Could the underproduction of poorly understood immune cells contribute to Alzheimer’s disease and other forms of cognitive decline? A study in Nature Immunology suggests it may – and that increasing these cells could reverse the damage.
The researchers deactivated the gene that produces mucosal-associated invariant T cells (MAITs) in mice and compared the cognitive function of normal and MAIT cell-deficient mice. Initially, the two groups performed identically, but as the mice grew into middle age, the genetically altered mice struggled to form new memories.
Researchers then injected the genetically altered mice with MAITs, and their performance in learning and memory-intensive tasks such as swimming through a water maze returned to normal.
The study authors believe this is the first work to link MAITs to cognitive function and hope to follow it up with research that compares MAIT numbers in healthy humans and those with cognitive diseases such as Alzheimer’s.
“The MAIT cells that protect the brain are located in the meninges, but they are also present in blood, so a simple blood test should let us compare levels in healthy subjects and those with Alzheimer’s disease and other cognitive disorders,” said the senior author of the study.
MAIT cells, which were discovered in the 1990s, were already known to be the most abundant innate-like T cells in humans and to be particularly numerous in the liver and skin. The study was the first to detect these cells, which are not fully understood when it comes to fighting disease, in the meninges, the membrane layers that cover the brain.
MAITs nested in the meninges appear to protect against cognitive decline by creating antioxidant molecules that combat toxic byproducts of energy production called reactive oxidative species. Without MAITs, the reactive oxidative species accumulate in the meninges and cause meningeal barrier leakage. When the meningeal barrier leaks, potentially toxic substances enter and inflame the brain. This accumulation eventually disrupts brain and cognitive function.
Genetic alteration prevented the experimental mice from producing any MAIT cells, but humans can probably increase MAIT cell production by altering their diets or making other lifestyle changes, said the lead author of the study.
“MAIT cell production is connected to the bacteria in your gut microbiome,” the senior author said. “People who grew up in relatively sterile environments or took antibiotics frequently make fewer of them than people who grew up in more rural areas, where there is more exposure to beneficial bacteria. But everyone may improve their microbiota by changing their diet or living environment. This is just one more reason to pursue a natural and healthy lifestyle.”
https://www.nature.com/articles/s41590-022-01349-1
Mucosal-associated invariant T (MAIT) cells prevent cognitive decline
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