Scienza e Tecnologia
Noster Microbiome Research: Analyzing Bacterial Digest
The researchers focused on the metabolites resulting from the breakdown of polyunsaturated fatty acids (PUFAs), which are found in vegetable oils. Gut bacteria convert PUFAs into fatty acid metabolites that cannot be produced by host enzymes. For the detection of these metabolites, Tsuji and colleagues used a technique called liquid chromatography tandem mass spectroscopy (commonly abbreviated as LC-MS/MS), enabling selective and precise concentration measurements of the compounds. An essential part of the work consisted in obtaining synthetic standards of the metabolites — biogenically prepared compounds with known concentration, with which the LC-MS/MS method could be developed.
The scientists tested their method by analyzing mouse feces; they successfully detected several fatty acid metabolites produced by the gut microbiota. The obtained concentration estimates were in the micromolar range, which is an indication that the method is sensitive enough to monitor natural levels of fatty acid metabolites in biological systems. The researchers also applied the method to tissues obtained from mice subjected to different diets. The obtained metabolite levels showed good correlation with the dietary sources (vegetable oils) of PUFAs.
The method of Tsuji and colleagues enables the efficient detection and quantification of 45 metabolites produced by the gut microbiota, and holds promise for nutritional and medical research. Quoting the scientists: "This analytical method will be improved to aid future studies to elucidate the biological significance of bacteria-derived fatty acid metabolites in controlling host health and diseases."
Liquid chromatography tandem mass spectroscopy (LC-MS/MS) is a technique used for the detection and quantification of chemical compounds in a sample. It combines liquid chromatography, a technique used for physically separating substances, and mass spectroscopy, used for analyzing masses of substances. LC-MS/MS can be used for analyzing a wide range of chemical compounds, including metabolites.
In LC-MS/MS, a sample is first pumped through an adsorbent (stationary phase, the LC column) by a liquid (mobile phase) at high pressure. Chemical interactions between the sample's components, the stationary and the mobile phase cause different migration rates of the sample's components throughout the LC column, which results in their separation. By choosing particular stationary and mobile phase compositions, customized separation can be achieved for a large variety of samples. After the LC step, the LC effluent is fed into a mass spectrometer, which ionizes particles. Ionized particles are deflected by means of an electromagnetic field; the amount of deflection depends on their mass-to-charge ratio.
Kowa Tsuji from Noster Inc. and colleagues now developed a LC-MS/MS procedure enabling the comprehensive analysis of 45 metabolites derived from polyunsaturated fatty acids (PUFAs).
Kowa Tsuji, Wataru Shimada , Shigenobu Kishino , Jun Ogawa , and Makoto Arita . Comprehensive analysis of fatty acid metabolites produced by gut microbiota using LC-MS/MS-based lipidomics, (2022).
DOI: 10.24508/mms.2022.11.003
URL: http://www.jsbms.jp/english/publish/03_04_Reserch-Paper_Tsuji_et_al_4th_sawa.pdf
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