Directed Non-targeted Mass Spectrometry and Chemical Networking for Discovery of Eicosanoids and Related Oxylipins

Jeramie D. Watrous; Teemu J. Niiranen; Kim A. Lagerborg; Mir Henglin; Yong Jiang Xu; Jian Rong; Sonia Sharma; Ramachandran S. Vasan; Martin G. Larson; Aaron Armando; Samia Mora; Oswald Quehenberger; Edward A. Dennis; Susan Cheng; Mohit Jain

doi:10.1016/j.chembiol.2018.11.015

Directed Non-targeted Mass Spectrometry and Chemical Networking for Discovery of Eicosanoids and Related Oxylipins

Jeramie D. Watrous, Teemu J. Niiranen, Kim A. Lagerborg, Mir Henglin, Yong Jiang Xu, Jian Rong, Sonia Sharma, Ramachandran S. Vasan, Martin G. Larson, Aaron Armando, Samia Mora, Oswald Quehenberger, Edward A. Dennis, Susan Cheng, Mohit Jain

Producción científica: Article › revisión exhaustiva

62 Citas (Scopus)

Resumen

Eicosanoids and related oxylipins are critical, small bioactive mediators of human physiology and inflammation. While ∼1,100 distinct species have been predicted to exist, to date, less than 150 of these molecules have been measured in humans, limiting our understanding of their role in human biology. Using a directed non-targeted mass spectrometry approach in conjunction with chemical networking of spectral fragmentation patterns, we find over 500 discrete chemical signals highly consistent with known and putative eicosanoids and related oxylipins in human plasma including 46 putative molecules not previously described. In plasma samples from 1,500 individuals, we find members of this expanded oxylipin library hold close association with markers of inflammation, as well as clinical characteristics linked with inflammation, including advancing age and obesity. These experimental and computational approaches enable discovery of new chemical entities and will shed important insight into the role of bioactive molecules in human health and disease. Watrous et al. describe the integration of directed non-targeted mass spectrometry and computational chemical networking to discover hundreds of previously unrecognized inflammatory oxylipins metabolites in human plasma, providing a foundation for new insight into the role of oxylipins in human biology.

Idioma original	English (US)
Páginas (desde-hasta)	433-442.e4
Publicación	Cell Chemical Biology
Volumen	26
N.º	3
DOI	https://doi.org/10.1016/j.chembiol.2018.11.015
Estado	Published - mar 21 2019
Publicado de forma externa	Sí

ASJC Scopus subject areas

Drug Discovery
Molecular Medicine
Molecular Biology
Biochemistry
Clinical Biochemistry
Pharmacology

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10.1016/j.chembiol.2018.11.015

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Watrous, J. D., Niiranen, T. J., Lagerborg, K. A., Henglin, M., Xu, Y. J., Rong, J., Sharma, S., Vasan, R. S., Larson, M. G., Armando, A., Mora, S., Quehenberger, O., Dennis, E. A., Cheng, S., & Jain, M. (2019). Directed Non-targeted Mass Spectrometry and Chemical Networking for Discovery of Eicosanoids and Related Oxylipins. Cell Chemical Biology, 26(3), 433-442.e4. https://doi.org/10.1016/j.chembiol.2018.11.015

Watrous, JD, Niiranen, TJ, Lagerborg, KA, Henglin, M, Xu, YJ, Rong, J, Sharma, S, Vasan, RS, Larson, MG, Armando, A, Mora, S, Quehenberger, O, Dennis, EA, Cheng, S & Jain, M 2019, 'Directed Non-targeted Mass Spectrometry and Chemical Networking for Discovery of Eicosanoids and Related Oxylipins', Cell Chemical Biology, vol. 26, n.º 3, pp. 433-442.e4. https://doi.org/10.1016/j.chembiol.2018.11.015

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abstract = "Eicosanoids and related oxylipins are critical, small bioactive mediators of human physiology and inflammation. While ∼1,100 distinct species have been predicted to exist, to date, less than 150 of these molecules have been measured in humans, limiting our understanding of their role in human biology. Using a directed non-targeted mass spectrometry approach in conjunction with chemical networking of spectral fragmentation patterns, we find over 500 discrete chemical signals highly consistent with known and putative eicosanoids and related oxylipins in human plasma including 46 putative molecules not previously described. In plasma samples from 1,500 individuals, we find members of this expanded oxylipin library hold close association with markers of inflammation, as well as clinical characteristics linked with inflammation, including advancing age and obesity. These experimental and computational approaches enable discovery of new chemical entities and will shed important insight into the role of bioactive molecules in human health and disease. Watrous et al. describe the integration of directed non-targeted mass spectrometry and computational chemical networking to discover hundreds of previously unrecognized inflammatory oxylipins metabolites in human plasma, providing a foundation for new insight into the role of oxylipins in human biology.",

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AU - Watrous, Jeramie D.

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AU - Henglin, Mir

AU - Xu, Yong Jiang

AU - Rong, Jian

AU - Sharma, Sonia

AU - Vasan, Ramachandran S.

AU - Larson, Martin G.

AU - Armando, Aaron

AU - Mora, Samia

AU - Quehenberger, Oswald

AU - Dennis, Edward A.

AU - Cheng, Susan

AU - Jain, Mohit

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N2 - Eicosanoids and related oxylipins are critical, small bioactive mediators of human physiology and inflammation. While ∼1,100 distinct species have been predicted to exist, to date, less than 150 of these molecules have been measured in humans, limiting our understanding of their role in human biology. Using a directed non-targeted mass spectrometry approach in conjunction with chemical networking of spectral fragmentation patterns, we find over 500 discrete chemical signals highly consistent with known and putative eicosanoids and related oxylipins in human plasma including 46 putative molecules not previously described. In plasma samples from 1,500 individuals, we find members of this expanded oxylipin library hold close association with markers of inflammation, as well as clinical characteristics linked with inflammation, including advancing age and obesity. These experimental and computational approaches enable discovery of new chemical entities and will shed important insight into the role of bioactive molecules in human health and disease. Watrous et al. describe the integration of directed non-targeted mass spectrometry and computational chemical networking to discover hundreds of previously unrecognized inflammatory oxylipins metabolites in human plasma, providing a foundation for new insight into the role of oxylipins in human biology.

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KW - directed non-targeted metabolomics

KW - eicosanoids

KW - mass spectrometry

KW - oxylipins

KW - spectral networking

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Directed Non-targeted Mass Spectrometry and Chemical Networking for Discovery of Eicosanoids and Related Oxylipins

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ASJC Scopus subject areas

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