Alzheimer’s disease may damage the brain in two distinct phases, based on new research using sophisticated brain mapping tools. According to researchers who discovered this new view, the first, early phase happens slowly and silently—before people experience memory problems—harming just a few vulnerable cell types. In contrast, the second, late phase causes damage that is more widely destructive and coincides with the appearance of symptoms and the rapid accumulation of plaques, tangles, and other Alzheimer’s hallmarks.
“One of the challenges to diagnosing and treating Alzheimer’s is that much of the damage to the brain happens well before symptoms occur. The ability to detect these early changes means that, for the first time, we can see what is happening to a person’s brain during the earliest periods of the disease,” said Richard J. Hodes, M.D., director, NIH National Institute on Aging. “The results fundamentally alter scientists’ understanding of how Alzheimer’s harms the brain and will guide the development of new treatments for this devastating disorder.”
Scientists analyzed the brains of 84 people, and the results, published in Nature Neuroscience, suggest that damage to one type of cell, called an inhibitory neuron, during the early phase may trigger the neural circuit problems that underlie the disease. Additionally, the study confirmed previous findings about how Alzheimer’s damages the brain and identified many new changes that may happen during the disease.
Specifically, the scientists used advanced genetic analysis tools to study the cells of the middle temporal gyrus, a part of the brain that controls language, memory and vision. The gyrus has been shown to be vulnerable to many of the changes traditionally seen during Alzheimer’s. It is also a part of the brain that researchers have thoroughly mapped for control donors. By comparing control donor data with that from people who had Alzheimer’s, the scientists created a genetic and cellular timeline of what happens throughout the disease.
Traditionally, studies have suggested that the damage caused by Alzheimer’s happens in several stages characterized by increasing levels of cell death, inflammation and the accumulation of proteins in the form of plaques and tangles. In contrast, this study suggests that the disease changes the brain in two “epochs”—or phases—with many of the traditionally studied changes happening rapidly during the second phase. This coincides with the appearance of memory problems and other symptoms.
The results also suggest that the earliest changes happen gradually and “quietly” in the first phase before any symptoms appear. These changes include slow accumulation of plaques, activation of the brain’s immune system, damage to the cellular insulation that helps neurons send signals and the death of cells called somatostatin (SST) inhibitory neurons.
The last finding was surprising to the researchers. Traditionally, scientists have thought that Alzheimer’s primarily damages excitatory neurons, which send activating neural signals to other cells. Inhibitory neurons send calming signals to other cells. The paper’s authors hypothesized how loss of SST inhibitory neurons might trigger the changes to the brain’s neural circuitry that underlie the disease.
Recently, a separate brain mapping study by researchers at MIT found that a gene called REELIN may be associated with the vulnerability of some neurons to Alzheimer’s. It also showed that star-shaped brain cells called astrocytes may provide resilience to or resist the harm caused by the disease.
Researchers analyzed brains that are part of the Seattle Alzheimer’s Disease Brain Cell Atlas (SEA-AD), which is designed to create a highly detailed map of the brain damage that occurs during the disease.
The project was led by Mariano I. Gabitto, Ph.D., and Kyle J. Travaglini, Ph.D., from the Allen Institute, Seattle. The scientists used tools—developed as part of the NIH’s Brain Research Through Advancing Innovative Neurotechnologies (BRAIN) Initiative—Cell Census Network (BICCN)—to study more than 3.4 million brain cells from donors who died at various stages of Alzheimer’s disease. Tissue samples were obtained from the Adult Changes in Thought study and the University of Washington Alzheimer’s Disease Research Center.
“This research demonstrates how powerful new technologies provided by the NIH’s BRAIN Initiative are changing the way we understand diseases like Alzheimer’s. With these tools, scientists were able to detect the earliest cellular changes to the brain to create a more complete picture of what happens over the entire course of the disease,” said John Ngai, Ph.D., director of The BRAIN Initiative.
“The new knowledge provided by this study may help scientists and drug developers around the world develop diagnostics and treatments targeted to specific stages of Alzheimer’s and other dementias.”
More information:
Mariano I. Gabitto et al, Integrated multimodal cell atlas of Alzheimer’s disease, Nature Neuroscience (2024). DOI: 10.1038/s41593-024-01774-5
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Alzheimer’s disease may damage the brain in two phases (2024, October 20)
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