The microbiome diversifies long-to short-chain fatty acid-derived N-acyl lipids

Mannochio-Russo, Helena; Charron-Lamoureux, Vincent; van Faassen, Martijn; Lamichhane, Santosh; Nunes, Wilhan D. Goncalves; Deleray, Victoria; Ayala; Adriana; V; Tanaka, Yuichiro; Patan, Abubaker; Vittali, Kyle; Rajkumar, Prajit; El Abiead, Yasin; Zhao, Haoqi Nina; Gomes; Paulo Wender Portal; Mohanty, Ipsita; Lee, Carlynda; Sund, Aidan; Sharma, Meera; Liu, Yuanhao; Pattynama, David; Walker, Gregory T.; Norton, Grant J.; Khatib, Lora; Andalibi, Mohammadsobhan S.; Wang, Crystal X.; Ellis, Ronald J.; Moore, David J.; Iudicello, Jennifer E.; Franklin Jr, Donald; Letendre, Scott; Chin, Loryn; Walker, Corinn; Renwick, Simone; Zemlin, Jasmine; Meehan, Michael J.; Song, Xinyang; Kasper, Dennis; Burcham, Zachary; Kim, Jane J.; Kadakia, Sejal; Raffatellu, Manuela; Bode, Lars; Chu, Hiutung; Zengler, Karsten; Wang, Mingxun; Siegel, Dionicio; Knight, Rob; Dorrestein, Pieter C.
The microbiome diversifies long-to short-chain fatty acid-derived N-acyl lipids

Mannochio-Russo, Helena
Charron-Lamoureux, Vincent
van Faassen, Martijn
Lamichhane, Santosh
Nunes, Wilhan D. Goncalves
Deleray, Victoria
Ayala
Adriana
V
Tanaka, Yuichiro
Patan, Abubaker
Vittali, Kyle
Rajkumar, Prajit
El Abiead, Yasin
Zhao, Haoqi Nina
Gomes
Paulo Wender Portal
Mohanty, Ipsita
Lee, Carlynda
Sund, Aidan
Sharma, Meera
Liu, Yuanhao
Pattynama, David
Walker, Gregory T.
Norton, Grant J.
Khatib, Lora
Andalibi, Mohammadsobhan S.
Wang, Crystal X.
Ellis, Ronald J.
Moore, David J.
Iudicello, Jennifer E.
Franklin Jr, Donald
Letendre, Scott
Chin, Loryn
Walker, Corinn
Renwick, Simone
Zemlin, Jasmine
Meehan, Michael J.
Song, Xinyang
Kasper, Dennis
Burcham, Zachary
Kim, Jane J.
Kadakia, Sejal
Raffatellu, Manuela
Bode, Lars
Chu, Hiutung
Zengler, Karsten
Wang, Mingxun
Siegel, Dionicio
Knight, Rob
Dorrestein, Pieter C.
Katso/Avaa
Lataukset: 

CELL PRESS
doi:10.1016/j.cell.2025.05.015
URI
https://doi.org/10.1016/j.cell.2025.05.015
Näytä kaikki kuvailutiedot
Julkaisun pysyvä osoite on:
https://urn.fi/URN:NBN:fi-fe202601216657
Tiivistelmä
N-Acyl lipids are important mediators of several biological processes including immune function and stress response. To enhance the detection of N-acyl lipids with untargeted mass spectrometry-based metabolomics, we created a reference spectral library retrieving N-acyl lipid patterns from 2,700 public datasets, identifying 851 N-acyl lipids that were detected 356,542 times. 777 are not documented in lipid structural databases, with 18% of these derived from short-chain fatty acids and found in the digestive tract and other organs. Their levels varied with diet and microbial colonization and in people living with diabetes. We used the library to link microbial N-acyl lipids, including histamine and polyamine conjugates, to HIV status and cognitive impairment. This resource will enhance the annotation of these compounds in future studies to further the understanding of their roles in health and disease and to highlight the value of large-scale untargeted metabolomics data for metabolite discovery.
Kokoelmat