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Triglycerides serve as crucial long-term energy storage molecules in microorganisms, providing a dense source of metabolic energy. Their breakdown is mediated by lipases, which hydrolyze triglycerides into glycerol and free fatty acids. Each of these components follows distinct metabolic pathways, ultimately contributing to ATP synthesis and cellular energy homeostasis.Glycerol MetabolismGlycerol, released from triglyceride hydrolysis, is phosphorylated by glycerol kinase to form...
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The phylum Bacteroidota includes over 700 species classified into four primary orders: Bacteroidales, Cytophagales, Flavobacteriales, and Sphingobacteriales. These gram-negative, non-sporulating rods exhibit saccharolytic capabilities and can be aerobic or fermentative, encompassing obligate aerobes, facultative aerobes, and obligate anaerobes. Many species display gliding motility, though some are nonmotile or use flagella. The genus Bacteroides is well-studied due to its significant role in...
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Firmicutes is a diverse phylum of Gram-positive bacteria characterized by a low GC content in their genomes. This phylum includes organisms with monoderm or diderm cell envelopes, highlighting a complex evolutionary history. Firmicutes comprises several major orders, including Lactobacillales, Clostridiales, and Bacillales, which exhibit remarkable diversity in their morphology, metabolism, and ecological roles.The order Lactobacillales includes lactic acid bacteria, which are fermentative...
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Related Experiment Video

Updated: Sep 6, 2025

Optimized Analysis of In Vivo and In Vitro Hepatic Steatosis
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Optimized Analysis of In Vivo and In Vitro Hepatic Steatosis

Published on: March 11, 2017

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Bacteroides fight fatty liver.

Annalisa M VanHook1

  • 1Science Signaling, AAAS, Washington, DC 20005, USA.

Science Signaling
|June 28, 2022
PubMed
Summary
This summary is machine-generated.

Commensal bacteria sphingolipids travel to the liver, effectively reducing lipid buildup in a mouse model of fatty liver disease (hepatic steatosis). This highlights a novel therapeutic pathway for metabolic disorders.

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Area of Science:

  • Microbiology
  • Hepatology
  • Lipid Metabolism

Background:

  • Hepatic steatosis, or fatty liver disease, is a growing health concern linked to metabolic dysfunction.
  • The gut microbiome plays a crucial role in host metabolism, but its direct impact on liver lipid accumulation is not fully understood.

Purpose of the Study:

  • To investigate the role of sphingolipids derived from commensal gut bacteria in regulating liver lipid metabolism.
  • To determine if bacterial sphingolipids can ameliorate hepatic steatosis in a preclinical model.

Main Methods:

  • Utilized a mouse model of diet-induced hepatic steatosis.
  • Administered specific sphingolipids derived from commensal bacteria.
  • Assessed liver lipid content, gene expression related to lipid metabolism, and bacterial translocation.

Main Results:

  • Bacterial sphingolipids were detected in the liver following oral administration.
  • Significant reduction in hepatic lipid accumulation was observed in treated mice compared to controls.
  • Changes in key genes involved in fatty acid synthesis and oxidation were noted in the liver.

Conclusions:

  • Sphingolipids originating from commensal gut bacteria can effectively reach the liver.
  • These bacterial sphingolipids demonstrate a therapeutic potential for normalizing lipid accumulation in hepatic steatosis.
  • This study reveals a novel mechanism linking gut microbiota-derived metabolites to liver health.