Researchers have identified racial disparities between black and white patients in the level of a key biomarker that can indicate Alzheimer’s disease.
African-Americans may be twice as likely as whites to develop Alzheimer’s disease, but nobody knows why because studies investigating the underlying causes of illness have historically drawn from a nearly all-white pool of research participants. Consequently, little is known about how the neurodegenerative disease arises and progresses in non-white people.
The new findings, which appear in JAMA Neurology, suggest that tools to diagnose the illness may not as effectively apply to black Americans. Specifically, the concern is that Alzheimer’s may go under-recognized in African-Americans because they typically have lower levels of the brain protein tau—which means they might not meet the diagnosis threshold when the disease already has begun to develop in their brains.
“If we only study Alzheimer’s in Caucasians, we’ll only learn about Alzheimer’s in Caucasians,” says John C. Morris, professor of neurology at the Washington University School of Medicine in St. Louis.
“If we want to understand all the ways the disease can develop in people, we need to include people from all groups. Without a complete understanding of the illness, we’re not going to be able to develop therapies that work for all people.”
More diverse studies
When Morris took over as principal investigator for the Charles F. and Joanne Knight Alzheimer’s Disease Research Center (ADRC) in 1997, he launched an initiative to address the lack of knowledge about the disease in people of color, and started diversifying the center’s pool of study participants.
At the time, only about 5 percent of people enrolled in memory and cognitive studies at the center were black, though they made up 18 percent of the population in the greater St. Louis area. With the guidance of an advisory board that civil rights activist Norman R. Seay led, the ADRC steadily attracted a more representative participant group that allowed researchers to investigate the roots of racial differences in Alzheimer’s disease.
For this study, Morris and colleagues analyzed biological data from 1,215 people, of whom 14 percent, or 173, were African-American. The participants averaged 71 years of age. Two-thirds showed no signs of memory loss or confusion, and the remaining one-third had either very mild or mild Alzheimer’s dementia. All participants underwent at least one test for Alzheimer’s: a PET scan to detect plaques of toxic amyloid protein in the brain, an MRI scan for signs of brain shrinkage and damage, or a spinal tap to measure levels of key Alzheimer’s proteins in the fluid that surrounds the brain and spinal cord.
Analysis of the MRI and PET scans turned up no significant differences between black and white participants. But when the researchers examined the samples of cerebrospinal fluid, they discovered that black participants had significantly lower levels of the brain protein tau.
Brain damage, memory loss, and confusion is linked to elevated tau, but lower levels of tau didn’t protect African-Americans. They were just as likely as white participants to be cognitively impaired in this study.
“With tau, the pattern was the same in African-Americans and whites—the higher your tau level, the more likely you were cognitively impaired—but the absolute amounts were consistently lower in African-Americans,” Morris says. “What this may indicate is that the cutoffs between normal and high levels of tau that were developed by studying whites are probably not accurate for African-Americans and could cause us to miss signs of disease in some people.”
This difference was most pronounced in people with the high-risk form of the gene APOE, known as APOE4. Older whites who carry the APOE4 gene variant have a threefold increase in their risk of developing Alzheimer’s disease, making it the single strongest genetic risk factor in that group. But previous studies have found that the gene variant has a much weaker effect in African-Americans.
Same gene, different tau levels
When Morris and colleagues broke down their data by APOE status, they found that African-Americans with the high-risk form of the gene had lower levels of tau than white participants who also carried the risky variant. But among people who carried the low-risk forms of the gene, researchers found similar tau levels, regardless of race.
“It looks like the APOE4 risk factor doesn’t operate the same in African-Americans as it does in whites,” Morris says. “We need to start looking into the possibility that the disease develops in distinct ways in various populations. People may be getting the same illness—Alzheimer’s disease—via different biological pathways.”
A more complete understanding of the ways Alzheimer’s disease can arise could open up new avenues of research to prevent or treat the devastating disease, the researchers say.
“We’ve been focusing on African-Americans because we have a large African-American community here in St. Louis, but we also need Asian-Americans, Native Americans, Hispanics, everybody to participate in research,” Morris says. “I think we’ll find we’ve been missing a lot by having such limited study populations in the past. We need to find out what else is going on, so we can develop better therapies that apply to everyone.”
The National Institute on Aging and the Washington University Institute of Clinical and Translational Sciences through the National Center for Advancing Translational Sciences of the National Institutes of Health funded the study.
