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The Cutting Edge of Gut Health and Disease

What is the state of the research vs hype in this emerging field?

wikimedia commons
Source: wikimedia commons

Probiotics and other microbiome manipulations have been touted as cures to everything from obesity to colitis to allergies and autism. Certainly the potential for these agents and methods are exciting, but what where is the line, now, between dangerous hype and the state of the art research being done?

The perfect way to answer that question was a symposium this past week at Harvard Medical School on gut health, microbiota, and probiotics, bringing together world experts in the field. Microbiota researchers in obesity and metabolism along with those studying effects of gut health and probiotics on the brain shared their work isolating mechanisms of action of the microbiota on these diverse physiologies.

Rob Knight, PhD, a key leader of the American Gut project, made the striking point that the cost of sequencing the microbiota for study has dropped 4-5 orders of magnitude in the last 11 years. While most of the speakers at this symposium are sponsored by large national grants and have dozens of researchers working with them, in a few years we may have many more teams working on translating what we know about the microbiota from animal research into clinical trials for humans. From his research establishing differences between gut bacteria in healthy and obese people, Knight figured out that most commercially available probiotics (which have the important FDA designation ‘GRAS’ or “generally recognized as safe) are likely not the right taxa to show robust results in humans. This means more work has to be done in safety testing for new strains before more significant progress can be made in human trials.

Emily Deans
Source: Emily Deans

Ronald Kahn, MD, from Joslin Diabetes Center in Boston, revealed startling data showing that diets designed to make certain pure genetic strains of rodents obese for diabetes and metabolism research worked differently on identical breeds of rodents if they were raised in different labs. Turns out these rodents have a different microbiota, which may be responsible for changes how they metabolize the fattening diet.

His lab has worked out fascinating interactions between how the microbes in the gut metabolize bile acids and downstream changes in how the liver processes our food, which could explain a piece of how our gut could be a key battleground in the fight against obesity and diabetes.

In both human and rodent studies, increasing obesity, insulin resistance, and fasting glucose levels correlate linearly with decreasing distance between gut bacteria and the cells lining the intestine. This invasion of bacteria on the front lines of the gut is called “bacterial encroachment,” reminding us that our relationship with our microbiota is best characterized as “frenemies.” Andrew Gewirtz leads a team at Penn that published the sobering paper in Nature last year, showing how modest amounts of emulsifying agents nearly universally found in processed food damaged the microbiome and intestinal cells, causing colitis in mice. He made the sensible recommendation to avoid processed food in favor of eating fresh, whole foods.

He’s also been able to reverse some damaging effects of more processed, purified diets in mice by adding the fermentable fiber inulin to their chow. The inulin feeds the microbiota and makes them more diverse and robust. However, along the lines of the “frenemies” designation, immune compromised mice got sick when fed inulin, meaning we have to be careful about making recommendations for fiber blooming of our gut microbes. It may make sense to use multiple step treatments, eliminating pathogens with temporary low fermentable fiber diets and possibly antibiotics, then adding in more friendly probiotics, feeding them with fiber. These complex protocols have yet to be studied in a systematic way in humans and remain experimental.

On the second day of the symposium, several scientists, including one of my favorites, psychiatrist Ted Dinan from University of College Cork, spoke about the evolving work on interactions between the gut and the brain. He’s studied small but significant differences in cognition and stress tolerance in mice born via c-section vs. vaginally, and, crucially, found some similar differences in young adult humans. He showed data from a study taking fecal transplants from depressed individuals into rats, leading to dramatic changes in behavior in these rats when they became more anxious and anhedonic. They also had elevated levels of inflammation compared to rats who got fecal transplants from non-depressed, healthy humans.

All the speakers linking gut and brain health mentioned how microbiota affect the metabolism of serotonin, a key behavioral neurotransmitter, and Elaine Hsiao, PhD of UCLA showed some of her work illuminating this complex process down to the molecular level. In addition, many microbes make neurotransmitters in the gut, which can send signals to the brain via the vagus nerve. In previous studies, certain strains of probiotics have been shown to decrease anxiety in rats, and this effect was lost by cutting the vagus nerve. Dinan has also shown improved cognition in humans using the probiotic b. longum.

He made a key point that these measured microbial effects in humans are modest but significant. If a new class of treatments for depression or anxiety is made from probiotics, they will likely be most useful for mild depression or anxiety. Most folks who experience depressive disorders have more mild cases, and many people for various reasons don’t have access to the psychotherapy that is first line for milder depression. “Psychobiotics” could be an inexpensive and low risk way to bridge the treatment gap.

One thing I took from this symposium is these researchers are not radical or dangerous visionaries trying to disrupt medicine and use fecal transplants to cure all human problems (in fact fecal transplants can be thought of as similar to blood transfusions as they carry some disease risk and are mostly still investigational). These scientists are careful, curious, and rigorous, using thousands of experiments to untangle many millions of variables. There is there’s a long way to go before we know exactly what we are doing when it comes to microbiome manipulation for ideal health in humans. But we are getting there, and the possibilities are exciting.

Read this article: The Gut Brain Connection, Mental Illness, and Disease if you would like to know more about the exact mechanisms of how gut health could impact brain health.

Copyright Emily Deans MD

image credits: wikimedia commons and Emily Deans, MD

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