In addition to changes in gut microbiota, researchers also found associations between sugary beverage consumption and 56 serum metabolite
A team of US researchers has decoded the role of gut microbes in increasing the risk of diabetes after consuming sugary drinks.
The study, published in the paper appearing in the journal Cell Metabolism, shows that metabolites produced by gut microbes might play a role.
In the study, the team identified
differences in the gut microbiota and blood metabolites of individuals with a
high intake of sugar-sweetened beverages. They found that high sugary beverage
intake—defined as two or more sugary beverages per day—led to changes in nine
species of bacteria.
Four of these species are known to produce
short-chain fatty acids—molecules that are produced when bacteria digest fibre.
These are known to positively impact glucose metabolism.
The altered metabolite profile seen in
sugary beverage drinkers was associated with a higher risk of developing
diabetes in the subsequent 10 years, said the researchers.
“Our study suggests a potential mechanism
to explain why sugar-sweetened beverages are bad for your metabolism,” said
Qibin Qi, an epidemiologist at Albert Einstein College of Medicine in New York.
“Although our findings are observational,
they provide insights for potential diabetes prevention or management
strategies using the gut microbiome,” Qi added.
The researcher noted that more than in
solid foods, added sugar in beverages “might be more easily absorbed, and they
have a really high energy density because they’re just sugar and water”.
The team examined data from over 16,000
participants. In addition to changes in gut microbiota, the researchers also
found associations between sugary beverage consumption and 56 serum
metabolites. This includes several metabolites that are produced by gut
microbiota or are derivatives of gut-microbiota-produced metabolites.
These sugar-associated metabolites were
associated with worse metabolic traits, including higher levels of fasting
blood glucose and insulin, higher BMIs and waist-to-hip ratios, and lower
levels of high-density lipoprotein cholesterol (“good” cholesterol).
“We found that several microbiota-related
metabolites are associated with the risk of diabetes,” said Qi. “In other
words, these metabolites may predict future diabetes.”
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