lead to preventative treatments.
Alzheimer s & Dementia
Experimental study
Cells
Single-cell sequencing of entorhinal cortex reveals widespread disruption of neuropeptide networks in Alzheimer's disease
24-Feb-2023