A protein that disrupts cells’ energy centers may be a culprit in chronic fatigue syndrome | Science | AAAS
New study offers clues as to how exhaustion could arise in people with ME/CFS—and potentially related conditions such as Long Covid
People living with myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) struggle not only with extreme exhaustion and the cognitive problems known as brain fog, but with a profound lack of information about what causes their symptoms and how to treat them. Scientists have yet to pin down the biology underlying the condition, which affects up to 2.5 million people in the United States alone, according to some estimates.
Now, researchers have identified a protein that’s present at unusually high levels in the muscles of people with ME/CFS and that disrupts cells’ ability to generate energy. The findings, reported today in the Proceedings of the National Academy of Sciences, could point to new therapeutics for this condition and for illnesses that share similar characteristics, such as Long Covid.
Akiko Iwasaki, an immunobiologist at Yale School of Medicine who was not involved in the work, praises the research as “very well done” but cautions that the suspect protein is likely “a piece of the puzzle, as opposed to explaining the whole disease.” The findings suggest it could act as one of several “middlemen” between whatever sparks the illness and symptoms such as fatigue, she says.
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The NHLBI researchers wondered whether WASF3 was interacting with mitochondria, cellular compartments responsible for energy generation that have been suggested to malfunction in people with ME/CFS and Long Covid. Sure enough, by changing levels of WASF3 inside cultured cells from S1 as well as in other human and mouse cells, the team found the protein could disrupt mitochondrial function. Specifically, high levels of WASF3 interfered with the assembly of mitochondrial proteins into molecular complexes that support normal energy production.










