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Quantifying bacteria-borne bile
that may cause metabolic disease

John Arnst
Feb. 4, 2020

Beyond breaking down food, the steroid bile acids produced both by our livers and by our intestinal inhabitants have a range of functions, from helping absorb lipids and fat-soluble vitamins to acting as signaling molecules for myriad pathways.

Liver-woodcut-JLR-BILE-445x727.jpg
WELLCOME COLLECTION
The liver, pictured here in a Chinese woodcut from the Ming period, is responsible
for the production of primary bile acids.

When gut microbes use amino acids to conjugate metabolites or primary bile acids created by the liver, secondary bile acids are formed. These secondary acids are linked to an increased risk of metabolic diseases, but their physiochemical properties make it difficult to puzzle out which bile acids are being produced by which gut bacteria. To rectify this, researchers in ’s laboratory at the Cleveland Clinic’s Center for Microbiome and Human Health have developed a new stable isotope dilution liquid chromatography-tandem mass spectrometry method to quantify bile acids in mice and humans. They in the Journal of Lipid Research.

Ima Nemet is a senior scientist in Hazen’s lab and the corresponding author on the paper. “We know that so many bile acids have been known and studied for a long time, but we wanted to have some very robust methods that can be very easily used for large clinical studies,” Nemet said. “When we run these large cohorts, we use multiple instruments that are sometimes even from different vendors. So we wanted to have something that’s ‘clickable’ on all different types of machines.”

Eating foods containing high amounts of choline, notably red meat, spurs gut bacteria to produce the bile acid trimethylamine N-oxide, or TMAO, Hazen and colleagues . TMAO can cause plaque to accumulate in arteries and is a predictor of heart attacks. They that TMAO derived from dietary sources of choline was elevated in cases of chronic kidney diseases.

To validate their new analytical method, a bile acid panel, the researchers examined circulating levels of more than 50 primary and secondary bile acids in serum and fecal samples from mice and humans. They used the panel to identify a handful of circulating bile acids associated with diabetes in samples obtained from a study of people with Type 2 diabetes.

Nemet was intrigued to find that bacteria played a role in regulating the production of a number of primary bile acids that were thought to be produced exclusively by the liver.

“The circulating levels of three primary bile acids are completely dependent on microbial activity,” she said. “That’s really interesting for me, because usually people say primary bile acids are host-derived, but … if we put humans or mice on antibiotics, these levels go down. That means the majority of these bile acids are coming from microbial contribution, even though we’re calling them primary.”

Nemet and Hazen plan to use the bile panel to test samples from larger clinical studies before homing in on the specific mechanisms by which bile acids increase the risk of Type 2 diabetes, which potentially could be disrupted by small-molecule drugs.

“This is our start in looking into the contribution of bile acids in developing metabolic diseases,” Nemet said. “There are now a plethora of experiments where we can now look and see whether these metabolites are just associations or whether they are driving Type 2 diabetes.”

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John Arnst

John Arnst was a science writer for ASBMB Today.

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