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Advances In The Global Search For Blood Markers For Alzheimer's Disease And Other Dementias

Alzheimer's Association
2019-07-16 00:30 3116

FROM THE ALZHEIMER'S ASSOCIATION INTERNATIONAL CONFERENCE 2019

LOS ANGELES, July 15, 2019 /PRNewswire/ -- Significant advances in the global search for blood test technologies for Alzheimer's disease and other dementias were reported at the Alzheimer's Association International Conference (AAIC) 2019 in Los Angeles.


A new report at AAIC 2019 describes methods for measuring abnormal versions of amyloid protein, which is the building block of one of the hallmark brain lesions of Alzheimer's disease, in blood and correlating it with established Alzheimer's markers. Two additional reports describe new blood-based methods for assessing alpha synuclein, which contributes to the brain changes of Parkinson's disease and Dementia with Lewy Bodies, and neurofilament light, which may turn out to be the most reliable indicator of general brain cell damage.

Currently, the brain changes that occur before Alzheimer's dementia symptoms appear can only be reliably assessed by positron-emission tomography (PET) scans, and from measuring amyloid and tau proteins in spinal fluid. These methods are expensive and, in the case of a spinal tap, invasive. And, too often, they are unavailable, not covered by insurance or difficult to access.

There is a global "race" to uncover and develop new screening and diagnostic tools for Alzheimer's disease, such as a blood test.

"There is a great need for simple, reliable, inexpensive, non-invasive and easily available diagnostic tools for Alzheimer's," said Maria C. Carrillo, PhD, Alzheimer's Association chief science officer. "Families facing Alzheimer's now and in the future would benefit greatly from simple and widely accessible diagnostic tools that enable accurate diagnosis, earlier in the disease process, allowing for important care and planning."

"These new testing technologies, which are currently under development by industry and academic researchers, could also potentially be used to track the impact of therapies in clinical trials," Carrillo added.

How Does Plasma Amyloid Compare with Other Alzheimer's Biomarkers?
In a study published in Nature in January 2018, Akinori Nakamura, MD, PhD, of the National Center for Geriatrics and Gerontology, Obu, Japan and colleagues described a potential blood biomarker of amyloid-beta which they suggested might allow identification of people likely to develop Alzheimer's dementia in the future. The technology measures plasma levels of amyloid-related peptides (Aβ1-42, Aβ1-40, and APP669-711), and the biomarker is generated by combining the ratios of the peptides (APP669-711/Aβ1-42 and Aβ1-40/Aβ1-42).

At AAIC 2019, Nakamura and colleagues reported results of a study aimed at analyzing the plasma biomarker in comparison to brain amyloid PET scans (reflecting Aβ deposition), structural MRI (reflecting brain atrophy), FDG-PET (reflecting glucose hypometabolism) and behavioral tests (MMSE/reflecting cognitive decline). They analyzed 201 samples (70 cognitively normal, 46 MCI, 61 Alzheimer's, and 24 non-Alzheimer's dementia) from three different institutes in Japan.

The composite blood biomarker values were significantly correlated with amyloid PET values (p<0.001), MRI (p<0.001), FDG-PET (p<0.002), and MMSE (p<0.001).

"We found that the plasma biomarker can detect earlier stages of amyloid deposition, even before dementia symptoms are apparent," Nakamura said. "Our results suggest that the plasma biomarker may be useful in screening people who are at risk for Alzheimer's. This can facilitate clinical trials for Alzheimer's therapies, and also accelerate studies to investigate the effects of non-drug interventions, risk management, and lifestyles on Alzheimer's progression."

Alpha Synuclein (a Lewy Body Marker), Amyloid and Tau in Red Blood Cells
A common feature of many degenerative brain diseases is accumulation of "misfolded proteins," including α-synuclein (α-syn), amyloid-beta (Aβ) and tau, in both the brain and peripheral fluids. Recently, the physical interaction of α-syn with amyloid and tau has been suggested to be involved in the cause and progression of these diseases.

Abnormal versions of amyloid and tau protein are the main building blocks of the hallmark brain lesions of Alzheimer's disease, though they also appear in other conditions. α-syn is a major constituent of Lewy bodies, protein clumps that are the hallmark of Parkinson's disease and Dementia with Lewy Bodies.

Filippo Baldacci, MD, of the Department of Clinical and Experimental Medicine, University of Pisa, Italy, and the Institute of Memory and Alzheimer's Disease (IM2A), Department of Neurology, Pitié-Salpêtrière Hospital in Paris, and colleagues sought to discover whether concentrations of α-syn and its combinations with amyloid and tau (α-syn/Aβ and α-syn/tau) in red blood cells can accurately discriminate people with Alzheimer's from healthy individuals.

Levels of α-syn, α-syn/Aβ and α-syn/tau were analyzed in 39 people with early-stage Alzheimer's and 39 age-matched healthy controls. Alzheimer's patients received a biomarker-based diagnosis (CSF Aβ and CSF total-tau and/or phospho-tau; alternatively, a positive brain amyloid PET scan).

The researchers found that people with Alzheimer's in the study had lower concentrations of α-syn, α-syn/Aβ and α-syn/tau in red blood cells (RBC) than controls. RBC α-syn/Aβ and RBC α-syn/tau discriminated people with Alzheimer's from healthy controls with "fair accuracy" (AUROC=0.76, 0.72, respectively). RBC α-syn was less accurate (AUROC=0.63).

"Our results showed that people with Alzheimer's had much lower concentrations of α-synuclein and its combinations with amyloid and tau in their red blood cells, compared to healthy individuals," Baldacci said. "With further research and confirmation, this may prove to be a good tool to identify people with Alzheimer's. We have experiments in progress now to verify its ability to discriminate Alzheimer's from other brain diseases, such as Lewy body dementia or Parkinson's dementia."

"Red blood cells may represent workable and relevant models of neurodegeneration since they are likely to be involved in the accumulation and clearance of the misfolded proteins," Baldacci added.

Plasma Neurofilament Light Distinguishes Multiple Diseases from Healthy Controls
Neurofilament light (NfL), also known as neurofilament light chain, is being actively investigated as a biological marker for neurodegeneration in cerebrospinal fluid and plasma in a variety of neurological disorders, including Alzheimer's disease and other dementias.

Abdul Hye, PhD, of the Institute of Psychiatry, Psychology & Neuroscience, King's College London (KCL) says, "Although blood NfL differences between aged-matched controls and disease patients are widely accepted, there has so far been limited research into how concentrations of NfL differ across neurodegenerative disorders."

As reported at AAIC 2019, Hye and colleagues at KCL, Lund University and University of Gothenburg led a multi-center international study to compare the levels of blood NfL across multiple neurodegenerative/neurological conditions. In the study, the original group (n=1,465; BioFINDER from Lund University) and a second independent cohort (n=852; KCL), included people with mild cognitive impairment (MCI), Alzheimer's disease, frontotemporal dementia (FTD), dementia with Lewy bodies (DLB), Parkinson's disease (PD), primary tauopathies and healthy elderly controls. In addition, several other conditions such as vascular dementia, Down syndrome (DS), amyotrophic lateral sclerosis (ALS), multiple sclerosis (MS) and clinical depression were included.

The researchers found that NfL was significantly increased in eight neurodegenerative conditions including Alzheimer's, FTD, DLB, corticobasal syndrome (CBS), ALS and Down syndrome with dementia (DS-D), compared to the control group. Similar results were observed for both study groups. They subsequently generated an NfL concentration cut-off point (in the BioFINDER study group) to attempt to distinguish what was considered normal and abnormal; this was then tested in the KCL cohort.

The scientists found that only 2% of the healthy controls had abnormal NfL levels, which strengthened the choice of cut-off point. The cut-off point identified these groups as those in the study with the highest NfL concentrations: ALS (82%), DS-D (100%), CBS (53-67%) and FTD (40-63%). In both study groups, only between 16-20% of people with Alzheimer's would cross the threshold of abnormal NfL. The researchers say they have replicated this Alzheimer's finding in the Alzheimer's Disease Neuroimaging Initiative data.

"For the first time we have shown that NfL on its own is able to distinguish several neurodegenerative conditions when compared to healthy controls," Hye said. "These results hold promise for the use of NfL as a diagnostic tool and in clinical trials."

"Though, as previously seen in other studies, NfL is not specific for any condition, with validation it could be valuable as a relatively inexpensive and fast test for accumulating neurodegeneration in the brain," Hye added.

About the Alzheimer's Association International Conference (AAIC)
The Alzheimer's Association International Conference (AAIC) is the world's largest gathering of researchers from around the world focused on Alzheimer's and other dementias. As a part of the Alzheimer's Association's research program, AAIC serves as a catalyst for generating new knowledge about dementia and fostering a vital, collegial research community.
AAIC 2019 home page: www.alz.org/aaic/

AAIC 2019 newsroom: www.alz.org/aaic/pressroom.asp

About the Alzheimer's Association
The Alzheimer's Association is the leading voluntary health organization in Alzheimer's care, support and research. Our mission is to eliminate Alzheimer's disease through the advancement of research, to provide and enhance care and support for all affected, and to reduce the risk of dementia through the promotion of brain health. Our vision is a world without Alzheimer's. Visit alz.org or call 800.272.3900.

  • Akinori Nakamura, MD, PhD, et al. What Kind of Information Does the Plasma Amyloid-β Biomarker Tell Us? (Funder(s): Japan Agency for Medical Research and Development)
  • Filippo Baldacci, MD, et al. Potential Diagnostic Value of Red Blood Cells α-Synuclein Heteroaggregates in Alzheimer's Disease. (Funder(s): PRA Health Sciences, Inc.)
  • Abdul Hye, PhD, et al. Plasma Neurofilament Light a Pan-Neurodegenerative Marker. (Funder(s): National Institute for Health Research (NIHR); European Research Council; Swedish Research Council; Knut and Alice Wallenberg Foundation; Marianne and Marcus Wallenberg Foundation; Swedish Alzheimer Foundation; Swedish Brain Foundation; Parkinson Foundation of Sweden; Skåne University Hospital Foundation; Swedish federal government.)

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Source: Alzheimer's Association
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