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Summary: Findings may help to shed light on how Alzheimer’s and other neurodegenerative diseases develop.
Source: WUSTL.
A new study at Washington University School of Medicine in St. Louis details the structure of TREM2, a protein involved in Alzheimer’s disease and other neurodegenerative disorders. Researchers found that mutations associated with Alzheimer’s alter the surface of the protein, while mutations linked to another brain disorder disrupt the protein’s interior. Such alterations may impair TREM2’s normal role in cleaning up cellular waste via a process called phagocytosis. NeuroscienceNews.com image is credited to Daniel L. Kober.
Cellular ‘housekeeping’ molecule’s structure linked to neurodegeneration
Scientists at Washington University School of Medicine in St. Louis have detailed the structure of a molecule that has been implicated in Alzheimer’s disease. Knowing the shape of the molecule — and how that shape may be disrupted by certain genetic mutations — can help in understanding how Alzheimer’s and other neurodegenerative diseases develop and how to prevent and treat them.
The study is published Dec. 20 in the journal eLife.
The idea that the molecule TREM2 is involved in cognitive decline — the hallmark of neurodegenerative diseases, including Alzheimer’s — has gained considerable support in recent years. Past studies have demonstrated that certain mutations that alter the structure of TREM2 are associated with an increased risk of developing late-onset Alzheimer’s, frontal temporal dementia, Parkinson’s disease and sporadic amyotrophic lateral sclerosis (ALS). Other TREM2 mutations are linked to Nasu-Hakola disease, a rare inherited condition that causes progressive dementia and death in most patients by age 50.
“We don’t know exactly what dysfunctional TREM2 does to contribute to neurodegeneration, but we know inflammation is the common thread in all these conditions,” said senior author Thomas J. Brett, PhD, an assistant professor of medicine. “Our study looked at these mutations in TREM2 and asked what they do to the structure of the protein itself, and how that might impact its function. If we can understand that, we can begin to look for ways to correct it.”
The analysis of TREM2 structure, completed by first author, Daniel L. Kober, a doctoral student in Brett’s lab, revealed that the mutations associated with Alzheimer’s alter the surface of the protein, while those linked to Nasu-Hakola influence the “guts” of the protein. The difference in location could explain the severity of Nasu-Hakula, in which signs of dementia begin in young adulthood. The internal mutations totally disrupt the structure of TREM2, resulting in fewer TREM2 molecules. The surface mutations, in contrast, leave TREM2 intact but likely make it harder for the molecule to connect to proteins or send signals as normal TREM2 molecules would.
TREM2 lies on the surface of immune cells called microglia, which are thought to be important “housekeeping” cells. Via a process called phagocytosis, such cells are responsible for engulfing and cleaning up cellular waste, including the amyloid beta that is known to accumulate in Alzheimer’s disease. If the microglia lack TREM2, or the TREM2 that is present doesn’t function properly, the cellular housekeepers can’t perform their cleanup tasks.
“Exactly what TREM2 does is still an open question,” Brett said. “We know mice without TREM2 have defects in microglia, which are important in maintaining healthy brain biology. Now that we have these structures, we can study how TREM2 works, or doesn’t work, in these neurodegenerative diseases.”
TREM2 also has been implicated in other inflammatory conditions, including chronic obstructive pulmonary disease and stroke, making the structure of TREM2 important for understanding chronic and degenerative diseases throughout the body, he added.
ABOUT THIS ALZHEIMER’S DISEASE RESEARCH ARTICLE
Funding:This work was supported by the National Institutes of Health (NIH), grant numbers R01-HL119813, R01-AG044546, R01-AG051485, R01-HL120153, R01-HL121791, K01-AG046374, T32-GM007067, K08-HL121168, and P50-AG005681-30.1; the Burroughs-Wellcome Fund; the Alzheimer’s Association, grant number AARG-16-441560; and the American Heart Association, grant number PRE22110004. Results were derived from work performed at Argonne National Laboratory (ANL) Structural Biology Center. ANL is operated by U. Chicago Argonne, LLC, for the U.S. DOE, Office of Biological and Environmental Research, supported by grant number DE-AC02-06CH11357.
Image Source: NeuroscienceNews.com image is credited to Daniel L. Kober.
Original Research:Full open access research“Neurodegenerative disease mutations in TREM2 reveal a functional surface and distinct loss-of-function mechanisms” by Daniel L Kober, Jennifer M Alexander-Brett, Celeste M Karch, Carlos Cruchaga, Marco Colonna, Michael J Holtzman, and Thomas J Brett in eLife. Published online December 20 2016 doi:10.7554/eLife.20391
Abstract
Neurodegenerative disease mutations in TREM2 reveal a functional surface and distinct loss-of-function mechanisms
Genetic variations in the myeloid immune receptor TREM2 are linked to several neurodegenerative diseases. To determine how TREM2 variants contribute to these diseases, we performed structural and functional studies of wild-type and variant proteins. Our 3.1 Å TREM2 crystal structure revealed that mutations found in Nasu-Hakola disease are buried whereas Alzheimer’s disease risk variants are found on the surface, suggesting that these mutations have distinct effects on TREM2 function. Biophysical and cellular methods indicate that Nasu-Hakola mutations impact protein stability and decrease folded TREM2 surface expression, whereas Alzheimer’s risk variants impact binding to a TREM2 ligand. Additionally, the Alzheimer’s risk variants appear to epitope map a functional surface on TREM2 that is unique within the larger TREM family. These findings provide a guide to structural and functional differences among genetic variants of TREM2, indicating that therapies targeting the TREM2 pathway should be tailored to these genetic and functional differences with patient-specific medicine approaches for neurodegenerative disorders.
“Neurodegenerative disease mutations in TREM2 reveal a functional surface and distinct loss-of-function mechanisms” by Daniel L Kober, Jennifer M Alexander-Brett, Celeste M Karch, Carlos Cruchaga, Marco Colonna, Michael J Holtzman, and Thomas J Brett in eLife. Published online December 20 2016 doi:10.7554/eLife.20391
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