Intermittent fasting alters the gut bacteria activity of mice and increases their ability to recover from nerve damage.
Scientists observed how fasting led to the gut bacteria increasing the production of a metabolite known as 3-Indolepropionic acid (IPA). This potent neuroprotective antioxidant is required for regenerating nerve fibers called axons – thread-like structures at the ends of nerve cells that send out electrochemical signals to other cells in the body. The new research is published in Nature and was conducted by researchers from Imperial College London.
Although this novel mechanism was discovered in mice, it is hoped to also hold true for any future human trials. The research team states that the bacteria that produce IPA, Clostridium sporogenesis, is found naturally in the guts of humans as well as mice and IPA is present in human bloodstreams too. “There is currently no treatment for people with nerve damage beyond surgical reconstruction, which is only effective in a small percentage of cases, prompting us to investigate whether changes in lifestyle could aid recovery,” said study author Professor Simone Di Giovanni from Imperial’s Department of Brain Sciences. “Intermittent fasting has previously been linked by other studies to wound repair and the growth of new neurons – but our study is the first to explain exactly how fasting might help heal nerves.”
The experiment assessed nerve regeneration of mice where the sciatic nerve, the longest nerve running from the spine down the leg, was crushed. Half of the mice underwent intermittent fasting (by eating as much as they liked followed by not eating at all on alternate days), while the other half were free to eat with no restrictions at all. These diets continued for a period of 10 days or 30 days before their operation, and the mice’s recovery was monitored 24 to 72 hours after the nerve was severed. The length of the regrown axons was measured and was about 50% greater in mice that had been fasting.
Professor Di Giovanni said, “I think the power of this is that opens up a whole new field where we have to wonder: is this the tip of an iceberg? Are there going to be other bacteria or bacteria metabolites that can promote repair?” The scientists also studied how fasting led to this nerve regeneration. They discovered that there were significantly higher levels of specific metabolites, including IPA, in the blood of diet-restricted mice. To confirm whether IPA led to nerve repair, the mice were treated with antibiotics to clean their guts of any bacteria. They were then given genetically-modified strains of Clostridium sporogenesis that could or could not produce IPA. “When IPA cannot be produced by these bacteria and it was almost absent in the serum, regeneration was impaired. This suggests that the IPA generated by these bacteria has an ability to heal and regenerate damaged nerves,” Professor Di Giovanni said. Importantly, when IPA was administered to the mice orally after a sciatic nerve injury, regeneration and increased recovery were observed between two and three weeks after injury. The next stage of this research will be to test this mechanism for spinal cord injuries in mice as well as testing whether administering IPA more frequently would maximize its efficacy.
Source: This news is originally published by scitechdaily