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Ketogenic diets alter gut microbiome in humans, mice

May 20, 2020

Low-carb, high-fat ketogenic diets, which have attracted public interest in recent years for their proposed benefits in lowering inflammation and promoting weight loss and heart health, have a dramatic impact on the microbes residing in the human gut, collectively referred to as the microbiome, according to a new UC San Francisco study of a small cohort of volunteer subjects. Additional research in mice showed that so-called "ketone bodies," a molecular byproduct that gives the ketogenic diet its name, directly impact the gut microbiome in ways that may ultimately suppress inflammation, suggesting evidence for potential benefits of ketone bodies as a therapy for autoimmune disorders affecting the gut.

In ketogenic diets, carbohydrate consumption is dramatically reduced in order to force the body to alter its metabolism to using fat molecules, rather than carbohydrates, as its primary energy source -- producing ketone bodies as a byproduct -- a shift that proponents claim has numerous health benefits.

"I got interested in this question because our prior research showed that high-fat diets induce shifts in the gut microbiome that promote metabolic and other diseases in mice, yet ketogenic diets, which are even higher in fat content, have been proposed as a way to prevent or even treat disease," said Peter Turnbaugh, PhD, a UCSF associate professor of microbiology and immunology, member of the UCSF Benioff Center for Microbiome Medicine and a Chan Zuckerberg Biohub Investigator. "We decided to explore that puzzling dichotomy."

In their new study, published May 20, 2020, in Cell, Turnbaugh and colleagues partnered with the nonprofit Nutrition Science Initiative to recruit 17 adult overweight or obese nondiabetic men to spend two months as inpatients in a metabolic ward where their diets and exercise levels were carefully monitored and controlled.

For the first four weeks of the study, the participants were given either a "standard" diet consisting of 50 percent carbs, 15 percent protein and 35 percent fat, or a ketogenic diet comprising 5 percent carbs, 15 percent protein and 80 percent fat. After four weeks, the two groups switched diets, to allow the researchers to study how shifting between the two diets altered participants' microbiomes.

Analysis of microbial DNA found in participants' stool samples showed that shifting between standard and ketogenic diets dramatically changed the proportions of common gut microbial phyla Actinobacteria, Bacteroidetes, and Firmicutes in participants' guts, including significant changes in 19 different bacterial genera. The researchers focused in on a particular bacterial genus -- the common probiotic Bifidobacteria -- which showed the greatest decrease on the ketogenic diet.

To better understand how microbial shifts on the ketogenic diet might impact health, the researchers exposed the mouse gut to different components of microbiomes of humans adhering to ketogenic diets, and showed that these altered microbial populations specifically reduce the numbers of Th17 immune cells -- a type of T cell critical for fighting off infectious disease, but also known to promote inflammation in autoimmune diseases.

Follow-up diet experiments in mice, in which researchers gradually shifted animals' diets between low-fat, high-fat and low-carb ketogenic diets, confirmed that high-fat and ketogenic diets have opposite effects on the gut microbiome. These findings suggested that the microbiome responds differently as the level of fat in the animals' diet increases to levels that promote ketone body production in the absence of carbs.

The researchers observed that that as animals' diets were shifted from a standard diet towards stricter carbohydrate restriction, their microbes also began shifting, correlated with a gradual rise in ketone bodies.

"This was a little surprising to me," Turnbaugh said. "As someone who is new to the keto field, I had assumed that producing ketone bodies was an all-or-nothing effect once you got to a low enough level of carb intake. But this suggests that you may get some of the effects of ketosis quite quickly."

The researchers tested whether ketone bodies alone could drive the shifts they had seen in the gut's microbial ecosystem by directly feeding ketone bodies to mice. They found that even in mice who were eating normal amounts of carbohydrates, the mere presence of added ketones was enough to produce many of the specific microbial changes seen in the ketogenic diet.

"This is a really fascinating finding because it suggests that the effects of ketogenic diets on the microbiome are not just about the diet itself, but how the diet alters the body's metabolism, which then has downstream effects on the microbiome," Turnbaugh said. "For many people, maintaining a strict low-carbohydrate or ketogenic diet is extremely challenging, but if future studies find that there are health benefits from the microbial shifts caused by ketone bodies themselves, that could make for a much more palatable therapeutic approach."
-end-
Authors: Additional authors on the study were Qi Yan Ang, Margaret Alexander, Vaibhav Upadhyay, and Jessie A. Turnbaugh of UCSF; John C. Newman, Eric Verdin of the Buck Institute for Research on Aging in Novato, CA; Yuan Tian, Jingwei Cai, and Andrew D. Patterson of Penn State University; Kevin D Hall, of the National Institute of Diabetes and Digestive and Kidney Diseases; Rudolph L. Leibel and Michael Rosenbaum of Columbia University; and Eric Ravussin of Pennington Biomedical Research Center in Baton Rouge.

Funding: The research was supported by the Nutrition Science Initiative, the National Institutes of Health (NIH) (R01HL122593; R21CA227232; P30DK098722), the UCSF SSEW Initiative, and the Searle Scholars Program (SSP-2016-1352). Ang was supported by A*STAR. Patterson is supported by the Pennsylvania Dept of Health using Tobacco CURE funds. Turnbaugh holds an Investigators in the Pathogenesis of Infectious Disease Award from the Burroughs Wellcome Fund, is a Chan Zuckerberg Biohub investigator, and is a Nadia's Gift Foundation Innovator supported, in part, by the Damon Runyon Cancer Research Foundation (DRR-42-16).

Disclosures: Co-authors Newman and Verdin are co-founders with equity interest of BHB Therapeutics, which is developing products related to ketone bodies. Turnbaugh is on the scientific advisory boards for Kaleido, Pendulum, Seres, and SNIPRbiome; there is no direct overlap between the current study and these consulting duties.

About UCSF: The University of California, San Francisco (UCSF) is exclusively focused on the health sciences and is dedicated to promoting health worldwide through advanced biomedical research, graduate-level education in the life sciences and health professions, and excellence in patient care. UCSF Health, which serves as UCSF's primary academic medical center, includes top-ranked specialty hospitals and other clinical programs, and has affiliations throughout the Bay Area. Learn more at ucsf.edu, or see our Fact Sheet.

University of California - San Francisco

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