Presently available methods of determining whether or not amyloid-β aggregates exist in the brain are expensive and invasive. Amyloid-β forms solid deposits in and around cells in the brain for decades prior to the first obvious signs of neurodegeneration, and people with raised levels of these protein aggregates are more likely to progress to dementia. Early, accurate, low-cost measurements of amyloid-β prior to symptoms could lead to the identification of lifestyle choices that minimize risk, as well as to the development of preventative therapies. Absent assays that can achieve this goal, there is little pressure to develop such treatments, however. Thus it is always good news to see progress towards cost-effective ways to measure amyloid-β burden.


Alzheimer’s disease begins with a silent phase lasting two decades or more during which amyloid plaques slowly collect in the brain without causing obvious cognitive problems. For decades, researchers have been searching for an easy and affordable way to identify people in the so-called preclinical stage so that, once effective drugs are available, they could be treated and, ideally, never develop symptoms at all. Positron emission tomography (PET) brain scans can identify people with amyloid plaques, but they are too time-consuming and expensive to be widely used for screening or diagnosis.

Researchers previously had discovered that people with amyloid plaques tend to have certain forms of tau in the cerebrospinal fluid that surrounds their brains and spinal cords. Sampling the cerebrospinal fluid requires a spinal tap, which some participants are reluctant to undergo, but proteins in the cerebrospinal fluid can spill over into the blood, which is easier to obtain. If these specific forms of tau could be found in a person’s blood, they reasoned, that might be an indication that the person has the consequences of amyloid plaques in his or her brain.

Researchers analyzed blood samples and brain scans from 34 people participating in Alzheimer’s research studies. Nineteen of the participants had no amyloid in their brains, five had amyloid but no cognitive symptoms, and 10 had amyloid and cognitive symptoms. The researchers used mass spectrometry to identify and measure the different forms of tau in the blood samples. They found that levels of a form of tau known as phosphorylated tau 217 correlated with the presence of amyloid plaques in the brain. People with amyloid in their brains had two to three times more of the protein in their blood than people without amyloid. These high levels were evident even in people with no signs of cognitive decline.

To verify their findings, the researchers repeated the analysis in a separate group of 92 people: 42 with no amyloid, 20 with amyloid but no cognitive symptoms, and 30 with amyloid and symptoms. In this analysis, levels of phosphorylated tau 217 in the blood correlated with the presence of amyloid in the brain with more than 90% accuracy. When the researchers looked only at people with no cognitive symptoms, blood levels of phosphorylated tau 217 distinguished those in the early, asymptomatic stage of Alzheimer’s disease from healthy people with 86% accuracy.

Link: https://www.eurekalert.org/pub_releases/2020-07/wuso-api072820.php