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New research is finding that the biochemical called kynurenic acid is necessary for many metabolic processes. But increased levels are linked with mental disorders and other conditions. So is it a nutrient or a toxin?
Research has connected increased kynurenic acid levels with cancer, schizophrenia, inflammatory bowel syndrome and a number of other conditions.
Yet at the same time, kynurenic acid has been linked to healthy conditions and decreased infections, notably digestive conditions. While higher levels are linked with inflammatory bowel syndrome, lower levels are linked to irritable bowel syndrome.
Other research has linked kynurenic acid to reductions in ulcers, colitis, and other gut-related conditions.
And its presence is considered necessary in order to stimulate cognition. It is used within our central nervous system to act as a go-between with dopamine. In fact, research has pointed to the reality that kynurenic acid is the key component of dopamine neuron firing, and when its levels are too high among the central nervous system, neuropathic and even disorienting conditions can prevail.
Increased levels of kynurenic acid production in the oral cavity have been linked with mouth abscesses. But decreased levels have been linked with increased infections. What the heck is going on?
Is Kynurenic acid a nutrient?
Yet even with this mix of evidence, some researchers have promoted the idea that kynurenic acid be considered a nutrient – something to be supplemented in order to provoke its benefits in disease prevention.
Supporting this notion is the finding that kynurenic acid has been found throughout healthy organs and tissues throughout the body – involving it in healthy metabolism. Kynurenic acid at different concentrations has been found in the brain, liver, lungs, intestines, muscles, bloodstream, spleen and of course the intestines.
Should we supplement with Kynurenic acid?
Kynurenic acid has been found to bind to some of the body's most important cell receptors, including nerve and brain cell GABA receptors, NMDA (N-methyl-D-aspartate receptor) receptors, AMPA receptors, nicotinic receptors, platelet-aggregation receptors, and many others.
One of the pieces of logic for the idea of supplementing kynurenic acid is the finding that kynurenic acid a constituent of some of the healthiest medicinal plants. Kynurenic acid has been found in higher quantities among dandelion, nettles and other herbs known for their ability to reduce inflammation and help liver function.
Yet as the author has illustrated among other research, the isolation of phytonutrients from herbs has proven wrought with danger, as they can produce unintended side effects. This isolation of active constituents has been the misguided strategy of pharmaceutical companies over the decades – as some 40-60% of pharmaceuticals have been derived from plants and then synthesized.
One of the more confusing – and most important – elements of kynurenic acid is the fact that bacteria produce this acid. Kynurenic acid has been found produced by E. coli bacteria, as well from probiotic bacteria such as L. acidophilus, L. lactis and others.
Kynurenic acid linked to our gut bacteria
Actually, some of the most revealing research on kynurenic acid has taken place among bacteria research. Many bacteria - including our probiotics - actually produce kynurenic acid. And certain kynurenic acid concentrations promote or reduce their growth.
A study from Poland's Maria Curie-Skłodowska University found that kynurenic acid at specific concentrations promoted the growth of probiotic bacteria such as Lactobacillus acidophilus, L. rhamnosus, and different Bifidobacterium species. At the same time, kynurenic acid at the same concentrations repelled L. reuteri, L. rhamnosus GG, L. plantarum, L. delbrueckii and B. lactis.
Even within certain species of L. acidophilus and others, the researchers found that certain concentrations promoted growth among some and repelled growth among others.
This and other research has led to the postulation that bacteria utilize kynurenic acid to adjust their environment to their liking, and to the liking of those species they work well with. And those species that don't work well together will maintain different levels of kynurenic acid in order to maintain their colonies.
This tendency of regulating their environments using kynurenic acid is also seen in the production of another acid – lactic acid – which certain species of bacteria – notably lactic acid producing species (hence the name "lactobacillus") – use to regulate their environment and irritate their competitors.
We might thus compare this colony-regulating process similar to how an audience will cheer on their team and boo their opponent's team. But instead of sound, these smart bacteria utilize the concentration of acids.
And this ability to regulate kynurenic acid levels within the gut – and thus within the rest of the body – ties in directly to how our gut bacteria influence our mental health as well as our metabolism and disease proclivities.
While kynurenic acid isn't the only tool that bacteria utilize to regulate our body's metabolism, it is certainly one of the complex facilities that these smart creatures use to help regulate our entire physiology.
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