Identification and Biosynthesis of Pro-Inflammatory Sulfonolipids from an Opportunistic Pathogen Chryseobacterium gleum

鞘脂 酰基转移酶 生物合成 生物 生物化学 背景(考古学) 神经酰胺合酶 微生物学 脂质信号 古生物学
作者
Lukuan Hou,Hai‐Yan Tian,Li Wang,Zachary E. Ferris,Junfeng Wang,Mingwei Cai,Ethan A. Older,Manikanda Raja Keerthi Raja,Dan Xue,Wan‐Yang Sun,Prakash Nagarkatti,Mitzi Nagarkatti,Hexin Chen,Daping Fan,Xiaoyu Tang,Jie Li
出处
期刊:ACS Chemical Biology [American Chemical Society]
卷期号:17 (5): 1197-1206 被引量:35
标识
DOI:10.1021/acschembio.2c00141
摘要

Sulfonolipids (SoLs) are a unique class of sphingolipids featuring a sulfonate group compared to other sphingolipids. However, the biological functions and biosynthesis of SoLs in human microbiota have been poorly understood. Here, we report the discovery and isolation of SoLs from a human opportunistic pathogen Chryseobacterium gleum DSM16776. We show for the first time the pro-inflammatory activity of SoLs with mice primary macrophages. Furthermore, we used both in vivo heterologous expression and in vitro biochemical reconstitution to characterize two enzymes, cysteate synthase and cysteate fatty acyltransferase, that are specifically involved in the biosynthesis of SoLs rather than other sphingolipids. Based on these two SoL-specific enzymes, our bioinformatics analysis showed a wider distribution of SoL biosynthetic genes in microbes that had not been reported as SoL producers. We selected four of these strains and verified their cysteate synthase and cysteate fatty acyltransferase activities in SoL biosynthesis. Considering this wider distribution of SoL-specific biosynthetic enzymes in the context of SoLs' activity in mediating inflammation, a common and fundamental biological process, it may suggest a more comprehensive function of SoLs at play.
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