NEW PREPRINT! This one seems potentially very, VERY SIGNIFICANT!

This study found "significant reductions in measures of mitochondrial content and impaired muscle energetics" in LC fatigue—AND a corresponding biomarker!

Summary thread (for a general audience!)...

1/many

So as you probably know (or at least, should know), prolonged fatigue is one of the most common and significant long-term consequences of COVID, even after mild cases.

Studies have pointed to the T cell response having an impact on mitochondrial function.

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They sought to examine if there are specific factors that stand out in relation to mitochondria. They found two major things:

- Mitochondrial function is impaired.
- The "T cell-derived soluble IL-2 receptor alpha subunit" (sIL2R) may play a role in this impairment.

3/

So, what did they find specifically?

This study looked at those with "mild to moderate" COVID, meaning they had at least one symptom but didn't require oxygen or hospitalization. For some of the experiments, they also included pre-pandemic biopsies as controls!

4/

As is commonly found in these types of studies, many of the participants in the Long COVID group actually had fairly high levels of physical activity before they developed Long COVID.

For the majority of the people in that group, COVID forced them to reduce their activity.

5/

They also conducted some basic physical and mental exertion tasks, and they found no major difference between the LC group and the healthy controls. That is, "there was no significant difference in the muscle's ability to produce force."

However, endurance took a hit.

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Likewise, they found no significant differences in the thickness of the muscles, and no significant differences in muscle fiber size between the Long COVID group and the healthy controls. There was also no difference in fiber type composition.

So what's going on?

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The muscle fibers seem to be morphologically healthy, so why aren't they working as intended?

The examination of the muscle fibers suggest that there might be some difference in mitochondrial activity within the cells. Mitochondria are the powerhouse of the cell!

8/

When they compared mitochondrial respiration between healthy controls and the LC group, they found a lower *quantity* of active mitochondria in the LC group, but the energy capacity of the present mitochondria seemed mostly unchanged.

9/

On further examination, they found a similar pattern to the previous one.

These findings suggest "mainly mitochondrial content and not activity was lower in [LC] compared to healthy muscle." Electron microscopy also suggests the mitochondria are defective in some way.

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They then asked if the reduced mitochondrial content is a result of deficient production of new mitochondria. The results indicate "that mitochondrial biogenesis was not impaired."

So like... what the fuck is happening here? To figure out the mechanism...

11/

They examined the potential factors circulating in the blood. They identified sIL2R as "the most highly abundant circulating inflammatory marker, with the largest fold difference between healthy" and LC groups.

sIL2R is a receptor that comes from T cells!

12/

They treated some muscle cell tissue cultures with either sIL2R or the regular IL-2 cytokine.

They found the *baseline* oxygen consumption rate was unchanged, but the *maximum* respiration rate was limited by sIL2R specifically! This suggests a previously unknown pathway!

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What does this all mean? Despite no apparent differences in their muscles, those with LC fatigue "exhibited significant impairment of mitochondrial respiration across multiple components of the respiratory chain." sIL2R "emerged as the most significantly elevated factor."

14/

Critically, elevated sIL2R levels are already:

1. Associated with muscle wasting.
2. A known biomarker that is "predictive of respiratory failure and ICU outcomes" in COVID!

Thus, the authors "posit that PASC fatigue is partially attributable to elevated systemic sIL2R."

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The specifics of the effect sIL2R has are still unclear—although the authors have some hypotheses—but future research will need to explore this line of questioning further to pick apart the mechanism.

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The study has a few limitations, but they're largely the type of limitations that would mean there's only a significant result if there's a large effect size to be measured! Of course, more research is needed to fully understand what's happening here.

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Overall, these findings suggest "that mitochondria may function adequately under resting conditions but fail to meet increased energy demands during exertion," and that this "could explain post-exertional malaise" in LC despite otherwise normal muscle function.

18/

This feels like a critical finding, and I agree with the authors' conclusion that their study "provides new insights into the physiological basis of" fatigue in Long COVID, opening "avenues for potential therapeutic interventions."

Source:

19/19 medrxiv.org/content/10.110…