The underappreciated diversity of bile acid modifications

Ipsita Mohanty; Helena Mannochio-Russo; Joshua V. Schweer; Yasin El Abiead; Wout Bittremieux; Shipei Xing; Robin Schmid; Simone Zuffa; Felipe Vasquez; Valentina B. Muti; Jasmine Zemlin; Omar E. Tovar-Herrera; Sarah Moraïs; Dhimant Desai; Shantu Amin; Imhoi Koo; Christoph W. Turck; Itzhak Mizrahi; Penny M. Kris‐Etherton; Kristina H. Petersen; Jennifer Fleming; Tao Huan; Andrew D. Patterson; Dionicio Siegel; Lee R. Hagey; Mingxun Wang; Allegra T. Aron; Pieter C. Dorrestein

doi:10.1016/j.cell.2024.02.019

The underappreciated diversity of bile acid modifications

Ipsita Mohanty(University of California San Diego), Helena Mannochio-Russo(University of California San Diego), Joshua V. Schweer(University of California San Diego), Yasin El Abiead(University of California San Diego), Wout Bittremieux(University of Antwerp), Shipei Xing(University of British Columbia), Robin Schmid(University of California San Diego), Simone Zuffa(University of California San Diego), Felipe Vasquez(University of California San Diego), Valentina B. Muti(University of California, Riverside), Jasmine Zemlin(University of California San Diego), Omar E. Tovar-Herrera(Ben-Gurion University of the Negev), Sarah Moraïs(Ben-Gurion University of the Negev), Dhimant Desai(Pennsylvania State University), Shantu Amin(Pennsylvania State University), Imhoi Koo(Pennsylvania State University), Christoph W. Turck(Kunming Institute of Zoology), Itzhak Mizrahi(Ben-Gurion University of the Negev), Penny M. Kris‐Etherton(Pennsylvania State University), Kristina H. Petersen(Pennsylvania State University), Jennifer Fleming(Pennsylvania State University), Tao Huan(University of British Columbia), Andrew D. Patterson(Pennsylvania State University), Dionicio Siegel(University of California San Diego), Lee R. Hagey(University of California San Diego), Mingxun Wang(University of California, Riverside), Allegra T. Aron(University of Denver), Pieter C. Dorrestein(University of California San Diego)

Cell

March 1, 2024

10.1016/j.cell.2024.02.019

Cited by 185Open Access

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Abstract

The repertoire of modifications to bile acids and related steroidal lipids by host and microbial metabolism remains incompletely characterized. To address this knowledge gap, we created a reusable resource of tandem mass spectrometry (MS/MS) spectra by filtering 1.2 billion publicly available MS/MS spectra for bile-acid-selective ion patterns. Thousands of modifications are distributed throughout animal and human bodies as well as microbial cultures. We employed this MS/MS library to identify polyamine bile amidates, prevalent in carnivores. They are present in humans, and their levels alter with a diet change from a Mediterranean to a typical American diet. This work highlights the existence of many more bile acid modifications than previously recognized and the value of leveraging public large-scale untargeted metabolomics data to discover metabolites. The availability of a modification-centric bile acid MS/MS library will inform future studies investigating bile acid roles in health and disease.

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