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probiotics Archives - Omics Help Desk

Can you transform yourself from a couch potato to an elite athlete? Maybe with omics.

Health

Studies have found that certain bacteria make mice run longer on the treadmill. They have found the same bacteria in the human gut of athletes right after exercise. Does it mean that if we had those strains of bacteria in our system, we could improve our endurance when doing sports? Science seems to point to a yes answer. Other studies have looked at epigenetic markers in people who exercise, and have seen marked changes in some cells, because epigenetics change the activity of our genes, usually by “silencing” some genes. Many of us know or can guess that our athletic potential is linked to our genes, but what if those genes are silenced, and what if our bacteria can bring their own genes into play?

There are many genes that are associated with athletic performance, the most well-known ones are ACTN3 and ACE.  Studies have found that most elite power athletes have a specific genetic variant of the ACTN3 gene, the fast twitch muscle gene, and gene ACE, which is associated with human physical performance. What is now being studied is how our genes are modified sometimes on a daily basis through epigenetics, especially through a process called methylation. A study by Schenk et al 2019 studied epigenetic changes in five healthy women who performed an incremental step test. Blood samples were taken before and after exercise to study 33 methylation markers in their natural killer cells (NKC). NKC have an important role in controlling immune responses and inflammation, and it is known that inflammation increases after strenuous exercise. The study found that after acute exercise, DNA-methylation was changed, with 25 genes showing increased and some decreased methylation. It was surprising for them to observe that DNA-methylation which was thought to be a more stable epigenetic modification could be so dynamic.

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Sleep problems? Your microbiome may have some answers!

Health

We have known for a while that the population of bacteria in our gut, our gut microbiome, affects the digestive, metabolic, and immune functions in our bodies, but science is showing that it also regulates our sleep and mental states through the microbiome-gut-brain axis. A scientific review study by Rijo-Ferreira and Takahashi published December 2019, discusses how our sleep and wake cycles, also called circadian rhythms, are affected by our genes, by our metabolism, by time-restricted feeding protocols, and by our microbiome.

An earlier review study by Li et al 2018, listed several gut bacteria that affect sleep. For example, some spore-forming bacteria, primarily from the Clostridium genus, modulate the amount of serotonin in the blood. Serotonin is known to promote REM sleep and low levels of serotonin are linked to the development of depression. In addition, Escherichia coli and Enterococcus, which are common in the intestinal tract, also produce small amounts of serotonin. The bacteria Lactobacillus and Bifidobacterium can secrete the neurotransmitter GABA, and abnormal expression of GABA mRNA is often observed in patients with depression and insomnia.

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