Brain health: Flavonoid may help slow down degradation of vitamin B6

Evan Walker
Evan Walker TheMediTary.Com |
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Scientists are looking for ways to stop the degradation of vitamin B6, which may help improve brain Health. Evgeniia Siiankovskaia/Getty Images
  • A new study of mice shows that a naturally occurring flavonoid can slow down the degradation of vitamin B6 in the brain.
  • A deficiency in vitamin B6 has long been associated with poorer cognitive function.
  • Vitamin B6 supplementation alone to improve cognition has yielded mixed results in trials.
  • The study’s authors hope that greater cognitive benefits may be achieved by combining the flavonoid with B6 supplementation.

Insufficient vitamin B6 is linked to cognitive impairment, and a new study presents a novel approach to maintaining adequate B6 levels.

The study in mice finds that a naturally occurring flavonoid, 7,8-dihydroxyflavone, can directly bind to and inhibit a B6-degrading enzyme, thus helping to preserve levels of B6 in the brain.

The enzyme is pyridoxal phosphatase (PDXP).

The study follows previous work from the same team led by Antje Gohla, PhD, at the Institute of Pharmacology and Toxicology of the Universitet Würzburg in Germany. That work demonstrated improved spatial learning and memory capacity in mice when their pyridoxal phosphatase was de-activated.

The study is published in eLife.

In the team’s previous work, they found the spatial learning and memory capacity of mice was improved when PDXP was genetically switched off. Their performance was compared to mice with PDXP intact.

The researchers assessed the cognitive functioning of mice using a Health">Barnes maze that provides a means to measure “hippocampus-dependent spatial reference memory by evaluating the ability to learn and remember the location of a hidden escape zone using a set of visual cues,” said Gohla.

In the “maze,” mice are placed on a platform with unpleasantly bright lighting. While there were a number of possible “escape” holes for the mice on the platform, only some were available for use.

“The [PDXP-less] mice learn to locate the correct escape hole with the help of visual cues, such as colored shapes or patterns, that are placed around the platform,” said Gohla.

In the new study, the subject mice were sacrificed, and the researchers used small-molecule screening, protein crystallography, and biolayer interferometry to observe 7,8-dihydroxyflavone directly affecting the action of pyridoxal phosphatase.

Given the differences between mice and humans, there may be concerns that the study’s findings will not be applicable to people.

Becker said, however, that, “the two functions of B6 in cognition mentioned — i.e., neurotransmitter synthesis and homocysteine metabolism — are thought to be mechanistically interchangeable between mice and humans.”

“So it is conceivable that [the research] would translate barring obvious environmental confounders (e.g., alcohol consumption, poor diet, etc.),” Becker said.

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